TA Select 4 - User Manual
Contents
1. Control panel for Control valves The minimal parameters to enter are the Flow value or the two Power and DT values in W and K for instance Enter or select a value for the following parameters before performing a search in the products database Mandatory parameters Select and check a parameter set between Flow and Power DT as these are exclusive Then enter a value for the corresponding parameters Flow enter the supported liquid flow through the valve Power enter the power that goes through the valve DT enter the supported temperature difference supported by the valve TA Select 4 4 Individual Selection Optional parameters Enter a value for some or all of these parameters if you want to further filter the proposed list of products Kvs check and select a value to define a flow factor over the valve 2w 3w 4w select if you are looking for a 2 way or 3 way valve Type select the valve type such as Global valve HVAC Global valve Industrial Butterfly valve Ctrl type select the type of control you are looking for such as Proportional 3 point On Off Dp check and enter a value to define a pressure difference over the valve Family select the family of valves such as CV 216 MV CV 306 GG CV 316 MZ within the valve type selected before Body Material select the material of the valve such as Bronze Brass Cast iron Connection select the connection and fitting t2. Temperature pgg Size below 2 gt g Max 200 Pa m yaMax 5 m s Pipe series Technical parameters J TA Product Information AL Quick reference sheets STAD NPT threads STAD C TBV STAF STAF SG STAF SG ANSI flanges BALANCING VALVE The STAD balancing valve delivers accurate hydronic performance TA BVS 240 243 Balancing v in an impressive range of applications Ideally suited for use on the Self acting Dp controllers secondary side in heating and cooling systems and tap water systems 8 Measuring devices and accessorie H Measuring instruments Balancing tools 4 Na Products for renovation H Control 4 Thermostatic heads and Radiator vah Tap water control l amp Shut off valves Couplings Complementary devices S 09 Full Catalogue sheets a w Balancing and Cantrel TECHNICAL DESCRIPTION Z w Balancing S A Balancing valves Application Temperature a STAD Heating and cooling systems Max working temperature 120 C Tap water systems For higher temperatures max 150 C please contact the nearest sales office NOTE DN 25 50 with smooth ends max Functions working temperature 120 C Balancing Min working temperature 20 C STAD NPT threads STAD C TBV STAF STAF SG STAF SG ANSI flanges Pre setting STAF R Measuring Material Language English 7 amp Release notes p Product documentation Tip of the day User
3. Balancing Valve Family STAD Valve STAD 25 h Example of q Valve Dp calculation TA Select 4 10 Additional Tools 10 5 Unit Conversion The Unit conversion tool is used to simply and quickly convert a value given in one unit type into another unit 41 E 1 d amp r Home Project Tools Communication oes fn a nits Ca Ki gii TA n i Viscosity Pipe pressure Kvvalues Hydronic Unit TA correction drop calculation calculator conversion Link Hydronic Other The Unit conversion button in the Tools ribbon When you select this tool in the ribbon the following window is displayed Unit Conversion Physical Type Flow Unit Unit Value Value 200 fh db 0 0556 s The Unit conversion window In this window Physical Type select the type of physical units you want to convert between pressure flow thickness area Unit select one unit on the left and another one on the right Value enter a value either in the left with the first unit or in the right with the second unit The other value is automatically calculated using the other unit as illustrated TA Select 4 10 Additional Tools 10 6 TA Link The TA Link tool is used to check the connection with a TA Link and to compute according to the TA Link type the analogue signal output it will issue when mounted on the selected valve in the specified configuration E c aia bee n Home Proj
4. branch return secondary branch supply secondary control valve return secondary control valve supply secondary 30 TA Select 4 4 Individual Selection 4 2 6 4 Balancing and control valves a The control panel for balancing and control valves is illustrated hereunder Control pane for Balancing and control valves The minimal parameters to enter are the Flow value or the two Power and DT values in W and K for instance Enter or select a value for the following parameters before performing a search in the products database Mandatory parameters Select and check a parameter set between Flow and Power DT as these are exclusive Then enter a value for the corresponding parameters Flow enter the supported liquid flow through the valve Power enter the power that goes through the valve TA Select 4 4 Individual Selection DT enter the supported temperature difference supported by the valve 2w 3w select if you are looking for a 2 way or 3 way valve Ctrl type select the type of control you are looking for such as Proportional 3 point On Off Optional parameters Enter a value for some or all of these parameters if you want to further filter the proposed list of products Dp check and enter a value to define a pressure difference over the valve Family select the family of valves such as TBV C TA FUSION C
5. Depending on previous mandatory parameters settings some of the following ones may propose only one value and thus cannot be changed Show DpC connection scheme check this option to display a diagram of the valve connection in the circuit as illustrated below Type select the valve type such as DpC Std HVAC or DpC High Dp Family select the family of valves such as STAP DA 50 DAF 50 within the valve type selected before Body Material select the material of the valve such as Ametal Bronze Cast iron Stainless steel Connection select the connection and fitting type such as Thread Flange Solder Version select the valve version such as Standard PT 90 PN select the pressure class T ee eal Select Dp control set check this option to propose only complete kit including the controler and its accessories You can leave these parameters with their default value launch a first suggestion and according to the results narrow your search by using more parameters Search results Then press the ENTER key or click on the Suggest button to get a list of proposed products as detailed in the Selection Results section TA Select 4 4 Individual Selection DpC connection schemes The following connections schemes are available for Dp controllers ysueig dq idq branch return primary youeiq dq idg branch supply primary control valve return primary control valve supply primary
6. Please note that for a basic search you can use the default values for most parameters 1 Select or enter your preferred values for the different selection parameters Select the Product Types you are looking for balancing control or radiator valve Dp controller Select the Pipes Parameters such as the type and the size of your installation pipes Set the Technical Parameters with more detailed technical parameters about your system Set the Fluid Characteristics such as the temperature and the type of fluid used in your system 2 Select in the Control Panel the high level parameters of your system and filter the products resulting from the selection based on mechanical data such as valve type family connection Once you have selected the products you are looking for you can generate a list of these products review or change them generate and export a bill of material etc as described in the following sections 3 Launch the automatic selection and get the Suggest Results once you have defined your parameters 4 Make your own Selection of products among the automatically proposed list 9 Output the resulting bill of material as described in Results Management TA Select 4 will propose only products compatible with your parameters selection In order to let you refine your search using only some parameters without specifying some others most selectable parameters have a default don t mind value This value i
7. The lower part that you can expand or hide using the or O button displays additional compatible products Inthe lower part click on the icon to collapse the table and keep only the selected line and the icon to expand the table again You can adjust any column size by clicking and dragging the column separator in the table header line As it is not always possible to fully comply with your settings or the proposed product will not be used in an optimal configuration several indications such as colours or notes are added and visible in this list Green text indicates the optimal recommended products according to your settings Red text indicates exceeding low or high flow possible laminar flow regime or destructive flow properties Orange text indicates properties that are outside the range specified in the technical parameters Additional notes indicate for example that the valve will be used in a fully open position and thus cannot be adjusted again later if needed Product selection Click on a product in the list to highlight it If accessories are available for this product an additional table is displayed at the bottom of the results list with these accessories as illustrated hereunder You can check some of these accessories to include them in your bill of material In this case they will be linked with the selected product for easy reading Manual Balancing Steel DIN 2440 ISO 65 Name Body Material C
8. Pipe pressure drop oe Target set the target linear pressure drop in the selected pipe default 150 Pa m S39 Max set the maximum linear pressure drop accepted in the selected pipe default 200 Pa m Pipe water velocity i pS Target set the target fluid velocity in the selected pipe default 1 m s 2 Max set the maximum fluid velocity accepted in the selected pipe default 2 m s 15 TA Select 4 3 Software Interface Dialogue box launcher These parameters as well as more detailed ones can be also configured in the Advanced Technical Parameters window by clicking on the dialogue box launcher as illustrated hereunder Device size Pipe pressure drop Pipe water velocity o Size above 0 Gp Target 150 Pa m po Target m s pgg Size below 2 2 GSMax 200 Pa m go Max 2 m s Technical parameters The Technical parameters dialogue box launcher 3 4 4 The Options Group This group is part of the Home tab and is illustrated hereunder Language English X amp g Product documentation User v Autosave recovery file references Options The ribbon Home tab Options group This group contains the following buttons and fields Language click on the arrow to the left on this field to select the application language you want Please note that you will have to restart the application after changing the language Product documentation click on this button to display the window illustrated below In
9. Plant decomposition The following figure illustrates a plant example Example of a plant TA Select 4 5 Hydronic Project Calculation This plant is hierarchically decomposed in several hydronic modules as follows A main hydronic module A 1 A 2 A 3 A 7 to A 11 terminal units directly connected to the main hydronic module A 4 A 5 A 6 hydronic Sub modules A 4 1 to A 4 3 terminal units connected to the A 4 hydronic module A 5 1 to A 5 4 terminal units connected to the A 5 hydronic module A 6 1 to A 6 3 terminal units connected to the A 6 hydronic module Example of a plant and its decomposition in hydronic modules Pending circuits Projects are often designed with possible future extensions in order to manage the staging of investments This means that the hydronic calculation should be sized based on these future extensions and that the valves should be configured according to the current situation During circuit design TA Select 4 enables you to insert what is called a pending circuit that is a single circuit that will represent the future extension This circuit will be taken into account for the components and pipes sizing but will not be considered for the initial valves configuration After commissioning a future extension TA Select 4 will recalculate the settings of some of these valves to cope with the new plant configuration At that time as the components have been selected based on the complete pl
10. The TA SCOPE download window Upload Click on the Upload button to open the following window In this window select on the left side the circuits and subcircuits you want to transfer Check the box next to the sub circuit name to select it for upload Click on the box icon on the right of the sub circuit name line The open box icon means that the child circuits will be uploaded with the circuit The closed box icon means that the child circuits will NOT be uploaded with the circuit TA Select 4 7 TA SCOPE and TA CBI Communication Once you have selected all circuits you want to upload click on the Upload button to transfer the data to the TA SCOPE Upload hydronic network into TA SCOPE Detected TA SCOPE software version Hydronic subset to be uploaded to the TA SCOPE i Click on the box icon beside a hydronic module to upload this module to the TA SCOPE without its child arcuits The TA SCOPE upload window Maintenance Click on the Maintenance button to open the following window In this window the following buttons are available to perform maintenance operations on your TA SCOPE Delete downloaded TA SCOPE files TA Select 4 keeps a backup copy of all downloaded data from TA SCOPE This function performs a purge of these backup file Clean up TA SCOPE memory All data hydronic circuits quick measurements and loggings stored in the TA SCOPE will be deleted Reload TA SCOPE software
11. 8 Hydraulic Network A Logged Data zW Quick Measurements Project type Cooling 7 circuit calculation circuits Replace Factor Default DT 6K ipa End g lt a TA HYDRONICS R Project seiect C Results J Info V Automatic check of hydronic calculation Communication Style Freeze hydronic circuit calculation J Ey bal Ta Water Period 2 Seg b Temperature 6 C ey Start Check hydronic Import hydronic Search and Diversity oose i period Project parameters Tools Fluid characteristics ia Measurement period Circuit Wizard Balancing type Work for control valves Control type Manual Balancing v Ovwith Kvs values Proportional modulating Module descriptio with TA valves On off Remark Terminal Unit Control valve type Total flow Hmin Return type Control only Edpilable Direct return With presetting Reverse return With presetting and measuring Pending circuit Distribution circuit 2 way control circuit 2 way injection circuit 2 way injection circuit 4 4 gt gt Distrib ITPRINT er eee Hydronic calculation output TAP NUM SCRE 3 The wizard first step 2 Click on the circuit you want to add in the window lower area The type and number of proposed circuit configurations will depend on your settings 3 Click on the Next gt gt button to go to the Circuit Wizard Second Step as described in the next sec
12. All Connections Version PH All Versions i AE e aFFAl AANA Ey 1E sais A If IN trol panel for Manual balancing valves The minimal parameters to enter are the Flow value or the two Power and Dt values in W and K for instance Enter or select a value for the following parameters before performing a search in the products database Mandatory parameters Select and check a parameter set between Flow and Power DT as these are exclusive Then enter a value for the corresponding parameters Flow enter the supported liquid flow through the valve Power enter the power that goes through the valve DT enter the supported temperature difference supported by the valve T gee a Type of regulating valve select the type of valve you are looking for such as Balancing Valve Double Regulating Valve Fixed Orifice TA Select 4 4 Individual Selection eee ee Optional parameters Enter a value for some or all of these parameters if you want to further filter the proposed list of products Dp check and enter a value to define a pressure difference over the valve Family select the family of valves such as STAD TBV MD 01 within the valve type selected before Body Material select the material of the valve such as Ametal Bronze Cast iron Stainless steel Connection select the connection and fitting type such as Thread Flange Solder Version select the valve version such as Without drain With
13. Glossary management Enter your text in the Remark text area If you want to keep this text and reuse it easily later enter a name for it in the Select remark from glossary box and click on the save button next to it If you want to reuse an existing text select it in the Select remark from glossary drop down list the text will automatically be inserted in the Remark text area Click OK to confirm the selection or Cancel to return to the previous window TA Select 4 4 Individual Selection 4 5 TA Fusion TA Select 4 supports and proposes in its selection the TA Fusion components as well as complete sets including a balancing valve an actuator and all relevant accessories Examples of TA Fusion valves These innovative pressure independent control and balancing valves for heating and cooling systems combine the key hydronic functions of control and balancing in one valve Adjustable maximum flow and inherent independent EQM characteristics allow correct valve sizing and optimum system controllability The measuring points enable accurate measurement of flow differential pressure temperature and available differential pressure Selection Description Complementary information Balancing and control valve set First reference TA FUSION C 32 TA MC 100FSR 230 Second reference Balancing and control valve Quantity TA FUSION C 32 Rangeability gt 100 Leakage 0 of Kvs
14. Om 32 1 1 4 om 32 1 1 4 1 20 3 4 1 20 3 4 1 15 1 2 1 15 1 2 Diversity factor result page The left part of the window displays the diversity factor effect on the valves selection in a graphical and a table form The right part of the window displays the diversity factor effect on the pipes selection in a graphical and a table form You can easily see the reduction allowed in the size of some of the valves and some of the pipe lengths TA Select 4 5 Hydronic Project Calculation OOOO SSS SS SSS SS 5 6 5 Fluid Characteristics Water iM Temperature 9 5 C Fluid characteristics Ta The Project ribbon Fluid characteristics group Define the fluid water and additive used in your system The fluid characteristics will be automatically computed and used in the calculation made during the project calculation The Water Characteristics window is described in the Fluid Characteristics section Please note that the Fluid Characteristics you enter when performing different operations such as individual selection hydronic calculation or using the additional tools are independent from one another If you change the fluid or its temperature here these values will NOT be changed in other TA Select 4 parts 5 6 6 Measurement Period Period oA 7 fap Start Choose ia End period Measurement period The Project ribbon Measurement Period group This group is active and can be used only wh
15. V Autosave recovery file references About TA Select 4 Options Information STAD BALANCING Ell STAG Shut off The valves are made of AMETAL TA BVS 240 243 Balanci Draining optional Seat seal Stem with EPDM O ring STAV Spindle seal EPDM O ring Double regulating valves Dimensions Handwheel Polyamide Fixed orifices u DN 10 50 Smooth ends Prefab Insulations Nipple AMETAL Control valves Pressure class Sealing DN 25 50 EPDM O ring H Differential Pressure Controllers PN 20 H Measuring devices w a W Marking TA HYDRONICS Projet select C Results Info Female threads Theasd aernrdima ta ICA 350 Theana lnamnath a eenmnedimae ta ICM ain AMETAL is the dezincification resistant alloy of TA lt Body TA PN 20 150 DN and inch size Handwheel Valve type and DN Example of a quick reference sheet CAP NUM SCRL 119 TA Select 4 10 Additional Tools The second part is the Full catalogue sheets as illustrated hereunder 1 2F bel Eh test tsp TA Select 4 w TA Product Information E Quick reference sheets H a w B gt Kv values DN 10 09 DN 15 14 0 5 0 127 0 511 0 60 1 14 1 75 2 56 1 0 090 0 212 0 757 1 03 1 90 3 30 4 20 15 0 137 0 314 1 19 2 10 3 10 4 60 7 20 En 2 0 260 0 571 1 90 3 62 4 66 6 10 11 7 h 2 5 0 480 0 877 2 80 5 30 7 10 8 80 16 2 Seif acting Dp
16. see es es Named A replacement performed Replace confirmation window 5 6 4 Diversity Factor A Sy te Check hydronic Import hydronic Search and Diversity circuit calculation circuits Replace Factor Tools The Project ribbon Tools group fi The project must be set as follows prior to using this function Hydronic circuit calculation activated Freeze hydronic circuit calculation unchecked The diversity factor When you define your circuit and your plant you usually size your components to take into account a circuit operating at its full capability that is all terminal units delivering their full power together However in practice this situation is never required and so your whole installation is oversized To answer this problem and help you reduce the cost of the installation TA Select 4 allows you to define and apply a Diversity Factor to a part or to your complete plant The diversity factor can be regarded as the probability that a piece of equipment will come on during the peak load in the plant During the hydronic calculations TA Select 4 will review possible patterns and determine for each pipe the design flow required to Beas close as possible to the specified diversity factor Allow full flow and full power at each terminal unit TA Select 4 5 Hydronic Project Calculation SS eee SSS SSS SE SSE This means that regarding Production units the diversity fact
17. Dp controllers i Pipes Hydronic circuit calculation preferences for actuators Automatically select actuators for control valve Reset to default KK Cancel Technical Parameters window Actuators section In this section you can define the following parameters Automatically select actuators for control valve is selected if you want TA Select 4 to automatically propose the actuators best fitted to the selected control valves Select control set to select the actuator among the existing complete sets of valve actuator and accessories Power supply is the default power supply used by the actuator automatically selected by the system 24 VAC 24 VDC or 230 VAC Input signal is the default input signal type used by the actuator automatically selected by the system On off 3 point 0 10 V 2 10 V 0 20 mA or 4 20 mA Fail safe is the actuator behavior in case of control fault used by the actuator automatically selected by the system None Extanding Retracting TA Select 4 9 System Configuration The DP controllers section Technical Parameters El General z Control z Fress indep control valves Dp controllers z Fixed orifices z Radiator valves be Pipes Device sizes ronic greuit calculation H Balancing valves 2 Control valves Press indep control valves i Actuators gt Dp controllers s Balancing and control valves Hydronic circuit calculation preferences for Dp controllers
18. P 150 Pa m eo 1 m s oO Product documentation Q Tip of the day Temperature C z cay 2 gt a 200 Pa m yo 2 m s V Autosave recovery file ae a About TA Select 4 Default units E Pipe series E Technical parameters ia Options Information Interface management Whole ribbon amp D ee ld Gh Untitled tsp TA Select 4 X Home Project Toals Communication style Lh Default pipe series kPa Generic Steel Pipes T i Technical E 5 parameters Default units ta Pipe series E Interface management Shortened ribbon In a shortened ribbon you can always access to the whole content of the menus by clicking on the arrow located at their bottom as illustrated below Untitled tsp TA Select 4 JEECLLER Home Project Tools Communication Wh Default pipe series kPa Hii Generic Steel Pipes Technical Parameters E i Default units ta Pipe series Ta 2 Control panel Ll E 3 Untitled a ta Hydraulic Network Release Tipof AboutTA gt Logged Data Motes the day Select 4 Interface management Shortened ribbon Extended display The Style menu on the right side of the ribbon allows you to modify the visual style of the application by selecting of the Office 2007 themes Office 2007 Blue Style Office 2007 Black Style Office 2007 Silver Style Office 2007 Aqua Styl
19. TA product images D HVAC symbols from TA Reset to default Technical Parameters window This window is divided in two parts with a menu tree in its left part and the parameters related to the entry selected in the menu tree in its right part The menu tree is divided in main branches 1 The General branch with all the general purpose parameters 2 The Hydronic circuit calculation branch with all parameters relating to the hydronic calculation of a circuit You can always reset all the technical parameters to their default values by clicking on the Reset to default button at the bottom of the window All restrictions in valve selection in the various entries are indicated with the warning sign A 89 TA Select 4 9 System Configuration 9 3 2 General The General section Technical Parameters B General Ced i gt Balancing Control Fress indep control valves Dp controllers Display valves in hydronic schemes as Fixed orifices TA product images D HVAC symbols from TA C Show old valves deleted from TAH range Radiator valves Pipes Device sizes Localized HVAC symbols a Hydronic circuit calculation Balancing valves Control valves Balancing and control valves Press indep control valves 2 Actuators Dp controllers Pipes Technical Parameters window General section In this section you can include valves no longer offered by TA by
20. bs Remark Adapter Adapter 02 Adapter for TA MC 100 FSE FSR actuator Actuator TA MC 100FSR 230 Close off Dp 350 kPa Arhintina Hen 1 19 9 4 fe 0 Lx Jf ce A TA Fusion kit as displayed in the Selection window TA Select 4 5 Hydronic Project Calculation 5 Hydronic Project Calculation 5 1 How to Calculate a Hydronic Project One of the main functions of TA Select 4 is to select the best suited components of a complete hydronic circuit based on a minimum of information while taking into account most parameters including fluid characteristics TA Select 4 will also output the characteristics operating condition and settings of each individual valve and controller Additionally it will enables interfacing with TA SCOPE and TA CBI to transfer the plant and retrieve the on site measurements Hydronic project calculation steps To calculate a complete hydronic project you should perform the following steps detailed in this chapter 1 Configure your project basic parameters as described in Project Configuration 2 Enter your plant and circuits as described in Hydronic Circuit Entry following the rules and principles described in Hydronic Circuit Description Once the whole circuit architecture and all the components have been entered you get the calculation results in the TA Select 4 interface main area 3 Analyse the results and if required adjust some parameters to op
21. within the valve type selected before Body Material select the material of the valve such as Ametal Ductile iron Connection select the connection and fitting type such as Thread Flange Solder Version select the valve version such as 3 way 4 way PN select the pressure class Power suply select the type of power supply such as 24 VAC 24 VDC 230 VDC Input signal select the type of input signal such as 0 10 V On off 3 point Fail safe select the type of fail safe such as None Extending Retracting ge ggg ge a t Select control set check this option to propose only complete kit including the controller and its accessories You can leave these parameters with their default value launch a first suggestion and according to the results narrow your search by using more parameters Search results Then press the ENTER key or click on the Suggest button to get a list of proposed products as detailed in the Selection Results section New TA Fusion valves and kits are available from this search windows 4 2 6 5 Pressure Independent Control valves Fa The control panel for pressure independent control valves is illustrated hereunder TA Select 4 4 Individual Selection Control panel M 3 Flow C Power fh wW DT K All Connections PN Power sup All power supph Fail safe Select control set Control pane for Pressure independent control valves The minimal pa
22. 2 Select the Add Circuit command in the context menu as illustrated hereunder 3 The circuit window opens with the Circuit Wizard First Step as described in the next section Control panel q E i Untitled af Hydraulic Network Module description Remark Be i A 1 i A 4 i 4 4 Lee i A 4 i Lock recursive Unlock recursive Edit Delete Export Export recursive ae Te A 11 z Logged Data i z Quick Measuremer Get quick ref sheet Get full cat sheet The circuit tree context menu 51 TA Select 4 5 Hydronic Project Calculation 5 4 2 Circuit Wizard First Step To add a new circuit after How to Add a New Circuit follow these steps 1 In the circuit wizard window window 2 in the following figure Terminal Unit check this box to add a terminal unit circuit and uncheck to keep a open hydronic module Return type select the Direct return or Reverse return configuration according to your circuit system Please refer to the Hydronic Circuit Description section for the difference between both configurations Set the other parameters to filter the circuits displayed in the window lower area Click on the button in the bottom left corner to open the hydraulic network tree window window 1 in the following figure E DEH Home Project Tools Project name Untitled V TA CBI compatibility Project Info Control panel 3 Untitled
23. 3 8 4 00 11 5 11 5 361 20 120 STAD 10 09 Ametal tm Thread With drain 1 2 20 10 3 8 4 00 11 5 11 5 361 20 120 STAD 10 09 Ametal tm Thread Without drain 20 10 3 8 4 00 11 5 11 5 361 20 120 Q STAD 20 Ametal tm Smooth ends With drain 3 4 20 20 3 4 2 54 3 0 772 6 92 20 120 STAD 20 Ametal tm Smooth ends With drain 1 2 20 20 3 4 2 54 3 0 772 6 92 20 120 STAD 20 Ametai tm Smooth ends Without drain 20 20 3 4 2 54 3 0 772 6 92 20 120 STAD 3 4 Ametal tm Thread NPT Without drain 20 20 3 4 2 54 3 0 772 6 92 20 120 STAD 15 14 Ametal tm Smooth ends With drain 3 4 20 15 1 2 4 00 3 93 3 93 75 9 20 120 STAD 15 14 Ametal tm Smooth ends With drain 1 2 20 15 1 2 4 00 3 93 3 93 75 9 20 120 20 118 0 379 STAD 15 14 Ametal tm Smooth ends Without drain 20 15 1 2 4 00 3 93 3 93 75 9 20 120 STAD 1 2 Ametal tm Thread NPT Without drain 20 15 1 2 4 00 3 93 3 93 75 9 20 120 STAD 10 09 Ametal tm Smooth ends With drain 3 4 20 10 3 8 4 00 11 5 11 5 361 20 120 STAD 10 09 Ametal tm Smooth ends With drain 1 2 20 10 3 8 4 007 11 5 11 5 361 20 120 STAD 10 09 Ametal tm Smooth ends Without drain 20 10 3 8 4 00 11 5 11 5 361 20 120 full opening Suggest result list If no products are found a message will be displayed as well as a window to enable you to change your search settings 38 TA Select 4 4 Individual Selection The results list is divided in 2 parts The upper part displays preferred products
24. 41 15 1 2 16 V C bureau 2 2 176 TBV C 15LF 40 1 15 1 2 17 V C R union 634 36 TBV C 20NF 3 53 20 3 4 18 V C R union 634 36 TBV C 20NF 3 48 20 3 4 z 4 4 gt gt Distribution Circuits f I Ld 1a CAP NUM SCRE 3 The Circuits tab The balancing valves of the existing circuits are set down to absorb the higher Dp They will be set to a better value when the pending circuits are commissioned at a later stage Injection circuits For injection circuits the information displayed in this tab corresponds to the primary section of these circuits TA Select 4 5 Hydronic Project Calculation 2w inj circ tab Injection circuits If injection circuits are used in your plant a third tab 2w inj circ displays the circuits components as well as the respective operating conditions and settings for the secondary part of these injection circuit as illustrated hereunder E DEHE DiversityTestd tsp TA Select 4 a Home Project Tools Communication Style Project name Freeze hydronic circuit calculation J aS hed Ta Water Period A Untitled Automatic check of hydronic calculation we _ ih Temperature 75 C E Start asse SET tydronic circu Check hydronic Import hydronic Search and Diversity n 3 Choose V TA CBI compatibility calculation a Project type Heating circuit calculation circuits Replace Factor Default DT 20K x End period Project Info la Proj
25. I h 2 kPa 2 2 K 47 7 C Logging type Power Highest sampled value 4 709e 6 W 30722 Wh 7 14 kPa 138 2 K a a aaa TA HYDRONICS 1 Project select Results Info CAP NUM SCRE 4 The Logged data window This chart may be adjusted using the ribbon button and settings The Display Hide curves group vV Flow Differential pressure Temp DpS T1 Temp Dps T2 V Differential temp V Power Display Hide curves The Display Hide curves group In this group select the data that you want to see on the chart Flow the flow values measured in the circuit i Differential pressure the differential pressure computed as the difference between the valve input static pressure and output static pressure measures by the sensor Temp DpS T1 the temperature measured on sensor T1 Temp DpS T2 the temperature measured on sensor T2 Differential temp the difference between the temperatures measured by sensor T1 and T2 T le a Power the power is calculated using sensor T1 and T2 placed in the same flow stream 84 TA Select 4 8 Logged Data Processing The Zoom group Zoom Zoom Undo 2D in out zoom zoom Zoom The Zoom group In this group select the zoom you want to apply to the chart Zoom in increase the horizontal axis resolution and decrease the set of data displayed at one time Zoom out decrease the horizontal axis resolution and increase the set of data displayed at one time Undo zo
26. SH A 2 1 11 V Cbureau6 Search and replace hydraulic circuits Manual Balancing v Manual Balancing v Distribution circuit Apply to locked circuits The Search and Replace window Search and replace hydraulic circuits Go In the left column select or unselect the circuit to which you want to apply or not the search and replace Check or uncheck individually all circuits or terminal elements hal Click on the button to check all elements at once Click on the button to uncheck all elements at once Click on the L button to expand the circuit tree a Click on the button to collapse the circuit tree 4 In the right column select the type of circuit to be replaced 5 Depending on the previous selection additional parameters may or not be adjusted to fine tune the replacement targets 6 In the right column select the additional options for the replacement process 7 Click on the Start button 8 A window similar to the one illustrated hereunder opens with the replacements to be performed TA Select 4 5 Hydronic Project Calculation 9 Confirm each replacement individually with the Apply button or all at one with the Apply All button 10 The replacements performed are displayed in this window bottom text area Search and replace hydraulic circuits A 2 1 22 V C R union 1 2 Distribution circuit ie
27. and replace pipe series M SS ASTRIUM X2 MEA Depart general sst eg M BA 1 antenne RDC Mf A 1 1 VC 235 33 labo dete Sf A 1 2 V C Stock m A A 1 3 VC 235 33 labo dete Replace with SA 1 4 VC 235 33 Halll d ent Generic Steel Pipes All Sizes v m SAA 1 5 VC 235 33 Hall d ent l M E A 2 Alimentation circuit EG ler A BE A 2 1 Antenne EGR 1N M Distribution pipes SH A 2 1 1 V C LABO DET Circuit pipes m Sf A 2 1 2 V C LABO DET M Sl A 2 1 3 V C Stock 9 A 2 1 4 V C bureau 11 Apply also to locked pipes Mh A 2 1 5 V C bureau 10 Mf A 2 1 6 V C Bureau 26 Mf A 2 1 7 V C bureau 9 A A 2 1 8 V C bureau 8 1 wA A 2 1 9 V C bureau 8 2 330 A 2 1 10 V C bureau 7 M SH A 2 1 11 V Cbureau6 Search and replace pipe series All Sizes v Find where Performed replacements The Search and Replace window Search and replace pipe series 3 In the left column select or unselect the circuit to which you want to apply or not the search and replace Check or uncheck individually all circuits or terminal elements ial Click on the button to check all elements at once g Click on the button to uncheck all elements at once Click on the button to expand the circuit tree Click on the button to collapse the circuit tree 4 In the right column select the type of pip
28. cece e cece eee ee cece cece eeeeeeeeeeeseeeees 113 10 5 Unit Conversion 2 2 2 2 oleic cece cece eee eee eee eee eee eee eee eee eee cece eeeee scenes 117 10 6 TA ONK ena Pn Dg EO eee 118 10 7 Catalogue Consulting 0 0 0 22 cece cece cece cc cece ee ce eee eee e cee cece cece cece ceeeeeeeeeeee 118 TA Select 4 What s New What s New January 2013 New Features Support of both direct return and reverse return circuits to integrate existing older reverse return circuits See Hydronic Circuit Description Optional addition of a diversity factor on the selected part of the plant to optimise and lower the requirements TA Select 4 takes into account the practical fact that the installation is never required to work at full load see Diversity Factor New injection circuit configurations to include circuits integrating pump and mixer See Hydronic Circuit Description Optional insertion of pending circuits in the plant to take into account future plant extensions See Hydronic Circuit Description Support of new TA Fusion components Direct access to the User Manual from the software interface See Individual Selection and TA Fusion Enhanced Features New organization of the advanced technical parameters to clearly separate general purpose and hydronic calculation related parameters See Advanced Technical Parameters Direct access to the User Manual from the software interface see The Inform
29. checking the box Show old valves deleted from TA range This is relevant in older installed applications that require balancing You can also choose the way the valves will be displayed in hydronic schemes between TA product images HVAC symbols from TA and Localized HVAC symbols Valve displayed as a TA Product image left or a the HVAC Symbol from TA right If the TA Product image is not available for a particular valve the HVAC Symbol from TA will be used TA Select 4 9 System Configuration The Balancing section Technical Parameters a General Balancing parameters Control Min pressure drop 3 kP Press indep control valves ee j Dp controllers Max pressure drop 100 kPa Fixed orifices Radiator valves 2 Pipes Device sizes Hydronic circuit calculation Balancing valves Control valves Balancing and control valves Press indep control valves ben Actuators Dp controllers z Pipes Reset to default Technical Parameters window Balancing section In this section you can define the following balancing valve parameters Min pressure drop is the minimum pressure drop across balancing valves The suggested and default minimum pressure drop is 3 kPa Max Pressure drop is the maximum pressure drop across balancing valves The suggested and default maximum pressure drop is 200 kPa TA Select 4 9 System Configuration The Control section Technical Parameters El Gen
30. circuit calculation section In this section you can select or deselect the Automatic check of hydronic calculation parameter This is the same parameter as the one available in the Project parameters ribbon described in the Project Configuration topic 99 TA Select 4 9 System Configuration The Balancing valves section Technical Parameters ree l Hydronic circuit calculation preferences for balancing valves Balancing 2 a i DN 50 and below DN 65 and above Fixed orifices Family ET Family STAF Radiator valves Pipes Body material Body material Castiron o Device sizes Hydronic circuit calculation Connection Connection Flange S Balancing valves i Control valves x Balancing and control valves z Fress indep control valves fua Actuators Dp controllers Pipes Version Version Standard PN 1 PN A Valves as defined above exist only from DN 65 2 1 27 to DN 150 6 Selection of other sizes and types of balancing valves will be performed if possible according to the product priorities defined for your localized version Reset to default Technical Parameters window Balancing valves section In this section you can define the balancing valve type to be used in circuit calculations A distinction is made for valves DN 50 and below and valves DN 65 and above due to the difference in body design All possible variations available are given in a drop down menu which shows applicable opt
31. corresponding field 7 Click on the Reset button to cancel any diversity factor currently applied on your circuit 8 Click on the Apply button to apply this factor to your plant and calculations 9 Click on the Close button to close this window 10 Click on the Cancel button to quit this window without applying the diversity factor TA Select 4 5 Hydronic Project Calculation e eS SS Se Analysing the diversity factor effect Once you have applied a diversity factor the result page is displayed as illustrated hereunder Diversity factor Diversity factor coefficient applied on A 5 A 6 Click here to see diversity factor dialog Diversity factor impact on pipes E A en R twins ey nee E With DF E With DF pmm E E Without DF E Without DF a a a E guid si ce mi ee a Ne EEE EOI OIOC TCI ICT IOS ICICI ga Diversity factor impact on valves nee deme docntoensowahbecehooab aac ee clesadesadecedace a a TT ae I 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 Length of pipes m 0 1 2 3 4 5 6 7 8 3 U0 n R2 B Valves before applying Valves after applying Pipes before applying Pipes after applying diversity factor diversity factor diversity factor diversity factor 125 5 125 5 2 100 4 2 100 4 130m 100 4 130m 100 4 9 50 2 9 502 60m 80 3 60m 80 3 60 m 65 2 1 2 60m 65 2 1 2 8 4011 2 gt s 4011129 30m 50 2 30m 50 2 141 32 1 1 4 11 32 1 1 4
32. details 60 TA Select 4 5 Hydronic Project Calculation Columns display buttons next to the column title grey boxes click to expand the corresponding group and display more columns and data in the table click to collapse the corresponding group and display fewer columns and data in the table pe click to expand all the groups 4 click to collapse all the groups Editing fi The project must be set as follows prior to using this function Hydronic circuit calculation activated Freeze hydronic circuit calculation unchecked You can edit some data in your circuit The whole circuit will be automatically calculated again in real time Right click on a line to open the contextual menu illustrated hereunder and access the following commands Edit to edit the circuit and open the corresponding Circuit Wizard Second Step window Lock and Unlock to lock and unlock a circuit or a set of circuits A locked setting will not be changed during a calculation Copy and Paste to copy and paste the selected circuit Delete to remove the selected circuit Edit accessories to edit the accessories linked to the selected component if relevant Only for valve components Quick reference sheet open the pdf quick reference sheet for this product Full catalogue sheet open the pdf catalogue sheet for this product Edit Delete Copy Lock all in circuit Unlock all circuit y 4 4 J a
33. drain 1 2 High temp T ee a PN select the pressure class You can leave these parameters with their default value launch a first suggestion and according to the results narrow your search by using more parameters Search results Then press the ENTER key or click on the Suggest button to get a list of proposed products as detailed in the Selection Results section TA Select 4 4 Individual Selection 4 2 6 3 Dp controllers j The control panel for Dp controllers is illustrated hereunder Unknown tae Control panel for Dp controllers Enter or select a value for the following parameters before performing a search in the products database Mandatory parameters Dp stabilized on choose between the stabilization on the branch or the control valve DpC location choose if the controller is placed in the supply or the return path Measuring valve in choose if the measuring is made on the primary or the secondary side Select and check a parameter set between Flow and Power DT as these are exclusive Then enter a value for the corresponding parameters TA Select 4 4 Individual Selection Flow enter the supported liquid flow through the valve Power enter the power that goes through the valve DT enter the supported temperature difference supported by the valve Optional parameters Enter a value for some or all of these parameters if you want to further filter the proposed list of products
34. eee dadada aoaaa oaaao anaran 34 4 2 6 7 Control valves 0 2 0 22 ee aaao aeaaaee anaana 36 4 2 7 Suggest Results 2 0 02 c ce cece cece eee e cece cece ceeeececececccecceecceceeees 38 4 3 Direct Selection 226 hccnowccedsnseavencavedenswicedentsdhsadeanddusatesceaeedciesteddenaevacdaueleeeieecscaents 40 4 4 Selection 0 0 ee ee ee eee ee ee eee eee ee eee eee eee annn 42 As A FUSTO pet se ea gees se ae ese ee oe es EE 43 TA Select 4 Table of Contents 5 Hydronic Project Calculation _ 0 22 2 occ 0000000000000000 e cece cece eee ceeeeeeeeseeeeees 44 5 1 How to Calculate a Hydronic Project 022 02 2 cece cece cece cece eee e cece eee eeeseeseeseeeeees 44 5 2 Hydronic Circuit Description 2 022 2 occ cee ee eee ec e eee eee e cece cece ee ceeeeeeeeeseeeeeseees 45 5 3 Project Configuration _ 2 22 2 222i cece ccc cece eee ec eee eect eee cece ence eee eeeeeeeeeereeeeseeteeeees 48 5 4 Hydronic Circuit Entry 2 2 22 22 ie cece cece cece cece ee cece eee eee eee ceeceeeceeserseeeeeseees 50 5 4 1 How to Add a New Circuit 000000000000000000000 000000000000000 0000000000000000 ee eee eee neces 50 5 4 2 Circuit Wizard First Step 20 2 2 2 occ ccc cee ee eee cece eee e cece eeeseeseeeeseeeees 52 5 4 3 Circuit Wizard Second Step _ 22 22 ieee eee ce eee cece eee eee LLALLA ee seeeeeeseneceeeeeee 52 5 4 4 Pipe Lengths 22 2 lice cece 000a 0000000000000000 0000000020222202 2
35. ly 25 1 0 T 0 168 TA HYDRONICS 19 A2 1 19 V C bureau 1 2 way 530 40 1 20 3 4 4 0 728 1 Project select Results p Info 4 4 gt gt Distribution Circuits CAP NUM SCRE 3 The Distribution tab Pending circuits Pending circuits are marked with a icon in the first column of the table The listed distribution pipes are sized taking into account the pending circuits The listed flows represent the current value that is without taking into account the pending circuits Injection circuits The injection circuits are visible in the Circuit Type column Reverse return circuits The Distribution pipe and the corresponding Accessories sections of the table are duplicated once for the supply pipes and once for the return pipes TA Select 4 5 Hydronic Project Calculation Circuits tab The second tab Circuits displays the components selected by TA Select 4 calculation algorithm to optimise your circuit as illustrated hereunder This window displays a table with all valves and components selected by the calculation as well as the respective operating conditions and settings ELED Home Project Tools Project name ASTRIUM X2 TA CBI compatibility Project Info ASTRIUM X2 sav tsp TA Select 4 S Communication Style Freeze hydronic circuit calculation kii opa Water Period s Yog Safety factor for pipe pressure drops 30 f E E Start ai Import hydro
36. of the pipe leading to the following circuit connection point as illustrated hereunder The Circuit pipe of the circuit is the length of the pipe inside the circuit as illustrated hereunder Circuits without a terminal unit only require a Distribution pipe length The root circuit do not require any pipe length Pipe length measurement 1 red Distribution supply pipe length 2 blue Circuit pipe length 3 green Distribution return pipe length TA Select 4 5 Hydronic Project Calculation SS eee SSS SSS SSS SS ESE Tip to differentiate distribution and circuit pipes Distribution pipes are travelled through by the flow of several circuits Circuit pipes are travelled through by the circuit flow only Distribution lengths dx in red and circuit lengths cx in blue 5 5 Distribution and Circuits Once the whole circuit architecture and all the components have been entered you get the calculation results in the TA Select 4 interface main area Hydronic calculation output Click on the Hydronic calculation output tab at the bottom of the screen to open the log of the calculation process This log lists the errors warnings and information returned by the calculation algorithm as illustrated hereunder 7 AT 500 150 200 154 25 15 75 STAD 10 09 49 5 20 3 4 5 0 513 Hydronic calculation output 0ems G 2Wamings O infos Analysis of circuits belonging to root module A started
37. radiators B Control valves valves dedicated to control the flows in a system 4 2 3 Pipes Parameters In the Pipes group in the Individual selection tab of the ribbon enter the information concerning the pipes used in your system Pipe series Steel DIN 2440 ISO 65 Pipe size All Sizes Pipes The Pipes group TA Select 4 4 Individual Selection Pipes Pipe series select the material of the pipes used among several kinds of copper steel PEX etc according to various standards If you do not know the type of pipes to be used or do not mind use the default Generic Steel Pipes Steel DIN 2446 1629 Steel NBN A25 103 104 Steel 55 1252 06 Steel TARIF 1 2 49 145 Steel TARIF 3 49 115 lt Example of available values for Pipe series Pipe size select the size of the pipes used If you do not know the diameter of your pipes or do not want to restrict it use the default All Sizes All Sizes 10 3 3 15 1 2 IF 25 19 32 1147 z LNAK lA nF 1 2 Th In 1 2 li IA C fa al H H Example of available values for Pipe size 4 2 4 Technical Parameters In the Technical parameters group in the Individual selection tab of the ribbon enter the information concerning pressures pressure drops and fluid velocity in your system Device size Pipe pressure drop Pipe water velocity og Size above 0 gt Gb Target 150 Pa m yo Target i m s egg Size belo
38. that the Fluid Characteristics you enter when performing different operations such as individual selection hydronic calculation or using the additional tools are independent from one another If you change the fluid or its temperature here these values will NOT be changed in other TA Select 4 parts Water E Temperature select the temperature at which the fluid calculations will be made such as the pressure drop This is the mean temperature between the temperature of the incoming flow and the temperature of the outgoing flow in the plant for example if the incoming flow is 70 C and the outgoing one is 50 C then you should use 60 C as the mean temperature and enter that value in the Temperature field Dialogue box launcher This parameter as well as more detailed ones can be also configured in the Water Characteristics window by clicking on the dialogue box launcher as illustrated hereunder Water M Temperature 20 C Fluid Characteristics The Water Characteristics dialogue box launcher TA Select 4 9 System Configuration Water Characteristics window In this window you should define the fluid water and additive used in your system The fluid characteristics will be automatically computed and used in the calculation made during a product selection Click OK to save your settings and close this window or Cancel to quit without saving your changes Water Characteristics for Single Valve Selection Temperature A ena
39. the selection parameters for individual product selection It is described in the Individual Selection chapter The Results tab allows the specification of the document layout preferences It is described in the Selection Results Management chapter The Information tab displays the product documentation table of content and allows browsing through the documentation It is described in the Catalogue section The Main Window This part of the interface display depends what task you are performing and on the tab selected in the control panel bottom menu The information displayed can be the data the results of product selection the hydraulic network the documentation The Status Bar This part of the interface displays in its left part the task status and short information from menu selection and its right part the keyboards indicators CAP for Cap Lock Shift Lock NUM for Num Lock and SCRL for Scroll Lock TA Select 4 3 Software Interface 3 2 Interface Management The Ribbon The display of the ribbon can change depending on the size of your application window The whole ribbon and a shortened ribbon are illustrated hereunder 4 Woch Untitled tsp TA Select 4 SERENS Home Project Tools Communication Style Flow Wh y Default pipe series Device size Pipe pressure drop Pipe water velocity Language English a Release notes Differential pressure kPa 7 Generic Steel Pipes z ost O
40. underrated piping used in calculations Max Temperature similar to the pressure specification of the piping the maximum temperature needs to be defined in order to avoid using underrated piping in the pipe pressure drop calculations The Delete Series button allows you to delete the highlighted unlocked pipe series As with the Create Series button the Delete Series button becomes Delete Pipe if you have selected and highlighted a pipe in an user input pipe series The Delete Pipe button allows you to delete the highlighted pipe from the highlighted user input pipe series 3 4 3 The Technical Parameters Group Device size Pipe pressure drop Pipe water velocity pay Size above 0 Gp Target 150 Pa m yo Target 1 m s ogg Size below 2 Gp Max 200 Pa m po Max 2 m s Technical parameters This group is part of the Home tab and allows you to enter the information concerning pressures pressure drops and fluid velocity in your system Device size ea Size above select the number of sizes above the selected pipe size to be considered for valve selection value 0 to 4 default 0 a Size below select the number of sizes below the selected pipe size to be considered for valve selection value 0 to 4 default 2 4 f the Pipe size is set to 25 1 and using the default values for the Size above and Size below TA Select 4 will list relevant products designed for 25 1 pipes but also for 20 3 4 and 15 1 2
41. 10 Additional Tools The Zeta tab Calculate Kv Values in Series ES Current Ky Nominal Condition Kv Cv Zeta 7 Value Zeta 0 5 Di 19 9 mm Zeta coefficient C Internal Diameter Pipe Name Steel BS 1387 Galvanised Pipe Size Add gt Remove Kv Total 22 39 The Zeta tab In this tab enter the Zeta pressure drop coefficient and select a pipe type and size If you do not know the pipe type used you can simply enter its internal diameter The Kv flow factor is calculated using the following equation m xD 4 oo where Cis zeta pressure drop coefficient Dis the pipe internal diameter m Kv is the flow factor 10 4 Hydronic Calculator The Hydronic calculator is used to easily and quickly compute different parameters using the standard hydronic equations 4i D Gr Home Project Tools Communication elses rrr rrr ESN i ais SSC Viscosity Pipe pressure Kv values Hydronic Unit TA correction drop calculationgcalculator conversion Link Hydronic Other The Hydronic calculator button in the Tools ribbon When you select this tool in the ribbon a window is displayed with 3 tabs allowing 3 similar kings of calculation detailed below q Kv Dp q P DT q Valve Dp For each of these calculations you should select 2 variables that you know and the system will compute the third one TA Select 4 10 Additional Tools All these calculations are dependent on
42. 2ra nonna 55 5 5 Distribution and Circuits ones covet hdudaddddvsseenededbeosucenuacdenedaeeaadedeneacsnd deccuceusuetuabes 57 5 6 Advanced Project Configuration _ 2 0aa0a000a00a0 0000000000000000 cece cece e cece cece ceeeeeeeeeereeeeeeees 62 5 61 OV CIVIC WY aie hee ee ee en ae een nen edn tes encbencube satu neaeeee ales Seed eE U 62 5 6 2 Import Hydronic Circuits 2 22 eee eee eee cece cece cece cece eeeceeeeeeeeeeteees 63 5 6 3 Search and Replace _ 202 22 o eee eee cece cece ee eee cee cece eee eeceeeeeeeceeseeeeseeeees 64 5 6 4 Diversity Factor _ 022 2 cece cee cee cece eee cee cece cece ec eee cee ceeceeceeceeeceeseeseeseees 67 5 6 5 Fluid Characteristics 000000000000000000000 0000000000000000 0000000000000000 000a a aoaaa 70 5 6 6 Measurement Period 0 220 222 cece ccc eee eee eee eee eee cece eee eee ee nenn 70 6 Results Management 222 2222 eee icc ece eect eee e cece cece ec eeceeceeeceeseeseeseees 71 6 1 Overview cc o i 2 sedaencncacdswesetesucsnscenecsechededseucecedeekaeedwssedteseddeedeenevecebeosegeesenaedeesews 71 6 2 Selection Results Edition 72 6 3 Results Output 2 22 2 ccc cece eee eee e cece cece eee e ee ceeeeeeeeeeeeeeeseeseeeees 14 7 TA SCOPE and TA CBI Communication _ 2 220 020 0222 cece cece cece cece eens 78 Ta Vi OVI CW coco see oes es a nee eos te oe aoe se ee ete een eee 78 1 2 VA SGOPE Commune aliOm 5 sitc2 Stein encase ie ened aene ced
43. 4 amp E Additive Family Density Glycols Ww kg m3 Additive Name Kinematic Viscosity Fropylene Glycol 8 2000e 5 m2 s Weight Specific Heat Freezing Point atm pres 333 e Waring Always contact your additive manufacturer for checking the compatibility of the selected additive with valve materials The water charactenstics window Temperature Temperature this is the same parameter as available in the ribbon and described above Additive Additive Family select the type of additive present in your circuit if any such as Alcohols Brines or Glycols You can also specify another additive by selecting the Any Other Fluid value Additive Name select the additive present in your circuit according to the family selected The following additive are available Alcohols Methyl Alcohol Glycerol and Ethyl Alcohol Brines Sodium Chloride Magnesium Chloride Potassium Carbonate and Calcium Chloride Glycols Propylene Glycol and Ethylene Glycol Weight set the percentage in weight of additive in the water used in your circuit Characteristics The following fluid characteristics are computer automatically by TA Select 4 at the set temperature and displayed in this area Density Kinematic Viscosity Specific Heat Freezing Point at atmospheric pressure TA Select 4 9 System Configuration Tih If you click on the icon the following warning message is displayed reminding you of st
44. 862 Vh get A 3 Hmin 97 9 kPa HO A 4 Havailable 108 kPa Ht A 5 Logged Data ae R Name Description Circuit Type Flow naikin Size Length Dp Description Dp Vh kPa m kPa kPa em rc CA t ieee Antenne EG Distribution 7862 108 80 3 18 2 13 T 0 351 1 242141 V C LABO DE 2 way 421 5 Ap 5 2 12 2 0 165 T 0 034 2 A212 V C LABO DE 2 way 421 56 6 mFS 65 2 1 2 6 0 447 T 0 032 3 A213 V C bureau 11 2 way 592 53 4 TT 50 2 13 3 13 T 0 115 4 A214 V C bureau 10 2 way 430 50 7 TD 50 2 13 2 66 T 0 086 5 A215 V C bureau 9 2 way 270 50 kh 50 2 4 0 711 T 0 047 6 A216 V C bureau 8 1 2 way 364 49 1 l 50 2 5 0 817 T 0 059 7 A217 V C bureau8 2 2 way 364 491 Ly 50 2 0 T 0 055 8 A218 V C bureau 7 2 way 360 48 8 ly 50 2 2 0 254 T 0 05 9 A219 V C bureau 6 2 way 286 48 1 T 50 2 6 0 665 T 0 037 10 A2 1 10 V C bureau 5 2 way 286 47 5 T 50 2 6 0 592 T 0 035 1 A2 1 11 V C Reunion 3 2 way 648 47 2 T 50 2 4 0 349 T 0 06 12 42 1 12 V C bureau 4 2 way 286 468 ly 40 1 1 2 2 0 404 T 0 069 13 A2 1 13 V Creunion 3 2 2 way 648 46 TI 40 1 1 2 4 0 688 T 0 12 14 A21 14 V C bureau3 2 way 286 456 l 32 1 1 4 2 0 473 T 0 086 15 A2 1 15 V C bureau 2 4 2 way 176 444 y32 114 6 1 13 T 0 05 16 A2 1 16 V C bureau 2 2 2 way 176 43 4 T 32 1 1 4 6 0 969 T 0 045 17 A21 17 V C R union 2 way 634 40 9 lp 32 11 4 18 2 46 T 0 127 18 A2 1 18 V C R union 2 way 634 40 9
45. C bureau 10 wal A 5 1 21 V C Bureau 3 to the current lt H x x A 5 2 10 f A 5 1 22 V C Bureau 2 Project f A 2 1 6 V C bureau 9 pea F A 5 1 23 V C Bureau 1 wal A 2 1 7 V C bureau 8 1 wf A 5 1 24 V C Bureau 40 1 wel A 5 1 25 V C Bureau 40 2 SH A 5 1 26 V C Bureau 39 wA A 5 1 27 V C Bureau 38 wal A 5 1 28 V C R union 01 mE A 5 1 29 V C Bureau 46 wf A 5 1 30 V C Bureau 37 A 5 2 Antenne distribution EG R wt A 5 2 1 V C Bureau 18 wat A 5 2 2 V C Bureau 19 mf A 5 2 3 V C Bureau 20 1 mE A 5 2 4 V C Bureau 20 2 wf A 5 2 5 V C Bureau 21 wf A 5 2 6 V C Bureau 22 wf A 5 2 7 V C Bureau 23 Mta PAn uU ONM em NA aL A 2 1 8 V C bureau 8 2 val A 2 1 9 V C bureau 7 mh A 2 1 10 V C bureau 6 wh A 2 1 11 V C bureau 5 lt B x x A 5 1 23 we L A 2 1 12 V C Reunion 3 aE A 2 1 13 V C bureau 4 wf A 2 1 14 V Creunion 3 2 tal A 2 1 15 V C bureau3 wm A 2 1 16 V C bureau 2 1 mE A 2 1 17 V C bureau 2 2 x x A 5 2 sE x x A 5 2 1 SE x x A 5 2 2 x x A 5 2 3 wr A 2 1 18 V C R union 1 1 Importing a terminal unit into the current project 63 TA Select 4 5 Hydronic Project Calculation 5 Click on the Import properties button to open the following window and configure the import behaviour Select the circuit components that should be imported Use the Lock all button to lock all components
46. Characteristics window as illustrated hereunder This Water Characteristics window is described in the Fluid Characteristics section Please note that the Fluid Characteristics you enter when performing different operations such as individual selection hydronic calculation or using the additional tools are independent from one another If you change the fluid or its temperature here these values will NOT be changed in other TA Select 4 parts TA Select 4 10 Additional Tools Pressure drop Once you have entered a Flow value the application automatically computes the recommended pipe size and the corresponding pressure drop These results are adjusted in real time whenever you change any parameter Flow Pipe Name or water characteristics The result is a table as illustrated hereunder Each line corresponds to a pipe size and presents the pressure drop the fluid velocity and the flow regime turbulent intermediary or laminar The green text line highlights the recommended pipe size according to your current parameters Pipe Pressure Drop Calculation Pipe Name l h Generic Steel Pipes Pipe Lin Dp v Flow Regime Pa m m s 50 2 0 287 0 025 Laminar 40 1 1 2 0 743 0 04 Laminar 32 1 1 4 1 37 0 055 Laminar 25 1 5 45 0 096 Intermediary 20 3 4 21 9 0 152 Intermediary 15 1 2 99 9 0 276 Turbulent 10 3 8 332 0 453 Turbulent h Water Temperature 20 C Example of pressure drop computa
47. DN 50 and below DN 65 and above Type DpC Std HVAC Type Family A Family Body material Ametal tm Body material Connection Connection Version Standard Version PN 16 PN A A Valves as defined above exist only fram DN 65 2 1 27 to DN 100 4 Dpc Std HVAC STAF Cast iron Flange Standard 16 Selection of other sizes and types of Dp controllers will be performed if possible according to the product priorities defined for your localized version Reset to default Technical Parameters window Dp controllers section In this section you can define the balancing valve type to be used in circuit calculations A distinction is made for valves DN 50 and below and valves DN 65 and above due to the difference in body design All possible variations available are given in a drop down menu which shows applicable options within the Type Family Body Material Connection Version or PN Begin by selecting the Type and the rest of the options will become apparent If there are still multiple options a further selection narrows the type of valves to be used All parameters that cannot be changed are given for your information TA Select 4 9 System Configuration The Pipes section Technical Parameters El General Balancing z Control i Press indep control valves Dp controllers z Fixed orifices Radiator valves Distribution return pipes Generic Steel Pipes Pipes __ Device sizes
48. Dp controllers Hide Dp controllers that do not satisfy the above limit H Fixed orifices Radiator valves m Pipes Device sizes Hydronic circuit calculation Balancing valves Control valves Balancing and control valves gt Press indep control valves z Actuators Dp controllers s Fipes C Suggest measuring valves with the same size as Dp controller only Reset to default o OK Cancel Technical Parameters window Dp controllers section In this section you can define the following Dp controller parameters Min Dp for fully open Dp controllers you can define the target minimum pressure drop for the Dp controller The suggested and default minimum pressure drop is 5 kPa Check the Hide Dp controllers that do not satisfy the above limit box to hide the controllers that do not satisfy the limit defined with the previous parameter Check the Suggest measuring valves with same size as Dp controller only box to use such suggestions TA Select 4 9 System Configuration The Fixed orifices section Technical Parameters El General 2 Balancing Control De r Fress indep control valves i Dp controllers Max signal kPa aa Fixed orifices Radiator valves Pipes Device sizes Hydronic circuit calculation Balancing valves gt Control valves 2 Balancing and control valves Press indep control valves pa Actuators Fixed orifice parameters Reset to default Tec
49. P BON beans Zoom Zoom Undo 2D Tracking Markers Che Export V Differential temp V Power in out zoom zoom legend labels chart Display Hide curves Zoom Chart options The Logged data tab and ribbon 83 TA Select 4 8 Logged Data Processing The logged data are displayed in a graphical way as illustrated hereunder Dakha me Logged data tools Home Project Tools Communication Logged data Style 7 V Flow Differential pressure L LD KRU QUR xz ag 2 ay Temp DpS T1 Temp Dps T2 8 9 ii Zoom Zoom Undo 2D Tracking Markers Chart Export V Differential temp V Power in out zoom zoom chart Display Hide curves Zoom Chart options Control panel q EBA Sans nom Hydraulic Network El iA Logged Data 23 DRYER S A VARNISH 2 Data list GENERAL V3V 3 Data list A Quick Measurements 100 2 T g 5 a i i 04 01 2012 05 01 2012 05 01 2012 06 01 2012 06 01 2012 07 01 2012 07 01 2012 08 01 2012 08 01 2012 09 01 2012 09 01 2012 10 01 2012 10 01 2012 11 01 2012 12 00 00 00 00 00 12 00 00 00 00 00 12 00 00 00 00 00 12 00 00 00 00 00 12 00 00 00 00 00 12 00 00 00 00 00 12 00 00 00 00 00 Power Flow Differential Temperature Plant Starting time 04 01 12 11 36 00 Module Undefined Ending time 11 01 12 11 35 35 Valve index 0 Nbr of points 35576 Valve STAF 80 7 50 turns Dt between points 17 sec Lowest sampled value 71397 W 16265
50. Primary balancing valve presetting is below the minimum recommended valve setting 0 94 1 00 Minimum control valve authority 0 02 is below the lowest acceptable value defined in technical parameters 0 25 N TA HYDRONICS t Projet gfi Selet E Results P Info y The hydronic calculation log Click on the Clear button at any time to empty this log TA Select 4 5 Hydronic Project Calculation Distribution tab The first tab Distribution displays the flow distribution through all circuits and components as illustrated hereunder This window displays a table with all information about the distribution between the different circuits such as Havailable flows distribution pipes circuit type for the selected circuit in the left pane tree d Da dG ASTRIUM X2 sav tsp TA Select 4 a Home Project Tools Communication Style Project name a V Freeze hydronic circuit calculation By ba 1 Water Period r F x2 onic cord Git Safety factor for pipe pressure drops 30 stati aaron ath h Temperature 9 5 C fem Start Pa V TA CBI compatibility calculation Show old deleted valves circuits Replace 5a End period Project Info E Project parameters Tools Fluid characteristics E Measurement period Control panel q S ASTRIUM X2 E ta Hydraulic Network A E 2 2 1 Sgt A SE ES SS eee i A 1 Module description Antenne EG R 1 NORD Ej on A 2 Remark B A 2 1 E 7A 2 2 Total flow 7
51. STAP Dp Controllers from hydraulic circuit calculation Water STAP 20 2178 Vh 1 Thread Dpi 49 6 kPa a Cal i TA antenne RDC Temperature 9 5 C 4 4 gt Balancing valves Dp controllers Pipe list Article list Example of Results for Dp controllers 71 TA Select 4 6 Results Management The Results interface is divided in the following parts 1 The page title displays the name of the corresponding chosen tab 2 The columns titles and if relevant the corresponding unit 3 The list of selected products list with depending on the tab one line or one section per product In this list the products issued from a selection or from a calculation are clearly separated 4 The bottom tab bar gives access to the different tabs and corresponding tables and bill of material In all these tables the products are listed in chronological order of their selection 6 2 Selection Results Edition In the Results tables you can perform following operations on products issued from a individual or direct selection Click on a line to highlight its background is orange and select it Use SHIFT left click to select a range of products at a time Use CTRL left click to select several separated products Right click on one of the selected products to open the contextual menu as illustrated Selected balancing valves 1 2 Water Product Article N Pipe Qty Balancing Valves from individual selec
52. Safety factor for pipe pressure drops g Hydronic circuit calculation z Balancing valves Control valves Balancing and control valves Fress indep control valves 2 Actuators Dp controllers z Pipes Hydronic circuit calculation preferences for pipes Circuit pipe Generic Steel Pipes Distribution return pipe Generic Steel Pipes Reset to default i OK Technical Parameters window Pipes section In this section you can define circuit pipes and distribution pipes used in circuit calculation The default circuit pipe and distribution pipe series are set in the ribbon Pipe series group see The Pipe Series Group section for more detailed information about the pipe series selection and definition By default the default circuit pipe and distribution pipe series are the same but you can specify to use different default piping for distribution and for circuits by opening the drop down menu and making a selection Safety factor for pipe pressure drops enter the safety margin that will be added to all pressure drops in the whole circuit pipe calculations 4 For example if the calculation return a 2 0 kPa drop in a pipe a 30 margin will make TA Select 4 use a 2 6 kPa drop in further calculation and component selection TA Select 4 10 Additional Tools 10 Additional Tools 10 1 Viscosity Correction The Viscosity correction tool is used to compute the true flow of liquid in a valve according to the actu
53. TA SCOPE software as well as the products database will be reloaded using the last available update pack This operation preserves all user data TA SCOPE maintenance operations LP J Detected TA SCOPE software version Deletion of downloaded TA SCOPE files l 7 TA Select 4 keeps a back up copy of all downloaded data A Delete downloaded TA SOOPE files from the TA SCOPE k This functions performs a purge of these backup files TA SCOPE memory dean up ao i All data hydronic networks quick measurements and loggings g Keanu TA SCOPE memon stored in the TA SCOPE will be deleted from the last available update pack Entire software reinitialisation n Ibad TA SCOPE software TA SCOPE software as well nba ergs be reloaded This operation preserves all data The TA SCOPE maintenance window TA Select 4 7 TA SCOPE and TA CBI Communication 7 3 TA CBI Communication The TA CBI communication button in the Communication tab opens the following window to enable connection between TA Select 4 and your TA CBI 1 Connect the TA CBI to the serial communication port 2 Set the TA CBI in communication mode menu 10 3 Press Next to continue The TA CBI communication window Follow the displayed instructions to establish the communication between the TA CBI and TA Select 4 then click on the Next gt gt button Once the communication is established the following window ope
54. TA Select 4 User Manual ENGINEERING ADVANTAGE im PNEUMATEX TA HEIMEIER TA HYDRONICS TA Select 4 Table of Contents Table of Contents Table of Contents cn tn esse een eee 2 What s New 0 00 00 eee eee ee eee eee eee eee eee cence eee aoaaa 5 LERLA Kolo LT oi iLe a eee 6 2 How to Use this Manual 0a0a0aaaaaa0a0aaaaaaaa 0000000000000 00a ccc cece eee eee cece eee eeeeeeeee T 3 Software Interface _ 1 222 2 cece cece cee eee eee eee cece ee eee cee eee eeeeeeeeees 8 3 1 Interface Overview _ 21 2 0 lice 000000000000000 000000000000000 00000000A aoaaa oaaao 8 3 2 Interface Management 2 2 22 2 cece eee cece cece ec eee cece cece ee eee eee eeeseeseeseereeeseeseeses 10 Jo WMS RIDDON TANS pe ee sate ee se ec se neces be ace dee E 12 3 4 The Home Tab hr he coe heats cee yeaa es heen assets 13 3 4 1 The Default Units Group 2 222 22 ee cece eee eee eee DALL Daa LLa aao Laana 13 3 4 2 The Pipe Series Group 12 22 2222 cece cee ee eee ee eee cece eee ee cece eseeseeeeeeeseeseees 14 3 4 3 The Technical Parameters Group _ 2 222 2 e eee eee cee eee cece cece cece ee eeeeeeeeeeeseeseees 15 3 4 4 The Options Group 22 22 eee eee cece cee eee ec eee eee cece cee ceeeeeeeseeeeeeeseeeeeee 16 3 4 5 The Information Group _ 222 2222 2 ieee eee cece cece eee eee eee eee cee ceeeeeeeseeeeeeeeeeeeeee 18 3 5 Software Update _ 2 02 ieee eee eee eee cece
55. TM 512 DN15 20 LF KTM 512 DN15 20 HF KTM 512 DN15 20 NF KTM 512 DN15 20 HF KTM 512 DN15 20 NF KTM 512 DN15 20 LF KTM 512 DN15 20 HF ACAYS 115 VAC voltage Example of open Product categories and a selected Product with its compatible accessories 4 Check the accessories you want to select if any 5 The selected product and its accessories are listed in the Selection column 6 Click the Select button to select these items and add them to your Results table as described in the Selection section TA Select 4 4 Individual Selection 4 4 Selection Once you have selected a product either by a direct or a parameterised selection the following window opens Selection Description g Complementary information Balancing valve First reference 14A155 STAD 15 14 Body material Ametal tm Connection Thread Quantity Version Without drain PN 20 Second reference bal Remark Enter you own remark here aa Select remark from glossary 3 8 x Corer The Selection window The following information is displayed Description a list of main characteristics of the product and a drawing if available Complementary information enter your own First reference and Second reference as well as the quantity of products required These information will be added on your result list Remark enter a remark as free text that will also appear on the result list
56. al liquid characteristics and viscosity Usually all computations are based on a strictly turbulent flow regime Nevertheless TA Select 4 thanks to its highly specialized mathematical models and algorithms is able to determine the actual flow regime in a valve turbulent intermediary or laminar according to its operation conditions and thus take this flow regime into account to compute the true flow going through the selected valve in the specified conditions mr Ogh E GF d Home Project Tools Communication ar fr p ag Ky mes Viscosity Pipe pressure Kv values Hydronic Unit TA correction drop calculation calculator conversion Link Hydronic Other The Viscosity correction button in the Tools ribbon When you select this tool in the ribbon the following window is displayed Viscosity Correction I Type Balancing Valve Setting 0 0 4 0 Family turns STAD Pressure Drop Device kPa STAD 10 09 Chart flow h Jh Water Propylene Glycol 50 by weig True flow Temperature 20 C Lao The Viscosity correction window Valve selection In this window you should first specify your valve in the left part of the window by selecting the following parameters Type the regulating valve type Family the valve family within the selected type Device the valve device within the selected family Water characteristics Click on the button to open the Water Character
57. and leave them unchanged Use the Unlock all button to unlock all components and let TA Select 4 recalcuate the whole circuit according to the current project settings Hydronic circuit import properties Check the elements that must be locked in the imported circuits unchecked elements will be unlocked Distribution pipes L circuit pipes Unlock all Balancing valves Bypass balancing valves for 3 way circuits C Dp controllers C Control valves The Hydronic circuit import properties window 6 Click on the Import button to start the import and the circuit recalculation Please note that all circuit elements will be renumbered according to the TA Select 4 rules incrementally with the first component being next to the flow entry 5 6 3 Search and Replace x if Check hydronic Import hydronic Search and Diversity circuit calculation circuits Replace Factor Tools The Project ribbon Tools group TA Select 4 5 Hydronic Project Calculation fi The project must be set as follows prior to using this function Hydronic circuit calculation activated Freeze hydronic circuit calculation unchecked Pipe search and replace 1 Click on the Search and Replace button in the ribbon 2 By default the following window opens with the Search and replace pipe series option selected in the upper right drop down box Search and Replace Select hydraulic Grcuits where modifications will occur Search
58. andard consigns to follow regarding your fluid mix TA Select 4 i All cooling media in varying degrees diluted in water shall be completed with suitable inhibitors and shall be adjusted to a pH within 7 5 and 9 5 pa Warning message about the fluid mix User defined additive characteristics If you selected Any Other Fluid in Additive Family you should manually define the following fluid characteristics f If you change the temperature these values should be adjusted manually accordingly Density Kinematic Viscosity Specific Heat if the Specific heat is known box is checked as illustred hereunder Additive Family Any Other Fluid v Specific heat is known The Specific heat is known check box TA Select 4 9 System Configuration 9 3 Advanced Technical Parameters 9 3 1 Parameters Organization After clicking on the small arrow at the right bottom of the ribbon Technical parameters group the Technical Parameters window is displayed as illustrated below Technical Parameters EY General Balancing Control Press indep control valves Dp controllers Fixed orifices Radiator valves Pipes Device sizes B Hydronic circuit calculation Balancing valves Control valves Balancing and control valves Press indep control valves Actuators Dp controllers Pipes General parameters C Show old valves deleted from TAH range Display valves in hydronic schemes as
59. ant no replacement will be necessary and you will only need to perform some adjustments of already installed valves Of course you can add several pending circuits in different places in your plant according to your specific configuration and future developments TA Select 4 5 Hydronic Project Calculation ee E aes Injection circuits TA Select 4 supports injection circuits These circuits include a pump device and are used for circuits that require A temperature regime different from the plant temperature regime for ex for floor heating cooling ceiling chilled beams Circuits with a supply water temperature adjusted according to specific conditions such as the outdoor temperature for ex radiator branches floor heating These injection circuits require specific parameters that are explained in the circuit design section 5 3 Project Configuration When you create a new project some setup is required via the different groups of the Project ribbon Home Project Tools Communication Style Project name a Freeze hydronic circuit calculation Ey opa Bg Water Period A Untitled V Automatic check of hydronic calculation wa iy Temperature 75 C eas Start ae e x Check hyd Import hydronic Search and Diversity V TA CBI compatibility Project type Heating circuit calculation circuits Replace Factor Default DT 20K ip End Project Info la Project parameters Tools Fluid characteristics la Measurem
60. ation Group TA Select 4 1 Introduction a n l N 1 Introduction TA Hydronics TA Hydronics is the leading global provider and expert in hydronic distribution systems and room temperature control with experience in more than 100 000 projects worldwide TA Select 4 TA Select 4 is a computer program that helps you to control your hydronic system from design stage throughout the building s lifetime It makes it easy to determine the right valve size pre setting values and several other characteristics of your plant circuits And together with our balancing instrument TA SCOPE it helps you to obtain the most economical hydronic design TA Select 4 2 How to Use this Manual 2 How to Use this Manual This TA Select 4 User Manual is organized around the main operations you need to perform So if you want to know How to select individual products Go to the Individual Selection chapter Read the How to Select a Valve topic that presents the different steps to follow How to calculate a complete hydronic project Go to the Hydronic Project Calculation chapter Read the Hydronic Circuit Description topic that explains the principles used for the project entry if this is your first project Read the How to Calculate a Hydronic Project topic that presents the different steps to follow How to connect to your TA SCOPE or your TA CBI Go to the TA SCOPE and TA CBI Communication chapter How to proces
61. ber of logged data 0 Number of quick measurements 0 x S TA HYDRONICS t Project select L Results Info CAP NUM SCRL TA Select 4 main interface The interface can be divided in five parts 1 The top menu bar 2 The ribbon 3 The control panel a and its bottom menu b 4 The main window 5 The status bar The Top Menu Bar This menu bar displays the project files name tsp format file and the usual quick buttons to create a new project to open an existing project to save the current project to print the document and to manage the window size minimise maximise and close buttons The application button opens the application menu which allows the same operations as the quick buttons and also to import or export data TA Select 4 3 Software Interface The Ribbon This part of the interface is composed of several tabs whose number depends on what task you are performing There are four standard tabs Home Project Tools and Communication This part of the interface is described in details in The Ribbon Tabs section The Control Panel This part of the interface display depends on the tab selected in the bottom menu The bottom menu allows the selection between four tabs The Project tab is the default tab and is the place where data transferred to and or from TA CBI or TA SSCOPE are structured It is described in the Hydronic Project Calculation chapter The Select tab allows the input of
62. ccessories Right click on the highlighted product to open the contextual menu with the following commands Select select the product and add it to your list as described in the Results section Quick reference sheet open the pdf quick reference sheet for this product see Catalogue Consulting Full catalogue sheet open the pdf catalogue sheet for this product see Catalogue Consulting Some commands will be greyed if the corresponding documents are not available 39 TA Select 4 4 Individual Selection 4 3 Direct Selection In this second mode you can make a selection directly amongst the products available in the whole TA Hydronics catalogue 1 In the Individual selection tab click on the Direct rightmost button as illustrated g D GF A 7 Untitled tsp TA Select 4 Individual selection tools ma hM Home Project Tools Communication Individual selection Na Style si Pipe series Steel DIN 2440 ISO 65 v Device size Pipe pressure drop Pipe water velocity Water Eii p Pipe size All Sizes X ost Size above 0 Gp Target 150 Pa m go Target 1 m s w aias M Temperature 20 C Direct z pay Size below 2 Max 180 Pa m oMax 2 m s Product Type Pipes Technical parameters E Fluid Characteristics as Selection The Direct selection button 2 The Direct Selection window opens as illustrated Direct selection Product categories Selection EB Regulating Valve Artide Number Descripti
63. ck TA Select 4 5 Hydronic Project Calculation Project type select the type of your circuit either Cooling or Heating The Safety factor for pipe pressure drops parameter that was available here in previous versions of TA Select 4 is now available in the Pipes section of the Advanced Technical Parameters The Show old deleted valves parameter that was available here in previous versions of TA Select 4 is now only available in the General section of the Advanced Technical Parameters 5 4 Hydronic Circuit Entry 5 4 1 How to Add a New Circuit fi The project must be set as follows prior to using this function Hydronic circuit calculation activated Freeze hydronic circuit calculation unchecked By default when you start a new project TA Select 4 creates an empty structure and names the first module A On this module you can add and build the hierarchical structure of circuits and terminal units corresponding to you plant There are 3 ways to add a circuit Adda circuit as detailed hereunder Copy and paste an existing circuit using the circuit tree context menu Import and reuse an existing circuit or parts of circuit as described in the Search and Replace function available in the ribbon Tools group TA Select 4 5 Hydronic Project Calculation Adding a new circuit To add a new circuit follow these steps 1 Right click in the left pane circuit tree at the place you want to add this circuit
64. controllers 3 0 826 1 38 3 87 6 90 9 50 12 6 21 5 Measuring devices and accessorie 3 5 1 26 1 98 4 75 8 00 11 8 16 0 26 5 p goua 4 1 47 2 52 5 70 8 70 14 2 19 2 33 0 F Balancing tools Products for renovation H Control Thermostatic heads and Radiator vah H Tap water control H Shut off valves Measuring accuracy The zero position is calibrated and must not be changed i me ULOMDIEMentary devices i Lj Full Catalogue sheets Wu al aS g Deviation of flow at different settings The curve Fig 4 is valid for valves with normal pipe fittings Fig 5 Try also to avoid mounting taps and pumps immediately before the valve The valve can be installed with the opposite flow direction The specified flow details are also valid for this direction although tolerances can be greater maximum 5 more STAD STAD 14 12 pe 10 8 me gt ETA eoo 6 4 2 0 0 05 1 15 2 25 3 35 4 Setting No of turns Double regulating valves Fixed orifices Prefab Insulations Control valves H Differential Pressure Controllers a E Example of a full catalogue sheet
65. ct the type of fail safe such as None Extending Retracting ge ge gee ge gt Select control set check this option to propose only complete kit including the controller and its accessories You can leave these parameters with their default value launch a first suggestion and according to the results narrow your search by using more parameters Search results Then press the ENTER key or click on the Suggest button to get a list of proposed products as detailed in the Selection Results section New TA Fusion valves and kits are available from this search windows 4 2 6 6 Radiator valves fh see The control panel for radiator valves is illustrated hereunder TA Select 4 4 Individual Selection Control pane for Radiator valves The minimal parameter to enter is the Flow value in I h Enter or select a value for the following parameters before performing a search in the products database Mandatory parameters q enter the supported liquid flow through the valve TA Select 4 4 Individual Selection E Optional parameters Enter a value for some or all of these parameters if you want to further filter the proposed list of products Dp check and enter a value to define a pressure difference over the valve Radiator with integrated valves check if you are looking for radiator with integrated valves Supply valve select the type of supply valve such as V exact Il Standard LowRes Return va
66. cuments TA Select 4 localised version Projects Autosave User references click on this button to display the window illustrated below This window allows you to input your relevant data name company These data can be later retrieved to automatically fill a new project information User references Tel E mail Other information _ Options group User references TA Select 4 3 Software Interface 3 4 5 The Information Group This group is part of the Home tab and is illustrated hereunder User Release Tip of AboutTA Manual notes the day Select4 Information TL a LL my L m L Aii P I NAO INDON TON ANFOLID INe MOVON Lav Qroup ww i This group contains the following buttons User Manual click on this button to open this manual Release notes click on this button to display the release notes of the program Tip of the day click on this button to display the tip of the day window About TA Select 4 click on this button to display program information version number and copyright You need the information from that window when you ask for a license 3 5 Software Update TA Select 4 is a software that evolves quite frequently both because new functionalities are added and because additional new products are supported Thus the update operation is quite important The update functions are available in the Communication ribbon illu
67. d in parallel and the names will be incremented Click on the lt lt Previous button to go back to the wizard first step if you want to change the circuit type Once all mandatory fields are completed click on the Add button to add the circuit s in the whole circuit 4 Once a circuit is added with the Add button The circuit is added in the circuit and cannot be changed anymore from this wizard The circuit name is incremented You can specify again a similar circuit and add it to the circuit 5 When all desired circuits are added click on the Close button or on the button to exit the wizard Pipe lengths To determine the different pipe lengths required according to your circuit configuration please refer to the information and notes described in the Pipe Lengths section Balancing valves An additional feature is available for balancing valves only once the required circuit parameters have been entered Move the mouse over the table title to open a pop up displaying the overflow that would occur when the control valve closes if the by pass is not balanced as illustrated hereunder The overflow pop up window An additional icon allows to force w fordbid 5 or leave automatic the selection of the regulating valve in the 3 way by pass Pending circuits When you add a pending circuit see Hydronic Circuit Description you should provide the total flow that will circulate in that circuit to be add
68. d products in the clipboard Paste paste the selected products from the clipboard into the list Quick reference sheet open a pdf reader to display the quick reference sheet of the product T a a gg a Full catalogue sheet open a pdf reader to display the full catalogue sheet of the product TA Select 4 6 Results Management 6 3 Results Output You can easily export as Excel sheets and print the different Results tables issued from your selection or from automatic calculation Click on the TA Select 4 button in the upper left corner of the software window to access the general functions including Print and Export data as illustrated hereunder Export data Export selected products Export selected products into Excel format Export logged data chart Save 7 Export logged data chart into various picture b J formats Export logged data list gt Export logged data list into various formats Export quick measurements z Export quick measurement contents into Excel Edl format Export user defined pipes Export user defined pipes into a data file exp w X Exit The TA Select 4 button and associated menu TA Select 4 6 Results Management Exporting results Click on the Export data command then select one of the export options depending on the data available to export the Results tables as Excel data files All available tabs are exported as Excel sheets with the same name a
69. e Interface management Style selection 10 TA Select 4 3 Software Interface The Control Panel You can hide the Control Panel by clicking on the pin located in its top right corner as illustrated below By default the Control Panel is in always show mode Home Project Tools Communication Flow ih Default pipe series Differential pressure kPa 1 Generic Steel Pip Temperature C Default units E Pipe seric Control panel 4 Untitled Ka Hydraulic Network Logged Data zW Quick Measurements Number of mod Interface Management Control Panel Always show mode The Control Panel is then in auto hide mode and appears as a vertical tab to the left of the interface when not used D GdG Home iome Project Project Flow ih Differential pressure kPa C Default units Temperature Number of modules 0 Interface Management Control Panel Auto hide mode When the Control Panel is in auto hide mode you can make it appear again by moving the mouse over the vertical tab The Control Panel will then be displayed will allow to use it and will hide again when you move the mouse to another area of the interface To bring the Control Panel back to the always show mode you have to click on the pin located in its top right corner The pin is vertical _ when the Control Panel is in always show mode and horizontal when in auto hid
70. e EC eae See ee ig o lt m TA HYDRONICS Project gP selet Results Info 4 4 gt gt Distribution Circuits CAP NUM SCRE a The wizard second step 2 In the wizard window main area enter or select in the various tables the required parameters The available tables and parameters depend on the circuit type Please refer to the notes hereunder for circuit specific information The editable purple fields are fields that should be manually completed as they are related to plant and circuits setup that the software uses as inputs and cannot compute such as the pipe length or the terminal unit power The editable white fields have default values defined globally but may be changed locally if desired The non editable white fields display values automatically calculated by TA Select 4 The B icon enables you to lock the values in this table to ensure that the calculation will not change them Once locked the icon is and the locked values are bold Amicon next to afield indicates additional or alternate fields that can or must be completed The cicon next to the Accessories fields opens an additional window in which you can select various accessories compatible with the current component such as a tee for a pipe TA Select 4 5 Hydronic Project Calculation 3 In the wizard window bottom area Enter the number of identical circuits to be added at once these circuits will be adde
71. e a reiterate tee RES 19 7 3 TA CBI Communication 0 00 222 c occ ccc eee ee eee eee eee eee eee e eee eee eeeeeeeees 82 8 Logged Data Processing 2 22 22 o ice c cece cece cece cece cece eee eee cee cee eeeseeeceeseeeeenees 83 9 System Configuration _ 0 2 2 2 2 licence cece ec cece eee eee cece ence ee eeeeeeseeseeseereeees 86 Mi OCUIGU OM o o22 See eet as aot Sales eens ested ne tees ueesnadueseasc 86 9 2 Fluid Characteristics 2 2 0 0 220i cece eee eee eee eee eee cece eee cece eeeeees 86 9 3 Advanced Technical Parameters 0 00 00 22 c cece cece cece ee eee eee tee eee eee ee eeeeeeeee 89 9 3 1 Parameters Organization 2 22 22 c lee cece eee cece ec ee cece cece ence eceeceeeseeeeeeeeseeseees 89 93 2 General satus oyna ese sans ee see ese ae ee a cst ees eu sae AR eOr eE 90 9 3 3 Hydronic Circuit Calculation 2 22 e cece e cece cece eee eeeeeeeeeseeseeees 99 10 Additional Tools _ 22 00 0 ool iene eee eee eee eee eee cece eee e eee e eee eeees 107 10 1 Viscosity Correction _ 2 22 2 cece cece ccc cee cee cece cece cece eee cee cence ceeseeeeeeeeeseeseeees 107 10 2 Pipe Pressure Drop Calculation 2 2 02 22 l cece cece cece cece cece eee e cece ceeeseeseeeseeees 108 10 3 Kv Values Calculation 0 0 0000 o cee cc cece eee ee eee eee cece cece cence eee scenes 110 TA Select 4 Table of Contents 10 4 Hydronic Calculator 122 222 cece cee cee eee
72. e mode TA Select 4 3 Software Interface 3 3 The Ribbon Tabs The ribbon is composed of several tabs whose number depends on what task you are performing There are four standard tabs Home Project Tools and Communication described hereunder The Style menu is explained in the Interface Management section The Home tab g Home Project Tools Communication Style Flow Vh Default pipe series Device size Pipe pressure drop Pipe water velocity Language English M amp GAl Differential pressure kPa gt Steel DIN 2440 ISO 65 oot Size above 0 gt po Target 150 Pa m go Target 1 m s p Product documentation c User User Release Tip of About TA Temperature 5 2 v og Size below 2 a Max 180 Pa m po Max 2 m s V Autosave recovery file references Manual notes the day Select4 Default units Tua Pipe series ta Technical parameters tua Options Information The ribbon Home tab The tab is divided in the following five parts 1 The Default Units Group 2 The Pipe Series Group 3 The Technical Parameters Group 4 The Options Group 5 The Information Group The Project tab The Project tab is illustrated hereunder and its use is detailed in Hydronic Project Calculation a Home Project Tools Communication Style Project name Freeze hydronic circuit calculation J bi bed Eg Water Period faa Untitled Automatic check of hydronic calculation f we in Temperature 75 C la Start REE
73. e the button allows to unselect all the pipe series The Set as default pipe series button allows you to set the selected pipe series as default The result is the same as selecting the default pipe directly in the Pipe series group TA Select 4 3 Software Interface The Create series button allows you to create a new series if the required pipe of the system is not available in TA Select 4 Left click once on the new pipe series name in order to rename it When you select a pipe amongst the pipes list of an user input pipe series the Create series button becomes Create pipe and allows you to create a new pipe in the pipe series Left click once on the new pipe name in order to rename it When creating a new pipe you can input relevant specifications to pipe pressure drop Corresponding valve size designer can input nominal valve size related to pipe specifications TA Select 4 allows Device size in the Technical Parameters group to be made greater than or less than piping diameter depending on allowance of design engineer Internal diameter the measured inside diameter of the pipe It will give a basis for pipe pressure drop calculations Roughness the roughness of the pipe affects the pipe pressure drop so it also must be defined Max Pressure in order for TA Select 4 to make a proper pipe selection and thus pipe pressure drop estimation there needs to be a maximum operating pressure for the pipe in order to avoid
74. e the actual operation conditions of asystem and to transfer the collected data back to TA Select 4 for analysis Home Project Tools Communication A A vV TA SCOPE update monitoring P P TA SCOPE TA CBI Update Properties communication communication TA Select Data transfer Update The Communication ribbon The Update group is described in the Software Update section of the Software Interface chapter 1 Before establishing any communication and load a plant configuration or download measurement data you should connect your TA SCOPE or your TA CBI to your computer using the delivered cable as illustrated hereunder for the TA SCOPE TA SCOPE connection to the computer running TA Select 4 2 Once your device is connected click on the corresponding button in the ribbon either TA SCOPE communication or TA CBI communication TA Select 4 7 TA SCOPE and TA CBI Communication 7 2 TA SCOPE Communication The TA SCOPE communication button in the Communication tab opens the following window to enable connection between TA Select 4 and your TA SCOPE Welcome to the TA SCOPE Communication Wizard Detected TA SCOPE software versioni 1 0 2 6 E TA SCOPE update available cick to install it Select the operation that you want to perform edoeed Ig The TA SCOPE communication window This window display the following buttons described hereunder Software update if available Download Upl
75. e to be replaced and the type of pipe to use as a replacement in all the selected circuits If the type of pipe to replace cannot be selected that means that this is the only type of pipe used over the whole circuit 65 TA Select 4 5 Hydronic Project Calculation EEE 5 In the right column select the additional options for the replacement process 6 Click on the Start button 7 The replacements performed are displayed in the bottom right text area Hydraulic circuits search and replace 1 Click on the Search and Replace button in the ribbon 2 In the upper right drop down box select the Search and replace hydraulic circuits option Search and Replace Select hydraulic circuits where modifications will occur Search and replace hydraulic circuits M SS ASTRIUM X2 M EA Depart general sst eg M BA 1 antenne RDC wef A 1 1 VC 235 33 labo dete weL A 1 2 V C Stock SA A 1 3 VC 235 33 labo dete _ A A 1 4 VC 235 33 Hall dent Distribution circuit A A 1 5 VC 235 33 Hall d ent M B A 2 Alimentation circuit EG ter M B A 2 1 Antenne EG R 1N M Ssh A 2 1 1 V C LABO DET M Ss A 2 1 2 V C LABO DET M SH A 2 1 3 V C Stock E A 2 1 4 V C bureau 11 M SH A 2 1 5 V C bureau 10 f A 2 1 6 V C Bureau 26 Find where wal A 2 1 7 V C bureau 9 Malia H A 2 1 8 V C bureau 8 1 A 2 1 9 V C bureau 8 2 Grams sel A 2 1 10 V C bureau 7 M
76. ect Tools Communication ca c cz c R cah Sef OH Kee sess hannad Viscosity Pipe pressure Kvvalues Hydronic Unit TA correction drop Link calculation calculator conversion Hydronic Other The TA Link button in the Tools ribbon When you select this tool in the ribbon the following window is displayed TA Link conversion Valve TA Link Type Product Balancing Valve TA Link 0 10V 52 010 004 Family Flow l h Output signal Volt STAD 1200 gt Valve Dp kPa Dp max kPa STAD 25 i a Setting Max 4 2 5 Lox Example of the TA Link window 10 7 Catalogue Consulting TA Select 4 includes the complete TA Hydronics valves and products catalogue in pdf format for easy reference as well as consulting printing exporting At the bottom of the control panel click on the Info tab as illustrated lt TA HYDRONICS EProjet gf Selet Results The Info tab in the control panel 118 TA Select 4 10 Additional Tools The catalogue is displayed in a tree form in the control panel with two high level divisions The first part is the Quick reference sheets as illustrated hereunder test tsp TA Select 4 Flow Vh Default pipe series Device size Pipe pressure drop Pipe water velocity Differential pressure kPa z Steel DIN 2440 ISO 65 ba ost Size above o Target 150 Pa m p Target 1 m s
77. ect parameters Tools Fluid characteristics la Measurement period Control panel q lt 4 Untitled El ta Hydraulic Network A BnR A 5 Module description cH A 6 Remark SB Logged Data Total flow 137083 Vh zW Quick Measurements Hmin 97 9 kPa Havailable 97 9 kPa Circuit Balancing Valve Accessories gt gt Name Flow Dp Head H min Ts Tr Tp Name Dp Size Length Dp Description Dp Vh kPa kPa kPa E ES kPa m kPa kPa A A ao 7 4 A CA CA 3 ee ee eee eee eee Eee eee eee 1 A1 2 PS 3 A3 4 A4 H 5 45 H 6 A6 7 A7 500 150 200 154 25 15 75 STAD 10 09 49 5 20 3 4 5 0 513 4 4 gt Distribution Circuits 2w inj circ ts Project Kf selet E Results J Info Hydronic calculation output CAP NUM SCRE The 2w inj circ tab Legend In the table the following coding has a specific meaning Blue text indicates the index circuit Bold text indicates locked settings that will not be changed during a calculation Lg indicates in between which circuits a distribution pipe is located Navigation and display The following icons and buttons are available in this table to help you navigate it and display what information is important for you They are not always visible as some depend on the context Navigation buttons in the left margin _ click to go up to the parent circuit the left pane tree corresponding item is selected accordingly W click to go down and display the circuit
78. ection Flange Version Standard Version Standard PN 16 PN A Valves as defined above exist only from DN 15 1 27 to DN 25 1 A Valves as defined above exist only from DN 65 2 1 2 to DN 150 6 Selection of other sizes and types of control valves will be performed if possible according to the product priorities defined for your localized version Reset to default Technical Parameters window Press indep ctrl valves section In this section you can define the balancing valve type to be used in circuit calculations A distinction is made for valves DN 50 and below and valves DN 65 and above due to the difference in body design All possible variations available are given in a drop down menu which shows applicable options within the Type Family Body Material Connection Version or PN Begin by selecting the Type and the rest of the options will become apparent If there are still multiple options a further selection narrows the type of valves to be used All parameters that cannot be changed are given for your information TA Select 4 9 System Configuration The Actuators section Technical Parameters El General Balancing Control Press indep control valves Dp controllers Select control set Fixed orifices Fipes Device sizes Input signal Hydronic circuit calculation aN se Balancing valves Fail safe Control valves Balancing and control valves Press indep control valves
79. ed at a later stage in the plant building and if you already know them the circuit pipe length s and Dp of that circuit TA Select 4 5 Hydronic Project Calculation OT Injection circuits When you add an injection circuit see Hydronic Circuit Description you should also provide some of the circuit pump characteristics as well as the supply and return temperatures The calculation of such circuits take into account the parameters defined in the Fluid Characteristics window The fluid characteristics adjusted in this window are specific for the current projet and can differ from the general fluid configuration There is an additional parameter Default DT default temperature variation In case of adjustment the new value will be used for any injection circuit added from now on The Default DT sign depends on the project type setting heating or cooling The pump Dp is optional and will be taken into account only if it is higher than the minimum required Dp Fluid Characteristics for Project Selection sc amp Zi Additive Family Density No Additive Normal Water 974 8 kg m3 Kinematic Viscosity 3 9500e 7 m2 s Specific Heat __ 4193 5 J kg K Freezing Point atm pres 0 es Warning Always contact your additive manufacturer for checking the compatibility of the selected additive with valve materials The fluid characteristics window for the project selection 5 4 4 Pi
80. eee eee cee LLLA eeceeeceeseeeeeeeeseees 18 4 Individual Selection _ 2 0 0 0 0 02 2 occ ccc cece cee eee aoaaa oaaao aoaaa aaeeea 21 4 1 How to Select a Valve _ o oo ccc cece eee ene ee enn aoaaa aooaaeoa aaan 21 4 2 Parameterised Selection 020 c cece ccc cece cece eee eee ee cece eee eee eeee aana 22 4 2 1 Selection Steps 22 cee cece ce ee eee e cece eee eee e eee e cee ceeeeeeeceseeseeseeeeerees 22 42 2 PIOGUCL TY DCS denn cieecedvoveceusceacuisbesieeue exetide Uvucetecsencecseeasolceucescaceeesuladageeusewads 22 4 2 3 Pipes Parameters _ 2 022 c cece eee cece aaa LaaLa LLALL DALLAL DDAL LLALLA eee eeeeceseeseeseeees 23 4 2 4 Technical Parameters 2 020002 c cece cece cece eee eee cece ee eee eeeeeeeeeeeees 24 4 2 5 Fluid Characteristics 00 2 00022 eee eee eee eee ee eeeeeeeeeeeees 25 42O CONVO TAINO ote accede en ee adeee senses EO AEAEE 25 4 2 6 1 Overview Re a ere een en eee ace ee ere re 25 4 2 6 2 Manual balancing valves _ 2 22 22 o eee eee cece ee cece cece cece cee ceeeeeeeeeeeseeeseeseees 26 4 2 6 3 Dp controllers 22 22 22 eee eee cece eee eee ee cece ee eeeeeeeseeeeeseeees 28 4 2 6 4 Balancing and control valves 2 222 222 cece e ccc c cece cece cece eee c cece ceeeceeeeeeeeeseeees 31 4 2 6 5 Pressure Independent Control valves 22 022 2 occ e cece cece ee cece cee cc eecceeceeeteeeeees 32 4 2 6 6 Radiator valves l 0 000000 0000000000000000
81. emperature by navigating in the drop down combo boxes If you wants to see or modify other type of units click on the small arrow at the right bottom to display the window with all the available types of units as illustrated below The defaults units used in your software depends on the localized version of TA Select 4 you are using Default Units Valve Coefficient Differential Pressure kv Ocv Cancel Static Pressure Linear Pressure Drop Length Flow i Diameter stroke Velocity Roughness Temperature Thickness Temp Difference Area Power W Volume Density kg m3 Thermal Conductivity W m K Kinematic Viscosity m2 s Heat Transfer W m2 K Specific Heat i kg K Force Reset to default Torque The international version Defaults units window TA Select 4 3 Software Interface SSS 3 4 2 The Pipe Series Group This group is part of the Home tab and allows you to select the pipe series used by default for individual selection and for hydronic circuit calculation Default pipe series Steel DIN 2440 ISO 65 X Pipe series Tha rrhhar tah H H AN I NC HOODOO T IA IIO TIDO I LAW Y If you want to access a more complete list of pipe types and sizes along with corresponding specifications click on the small arrow at the right bottom to display the
82. en t period The Project nbbon The basic configuration in the following groups is described hereunder Project Info enter the project plant and customer information Project parameters select some project high level parameters The Advanced Project Configuration in the following groups is described at the end of this chapter Tools launch some additional tools for circuit import search and replace and diversity factor setup Fluid characteristics enter the characteristics of the fluid used in your circuit Measurement period enter the measurement period when using a TA Scope Please note that to start your project you can use the default values for most parameters and adjust them at a later stage Project Info Project name ASTRIUM X2 V TA CBI compatibility Fealculstion Project Info l The Project ribbon Project Info group In this group enter Project name the name of the project TA CBI compatibility check this option so that TA Select 4 ensures that the names of the project the hydronic modules the circuits and the valves follow the TA CBI restricted character set A project that is not TA CBI compatible cannot be uploaded to a TA CBI 48 TA Select 4 5 Hydronic Project Calculation Hydronic circuit calculation activate or deactivate the calculation mode The hydronic circuit calculation mode requires an activation key delivered by TA Hydronics Project Info gro
83. en you have previously imported measurement data from a TA SCOPE for the current project Only the measurements performed during the selected period will be displayed Please refer to the TA Scope Data Processing chapter for more information about measurements management In this group the following data are displayed Start the beginning date of the interval to be used for data filtering End the end date of this interval Click on the Choose period button to change these dates TA Select 4 6 Results Management 6 Results Management 6 1 Overview After products selection either manually or after calculation you can review the selected components and the complete bill of material in the control panel Results tab as illustrated hereunder TA HYDRONICS ones Project wr Select f Info The Results tab in the control panel The displayed table depends on the selected tab in the main window area Balancing Valves Control Products Article List as illustrated in the following figures G Selected differential pressure control sets J 2 Water Product T Article N Pipe Qty 2 Info Dp Controllers from individual selection STAP 50 4816 Uh 52265 050 Thread Dpmin 3 89 kPa i Water Standard 13 turns a Temperature 9 5 C 20 80 kPa Hmin 30 1 kPa 3 PN 16 Sch A Kv 10 Authority gt 0 63 EEE EEE SSSTAD50 S 4816vh ts 52151 650 4 Thread 3 kPa With drain 3 4 3 61 tums PN 20 Scheme A
84. eral Control Balancing Target min authority Press indep control valves Dp controllers Min Dp with On Off control Fixed orifices Radiator valves Min Dp with proportional control Pipes Device sizes Max Dp with proportional control B Hydronic drcuit calculation Balancing valves Kvs values selected from Reynard series Control valves Balancing and control valves Press indep control valves Actuators Dp controllers Pipes Reset to default OK Technical Parameters window Control section In this section you can define the following control valve parameters Target min authority you can define the target minimum authority for the control valves The suggested and default minimum authority is 0 25 Min Dp with On Off control you can define the minimum pressure drop across an On Off control valve The suggested and default minimum authority is 3 kPa Min Dp with proportional control you can define the minimum pressure drop across a modulating control valve The suggested and default minimum authority is 10 kPa Max Dp with proportional control you can define the maximum pressure drop across a modulating control valve The suggested and default maximum pressure is 65 kPa Kvs values selected from Reynard series check this box if you want TA Select 4 to suggest control valve Kvs which meets minimum authority from a set series reflecting industry nominal sizing according to the Reynard Series I
85. everal areas Inthe left side of this window several options are available to configure the printed output including the following buttons fay configure the printed pages header and footer Hll select the project information to be displayed on the printed pages wt E configure your printer Inthe right side of the window select the printed output as the project or the selected products Then check in the corresponding displayed tree or list the items to be included in the printed output Use the following buttons for easier selection expand the circuit tree collapse the circuit tree p 25 check all elements at once L T E uncheck all elements at once Inthe bottom left area of the window a small preview of the output is displayed to help you with the layout configuration 76 TA Select 4 6 Results Management Once you have the desired layout click on The Preview button to open a preview window as illustrated hereunder The Print button to print your output according to the set configuration ot z as As as Aa A ENGINEERING ADVAN TAGE Example of print preview TA Select 4 7 TA SCOPE and TA CBI Communication 7 TA SCOPE and TA CBI Communication 7 1 Overview The Communication ribbon illustrated hereunder is used to connect 7A Select 4to a TA SCOPE ora TA CBI measurement device These devices are developed by TA Hydronics to measur
86. f the box is unchecked the maximum required Kv is given By ensuring a maximum Kv is not exceeded an acceptable authority of the control valve is ensured which is critical to being able to modulate the flow through a terminal unit TA Select 4 9 System Configuration The Press indep ctrl valves Section Technical Parameters El General Pr AAA i i Balancing control valves cas na aia j Dp controllers Hide pressure independent control valves that do not satisfy the above limit Fixed orifices Radiator valves i Pipes Device sizes fe Hydronic circuit calculation z Balancing valves 2 Control valves Balancing and control valves z Press indep control valves Actuators fn Dp controllers Reset to default I OK Cancel Technical Parameters window Press indep ctrl valves section In this section you can define the following control valve parameters Min Dp for fully open control part you can define the target minimum pressure drop for the control valve The suggested and default minimum pressure drop is 1 kPa Check the Hide pressure independent control valves that do not satisfy the above limit box to hide the valves that do not satisfy the limit defined with the previous parameter TA Select 4 9 System Configuration The DP controllers section Technical Parameters Dp controller parameters El General Balancing l ae ies Min Dp in fully open Dp controllers kPa gt
87. he different groups of the Project ribbon z7 Home Projet Tools Communication Style Project name Freeze hydronic circuit calculation Je aS bad Eg Water Period gt Untitled V Automatic check of hydronic calculation we AY Temperature 75 C E Start ae ydronic circui 3 Check hydronic Import hydronic Search and Diversity ERS Choose v TA CBI compatibility calculation w Project type Heating 7 circuit calculation circuits Replace Factor Default DT 20K ie Enc 5 Project Info la Project parameters Tools Fluid characteristics la Measurement period The Project ribbon The basic configuration in the following groups is described in the Project Configuration Project Info enter the project plant and customer information Project parameters select some project high level parameters The advanced project configuration in the following groups is described in this chapter Tools launch some additional tools Check hydronic circuit calculation to check the circuit compliance with your settings after an automatic recalculation following any change Import hydronic circuits to import existing circuits or parts of them into the current circuit Search and Replace to automatically search and replace pipe and or hydraulic circuits within your project Diversity Factor to apply a diversity factor to your whole project or to a part of it Fluid characteristics enter the characteristics of the fluid used in your c
88. hnical Parameters window Fixed orifices section In this section you can define the minimum and maximum signal allowable through a fixed orifice which will drive the design of the fixed orifice based on flow conditions The default Min signal is 2 kPa and the default Max signal is 6 kPa 95 TA Select 4 9 System Configuration The Radiator valves section Technical Parameters 5j 6 sada Radiat i Balancing z Control i Press indep control valves Dp controllers Fixed orifices 7 Radiator valves Default supply temperature 3 Pipes Device sizes Hydronic circuit calculation z Balancing valves 2 Control valves Balancing and control valves z Press indep control valves 2 Actuators fn Dp controllers Default available diff pres Default room temperature Reset to default I OK Cancel Technical Parameters window Radiator valves section In this section you can define the following radiator valve parameters Default available diff pres you can define the default available differential pressure for the radiator valve The suggested and default differential pressure is 10 kPa Default room temperature you can define the default room temperature The suggested and default value is 20 C Default supply temperature you can define the default supply temperature The suggested and default value is 80 C TA Select 4 9 System Configuration The Pipes section Technica
89. ion Status Verity updating components Connecting Details Connected to TA Update server Cancel The update progress 19 TA Select 4 3 Software Interface Follow the window instructions if any The download and update process is displayed in this window Once the update is complete the following window is displayed After you click on the Close button TA Select 4 will restart the application only not your Windows operating system then it will be again ready for use TA Select 4 update by TA Update v3 0 0 7 Restart of TA Select 4 four database and documentation files are up to date Thank you for helping us maintaining your TA software The update complete window Properties The Properties button open the following window In this window select the update scheme you want to apply either automatic each time you start the application on a regular basic or no automatic check of availability of updates Update properties Check automatically for updates on TA Select startup Slol Propose to check for updates every 2 months Never propose or check automatically for updates Proxy server C Use a proxy server HTTP p The Properties window TA Select 4 4 Individual Selection 4 Individual Selection 4 1 How to Select a Valve One of the main functions of TA Select 4 is to help you to select TA Hydronic
90. ions within the Type Family Body Material Connection Version or PN Begin by selecting the Type and the rest of the options will become apparent If there are still multiple options a further selection narrows the type of valves to be used All parameters that cannot be changed are given for your information TA Select 4 9 System Configuration The Control valves section Technical Parameters age Hydronic circuit calculation preferences for control valves gt Control DN 50 and below DN 65 and above Press indep control valves ER Tii 7 Dp controllers ype Globe valve HVAC Type 0 Globe valve HVAC Fi Family CV 216 RGA Family CV 206 GG Radiator valves 3 Pipes Body material Bronze Body material Ceti i Device sizes ronic circuit calculation Connection Thread Connection Flange Balancing valves i Version Standard Version Standard 2 Balancing and control valves Je p Press indep control valves ii Lr PN Actuators Dp controllers i Pipes A Valves as defined above exist only fom DN 65 2 1 27 to DN 100 4 Selection of other sizes and types of control valves will be performed if possible according to the product priorities defined for your localized version Reset to default i Technical Parameters window Control valves section In this section you can define the balancing valve type to be used in circuit calculations A distinction is made f
91. ircuit Measurement period enter the measurement period when using a TA Scope TA Select 4 5 Hydronic Project Calculation 5 6 2 Import Hydronic Circuits A re Check hydronic Import hydronic Search and Diversity circuit calculation circuits Replace Factor Tools The Project ribbon Tools group To reuse and import an existing circuit or part of it into your current circuit follow these instructions 1 Click on the Import hydronic circuits button in the ribbon to open a browse window 2 Browse to and open the circuit to import tsp file 3 The following import window opens with in the left column the open import file and in the right column your current project 4 Drag and drop the circuit or part of the circuit you want to import from the left column to the right column at the desired place as illustrated hereunder The drop place of the imported element is indicated with a blue line in the current project The imported element appears in red as x x old reference in the right column To move a dropped element in red drag and drop it again in the right column To remove a dropped element in red click on it then press the DEL key or drag and drop it outside the destination area Import hydronic circuits Destination in current project SH A 5 1 19 V C Bureau 4 Use drag and wal A 2 1 4 V C bureau 11 drop to import wa A 5 1 20 V C Reunion 2 hydronic drauits wa A 2 1 5 V
92. istics window as illustrated hereunder This Water Characteristics window is described in the Fluid Characteristics section Please note that the Fluid Characteristics you enter when performing different operations such as individual selection hydronic calculation or using the additional tools are independent from one another If you change the fluid or its temperature here these values will NOT be changed in other TA Select 4 parts 107 TA Select 4 10 Additional Tools Valve characteristics There are 4 parameters in the right area of this window Enter a value for 2 of these parameters in order for the application to automatically compute the remaining 2 values as illustrated hereunder The values you should enter are marked by a small Lb green icon The values that will be computed are marked by a small red icon To change the values that you know and want to enter simply click on the red icon Setting 0 0 xxx the valve current setting in number of turns up to the xxx value maximum possible depending on the valve type Pressure Drop the drop of presure through the selected valve Chart flow the theoretical flow value assuming a strictly turbulent flow regime True flow the true flow value based on the actual flow regime turbulent intermediary or laminar If the true flow is similar to the chart flow then the flow regime is turbulent On the opposite if these values highly differ a s in the illu
93. l Parameters Pipe parameters Ej 6 eneral Balancing Z Control i Press indep control valves Dp controllers Fixed orifices Radiator valves Target linear pressure drop Max linear pressure drop Target water velocity Max water velocity i Device sizes Hydronic circuit calculation z Balancing valves 2 Control valves 2 Balancing and control valves z Press indep control valves 2 Actuators fn Dp controllers Reset to default I OK Cancel Technical Parameters window Pipes section In this section you can define the following pipe parameters Target linear pressure drop Max linear pressure drop Target water velocity Max water velocity These parameters are redundant with the Pipe pressure drop and Pipe water velocity controls on the ribbon Technical paramaters group Thus filling these fields in one place will automatically modify them in the other place See The Technical Parameters Group section for more detailed explanations concerning these parameters TA Select 4 9 System Configuration The Device sizes section Technical Parameters El General Balancing Control Press indep control valves Dp controllers only with the same size as pipe size Fixed orifices i Ralat vez upto sizes above the pipe size Pi sizes below the pipe size Device size parameters Valves can be selected EES Device sizes Hydronic circuit calculation Balancing val
94. lve select the type of return valve such as TRIM STK Regutec et ge ge ge Connection select the connection and fitting type of the supply valve Such as Rad union Thread Rad elbow Thread Flat sealing and of the return valve such as Thread Thread male Thread Rad union Thread Version select the valve version of the supply valve such as Straight Angle Reverse angle and of the return valve Such as Straight Angle Thermostatic head and Electro actuator check the corresponding box if you are looking for a radiator valve with a thermostatic head or with an electro actuator Type select the type of radiator valve such as Built in sensor Remote sensor Thermo electric Family select the family of radiator valves such as K Head built in DX Head B Head within the valve type selected before Version select the radiator valve version such as Standard Public buildings Indoor swimming pools You can leave these parameters with their default value launch a first suggestion and according to the results narrow your search by using more parameters Search results Then press the ENTER key or click on the Suggest button to get a list of proposed products as detailed in the Selection Results section 4 2 6 7 Control valves B PO t amp l The control panel for control valves is illustrated hereunder TA Select 4 4 Individual Selection E
95. lydronic circu i Check hydronic Import hydronic Search and Diversity a Choose v TA CBI compatibility calculation Project type Heating circuit calculation circuits Replace Factor Default DT 20K ie End period Project Info E Project parameters Tools Fluid characteristics la Measurement period The ribbon Project tab The Tools tab The Tools tab is illustrated hereunder and its use is detailed in Additional Tools a7 Home Project Tools Communication Style M Pn rr amma ea ee f awe K ms Viscosity Pipe pressure Kvvalues Hydronic Unit TA correction drop calculation calculator conversion Link Hydronic Other The ribbon Tools tab 12 TA Select 4 3 Software Interface The Communication tab The Communication tab is illustrated hereunder and its use is detailed in TA Scope Communication Home Project Tools Communication Style A A z V TA SCOPE update monitoring v v 4 TA SCOPE TA CBI Update Properties communication communication TA Select Data transfer Update The ribbon Communication tab 3 4 The Home Tab 3 4 1 The Default Units Group This group is part of the Home tab and allows you to select the defaults units for the application Both the SI units and the imperial units are available Flow ih x Differential pressure kPa w Temperature C Default units The ribbon Home tab Default units group You can select the desire units for Flow Differential pressure and T
96. nel 4 2 6 1 Overview The control panel is displayed in the left pane of the TA Select 4 window as illustrated hereunder The available parameters depend on the product you have selected and allow you to filter further your research by selecting mechanical characteristics Control panel q 9 C Flow Power m _ w DT K O apa Suggest gt Type of regulating valve GEJ Balancing Valve wt Famil All Families Body Material Connection All Body Materi All Connections Version All Versions Example of Control panel TA Select 4 4 Individual Selection Some parameters are common to all or most products types while some are specific There are described in the following sections for each product types Manual balancing valves Dp controllers Balancing and control valves Pressure Independent Control valves Radiator valves T ge ge at Control valves Once you have set these parameters click on the Suggest button to generate a list with the products that best suit your requests and preferences These results are described in the Selection Results section 4 2 6 2 Manual balancing valves To The control panel for manual balancing valves is illustrated hereunder Control panel q T7 C Flow C Power C m eee DT LJ ps Suggest Type of regulating valve C2 Balancing Valve w Famil All Families Body Material Connection All Body Materi
97. nic Search and My Temperature 9 5 C Choose Show old deleted valves circuits Replace Sal End Seda Project parameters Tools Fluid characteristics E Measurement period Control panel S ASTRIUM X2 ta Hydraulic Network a R A1 a g A 2 A 2 1 B A 2 2 get A 3 Git A 4 HG A 5 Logged Data Z Quick Measurements x TA HYDRONICS t Project select E Results J Info Pending circuits Module description Antenne EG R 1 NORD Remark Total flow 7862 Vh Hmin 65 3 kPa Havailable 97 2 kPa a Description Flow Dp Name Dp Name Dp Name Dpi range Dp Dpi Size Vh kPa kPa kPa kPa kPa kPa 4 a 2 CA CA CA CA t 1 Antenne EG 7862 57 8 STAF 65 2 3 STAP 65 40 160 36 5 60 8 1 V C LABO DE 421 17 4 TBV C 15LF 39 2 20 3 4 2 V C LABO DE 421 17 4 TBV C 15LF 38 7 20 3 4 3 V C bureau 11 592 32 2 TBV C 20NF 19 8 20 3 4 4 fff 480 21 9 TBV C 15NF 27 9 20 3 4 5 V C bureau 10 270 7 38 TBV C 15LF 40 9 15 1 2 6 V C bureau 10 364 12 2 TBV C 15LF 35 4 20 3 4 7 V C bureau 10 364 12 2 TBV C 15LF 36 4 20 3 4 8 V C bureau 10 360 11 9 TBV C 15LF 36 7 20 3 4 9 V C bureau 10 286 7 87 TBV C 15LF 40 2 20 3 4 10 V C bureau 5 286 7 87 TBV C 15LF 39 7 20 3 4 11 V C Reunion 3 648 37 6 TBV C 20NF 9 36 25 1 12 V C bureau 4 286 7 87 TBV C 15LF 38 7 20 3 4 E 13 V Creunion 3 2 648 37 6 TBV C 20NF 8 13 25 1 14 V C bureau3 286 7 87 TBV C 15LF 37 5 20 3 4 15 V C bureau 2 1 176 3 1 TBV C 15LF
98. ns In this window Select the data to send and or collect from the TA CBI device Click on the L button to delete all saved plant data from the TA CBI memory Click on the button to delete all logged data from the TA CBI memory Click on the Next gt gt button to start the data transfer then follow the displayed instructions TA CBI software version Please specify what you want to do V Send the current project to the TA CBI Collect plant data stored in the TA CBI Collect logged data from the TA CBI ETEN The TA CBI transfer selection display 82 TA Select 4 8 Logged Data Processing 8 Logged Data Processing One of the main functions of TA Select 4 is to analyse data measured by and downloaded from a TA SCOPE ora TA CBI device To analyse downloaded data select a set of data in the Control panel under Logged Data as illustrated hereunder Control panel q Sans nom 443 VARNISH Prue at GENERAL V3V p a Ci The Logged Data in the Control panel Once this data set selected the following Logged data tab and ribbon is available and displayed This tab is only available when logged data are selected E Jj GS al ch ENREGISTREMENT P Logged data tools hg Home Project Tools Communication Logged data j j gt gt gt gt Vi Flow Differential pressure s QR Q i Pa lal l ow K of bx ty 7 Temp DpS T1 Temp Dps T2 B
99. oad Maintenance TA SCOPE communication screen The TA SCOPE should display the following window indicating that it is connected to your computer and TA Select 4 Device Name The TA SCOPE display TA Select 4 7 TA SCOPE and TA CBI Communication Software update The TA SCOPE cannot communicate with TA Select 4 if its software version is older than your TA Select 4 software version If TA Select 4 detects that it has a newer version available for the connected TA SCOPE the following message is displayed Click on it to update the TA SCOPE software version Detected TA SCOPE software version 1 0 2 6 w TA SCOPE update avaiable click to install it The TA SCOPE available software update message Download Click on the Download button to open the following window In this window select Onthe left side the quick measurements and the loggings stored in the TA SCOPE On the right side the plants stored in the TA SCOPE Once you have selected all items you want to download click on the Download button to transfer the data from the TA SCOPE Download data stored in TA SCOPE Detected TA SCOPE software version 1 0 3 6 Select quick measurements and loggings to download GE Quick measurements T ALGEMEEN DESIETKRAAN F IN logging SOLVAY GEBOUW R SOLVAY GEBOUW L Ml Test 02 Total flow 2500 Ih modules 0 1 Adjusted valves 0 11
100. om reset zoom to its default setting the complete set of data is displayed 2D zoom select the part of the chart that will be displayed and zoomed both axis are adjusted accordingly The Chart options group An nl Tracking Markers C Chart options The Chart options group In this group select the additional option that you want to set for the chart Tracking display a cursor that you can move along the chart The measurements values at this cursor position are displayed under the chart Markers display marker at each measurement position Chart legend display the chart legend or hide it to have more space to display the chart Axis labels display detailed or simplified axis labels T ge Export chart export the chart as an image file metafile bitmap JPEG or PNG TA Select 4 9 System Configuration 9 System Configuration 9 1 Introduction This chapter describes technical settings that are used in several operation performed by TA Select 4 such as the fluid characteristics settings or the advanced technical parameters that can be configured from different places within the interface and during the software operation 9 2 Fluid Characteristics In the Fluid Characteristics group in the Individual selection tab of the ribbon enter the information concerning the fluid used in your system Water M Temperature 20 C Fluid Characteristics E The Fluid Characteristics group Please note
101. on H Differential Pressure Controller 6 Diff Press Controller Set 6 Balancing and Control valve H Control Valve H Pressure Independent Control valve E Thermostatic Valve H Actuator 6 Control Valve Actuator Set The Direct selection window TA Select 4 4 Individual Selection 3 Select in each column of the window one of the following items Product categories click on the signs to open and display the available sub categories Products click on the product you want to select and on the corresponding signs to display the list of available compatible accessories if any depending on the selected category Direct selection Product categories Products H Regulating Valve E O KTM 512 DN15 20 HF Artide Number Description l Differential Pressure Controller I Compatible actuators 61055 003 MC 55 Diff Press Controller Set LeO TAR25 F24 44756 977 Max Force 600 N Balancing and Control valve oo TAR25 24 4756 975 Actuating time 9 5 s mm Control Valve pC TAR25 230 44756 976 Baan ee I Pressure Independent Control Valve S Mc 55Y 51055 003 SES aiet 7 a El Compact gt B Compatible accessories Output Signal 0 10 V E Inline i o E O MC 55 24 61055 001 ACA75 W E MC 55 230 61055 003 115 VAC voltage Classical oO TA NV24 50358 020 E Thermostatic Valve i H MC 100 24 61100 001 E Actuator E O MC 100 230 61100 002 E Control Valve Actuator Set H O KTM 512 DN15 20 NF H O K
102. onnection Version PN Size Presetting Dp Dp 100 Dp50 Temp range Size Linear Dp v tumns pos kPa kPa kPa 7G Pa m ms STAD 3 4 Ametal tm Union Thread NPT Without drain 20 20 3 4 2 54 3 0 772 6 92 20 120 STAD 20 Ametal tm Thread With drain 3 4 20 20 3 4 2 54 3 0 772 6 92 20 120 STAD 20 Ametal tm Thread With drain 1 2 20 20 3 4 2 54 k 0 772 6 92 20 120 STAD 20 Ametal tm Thread Without drain 20 20 3 4 2 54 3 0 772 6 92 20 120 STAD 1 2 Ametal tm Union Thread NPT Without drain 20 15 1 2 4 00 3 93 3 93 75 9 20 120 STAD 15 14 Ametal tm Thread With drain 3 4 20 15 1 2 4 00 3 93 3 93 759 20 120 20 118 0 379 STAD 15 14 Ametai tm Thread With drain 1 2 20 15 1 2 4 00 3 93 3 93 75 9 20 120 STAD 15 14 Ametal tm Thread Without drain 20 15 1 2 4 00 3 93 3 93 75 9 20 120 STAD 10 09 Ametal tm Thread With drain 3 4 20 10 3 8 4 00 11 5 11 5 361 20 120 STAD 10 09 Ametal tm Thread With drain 1 2 20 10 3 8 4 00 11 5 11 5 361 20 120 STAD 10 09 Ametal tm Thread Without drain 20 10 3 8 4 00 11 5 11 5 361 20 120 full opening M Draining kit 1 2 JE Draining kit 3 4 Can be installed during system operation Can be installed during system operation iaapela gi e e ie ae OE PORE RE AEP RAE ERA ERAS SRE aE PEE a A R RE ER E A Length 71 mm Suitable when insulation is used a iacsaeessneesneesneenseese Length 60 mm Can be installed without draining of the system Product highlighted and available a
103. or is applied in full to the sizing of production units such as boilers chillers They are downsized accordingly Distribution circuits the diversity factor impacts partially the circuits by partially reducing the design flow in some pipe segments Terminal units there is no impact on the sizing of the end circuits as each terminal unit is always able to provide its full power Applying the diversity factor To select a part of your plant and define the diversity factor to apply to it 1 Open the Project ribbon 2 Go to the Tools group 3 Click on the Diversity Factor button to open the following window Diversity Factor as z iS 7 Choose the level where you want to apply the diversity factor EFAS M BAA 5 5 To do that use the slider control or diredty dick on the E checkboxes in the tree Once you have done your selection O MMB A 5 5 5 input the diversity factor coefficient in the edit field below and dick on the Apply button Input diversity factor 0 0 1 0 E Part of the plant at full design flow E Part of the plant where diversity applies ey The Diversity Factor window 4 If you have several circuits select the one on which you are going to apply the diversity factor 5 Either select the level under which you want to apply this factor by moving the slider or manually click on the branches to select in the circuit tree 6 Enter the diversity factor between 0 0 and 1 0 in the
104. or valves DN 50 and below and valves DN 65 and above due to the difference in body design All possible variations available are given in a drop down menu which shows applicable options within the Type Family Body Material Connection Version or PN Begin by selecting the Type and the rest of the options will become apparent If there are still multiple options a further selection narrows the type of valves to be used All parameters that cannot be changed are given for your information TA Select 4 9 System Configuration The Balancing and control valves section Technical Parameters a pen l Hydronic circuit calculation preferences for balancing and control valves i a alaning Control DN 50 and below DN 65 and above Press indep control valves ral e Dp controllers Type A Balancing and Control w Type AF Balancing and Control w Fixed orifices Family Radiator valves Pipes Body material Ametal tm Body material iy 2 be Device sizes Hydronic Grouit calculation Connection Connection Flange Balancing valves 2 Balancing and control valves 2 Sy Ss eager PN 16 PN Press indep control valves 16 Actuators Dp controllers Family TA FUSION C AC Valves as defined above exist only from DN 15 1 27 to DN 25 1 A Valves as defined above exist only from DN 65 2 1 2 to DN 150 6 Selection of other sizes and types of balancing and control valves will be performed if possible according to
105. parameters Flow the current flow in your system Power the terminal unit emitted power DT the temperature drop or rise in the terminal unit Click on the radio button of the parameter you want to calculate and enter a value for both other parameters as illustrated hereunder The unknown parameter is computed in real time and displayed according to the following formula p g Al p C 36 107 where P is the terminal unit emitted power W qis the fluid flow I h AT or DT is the temperature difference K pis the fluid density kg m retrieved from the fluid characteristics Cp is the fluid specific heat J kg K retrieved from the fluid characteristics Hydronic calculation Be q Kv Dp Be q P DT Be q Valve Dp Flow 100 Power 200 Example of g P DT calculation TA Select 4 10 Additional Tools E q Valve Dp calculation In this tab you have access to the following parameters Flow the current flow in your system Seeting setting of your valve DpT pressure drop in your system Valve Type Family and Valve type of valve used Select your valve Type Family and Valve then click on the radio button of the parameter you want to calculate and enter a value for both other parameters as illustrated hereunder The unknown parameter is computed in real time and displayed according to the selected valve characteristics Hydronic calculation
106. pe Lengths The way to determine and enter the pipe lengths in a TA Select 4 project depends on the circuit configuration direct or reverse return as described hereunder Direct return circuit In a direct return circuit follow the next rules when measuring and entering the various pipe lengths to ensure proper calculation and configuration The entered values MUST include the supply AND the return lengths The Distribution pipe of the circuit is the length of the pipe leading to the circuit connection point and coming from the previous pipe connection as illustrated hereunder The Circuit pipe of the circuit is the length of the pipe inside the circuit as illustrated hereunder Circuits without a terminal unit only require a Distribution pipe length TA Select 4 5 Hydronic Project Calculation The root circuit do not require any pipe length N r a o Pipe length measurement 1 red Distribution pipe length and 2 blue Circuit pipe length Reverse return circuit In a reverse return circuit follow the next rules when measuring and entering the various pipe lengths to ensure proper calculation and configuration The entered values MUST include the supply AND the return lengths The Distribution supply pipe of the circuit is the length of the pipe coming from the previous pipe connection point as illustrated hereunder The Distribution return pipe of the circuit is the length
107. pe Name Steel BS 1387 Galvanised Pipe Size 20 Add Remove Kv Total 0 0575 Example of a Kv calculation 111 TA Select 4 10 Additional Tools When you have entered a Kv or the data required to calculate it in on of the left tabs The corresponding Kv value is displayed in the top right Current Kv field Click on the Add gt button to add this value in the right area The Kv Total resulting value is displayed in real time in the bottom right corner of the window as illustrated hereunder At any time if you want to remove a value simply click on it then click on the Remove button The Nominal Condition tab Calculate Kv Values in Series Current Ky Value Flow g 10 h Dp 3 kPa h Fressure Drop Pa 4 Water Temperature 20 C Nominal Condition Ky Cv Zeta Kv Total 0 0577 The Nominal Condition tab In this tab enter the Flow and the Pressure Drop in the valve as well as the Fluid characteristics if required The Kv flow factor is calculated using the following equation where qis the fluid flow m h pis the fluid density kg m retrieved from the fluid characteristics Ap or Dp is the pressure drop bar The Kv tab In this tab simply enter the Kv value you want to add The Cv tab In this tab enter the Cv or flow coefficient value usually used with imperial units The Kv is calculated using the following factor K 0865xC TA Select 4
108. rameters to enter are the Flow value or the two Power and DT values in W and K for instance Enter or select a value for the following parameters before performing a search in the products database Mandatory parameters Select and check a parameter set between Flow and Power DT as these are exclusive Then enter a value for the corresponding parameters Flow enter the supported liquid flow through the valve Power enter the power that goes through the valve DT enter the supported temperature difference supported by the valve Type select the type of valve you are looking for such as Classical PICV High Dp PICV Std HVAC ete et Ctrl type select the type of control you are looking for such as Proportional 3 point On Off TA Select 4 4 Individual Selection Optional parameters Enter a value for some or all of these parameters if you want to further filter the proposed list of products Family select the family of valves such as TBV CMP TA FUSION P within the valve type selected before Body Material select the material of the valve such as Ametal Ductile iron Connection select the connection and fitting type such as Thread Flange Version select the valve version such as Standard PT 90 PN select the pressure class Power suply select the type of power supply such as 24 VAC 24 VDC 230 VDC Input signal select the type of input signal such as 0 10 V On off 3 point Fail safe sele
109. s illustrated hereunder EJ Microsoft Excel ASTRIUM X2 xls 4 SEE MF Sa EESE EE fe O E T Z ae aie adj E 9 999 E40 00 E f cta reunion Selected differential pressure control sets Product Adobe PDF Technical Info a 4 100 O 7 Article N Dp Controllers from individual selection Water Temperature 9 5 C Water Temperature 9 5 C 13 14 15 16 18 19 20 21 24 26 27 28 4816 Vh Dpmin 3 89 kPa 13 turns Hmin 30 1 kPa Sch A Kv 10 Authonty gt 0 63 4816 Vh 3 kPa 3 61 tums 4816 lh Dpmin 3 89 kPa 13 turns Hmin 30 1 kPa Sch A Kv 10 52151 650 52151 650 M 4 gt m Balancing valves Dp controllers Pipe list Article list_ Pr t Example of results exported as Excel sheets and tables 7 E Snagit i window zB 15 TA Select 4 6 Results Management Printing results Click on the Print command then select Print Setup to select your printer and printer configuration Print to print your data The following window opens with the selection option for printing Printing output Project Print project informations Tie Hydraulic Network Project GP A Condensed project structure EME tA E Pe A 2 Project STUCTUre CFE A 71 Circuit tables CFE A 2 2 Detailed circuit vie GP A 3 PTR A 3 1 CFE A 3 2 P A 4 CFE A 4 1 CFE A 4 2 A 5 PE A 5 1 CPE A 5 2 The Print menu This window is divided in s
110. s products and valves Selection methods Two ways are proposed to help you in selecting the best suited products according to your needs A selection based on technical parameters this search will display a list of products corresponding to your search parameters and highlight the recommended ones A direct search in TA Hydronics database this way you have direct access to TA Hydronics catalogue and datasheets Selection environment To perform a product selection 1 Go to the Select Control Panel Bottom Menu view as illustrated hereunder m TA HYDRONICS Ta Project Z Results J Info The Select view selection at the Control panel bottom 2 Make sure that the Individual selection tab and ribbon are selected This tab is only available in the Select view E L GF ke h Untitled tsp TA Select 4 Individual selection tools x Home Project Tools Communication Individual selection Y 2 E s Pipe series Steel DIN 2440 ISC 5 Pipe size All Sizes k ar Product Type Pipes The Individual selection fab 3 According to the type of search follow instructions detailed in Parameterised Selection gt Selection Steps Direct Selection TA Select 4 4 Individual Selection 4 2 Parameterised Selection 4 2 1 Selection Steps To select a valve or a controller perform the following steps to enter your system and preference parameters These steps are detailed in this chapter
111. s the first one in the drop down list and appears as a generic name enclosed in signs such as All Sizes All Families 4 2 2 Product Types In the Product Type group in the Individual selection tab of the ribbon select the type of product your are looking for E D G ad Untitled tsp TA Select 4 Indivi Home Project Tools Communication Inc KETE TT Product Type The Product Type group TA Select 4 4 Individual Selection There are 6 types of products If all those types do not appear in your ribbon click on the highlighted drop down arrow in the above illustration to display the complete list as illustrated hereunder Balancing devices w Control valwes of BE The Product Type group in the drop down view According to the selected type the Control panel will be different and will allow you to select and narrow further the products you are looking for Balancing devices ks Manual balancing valves valves dedicated to balancing the flows ina system These valves are set manually by a field engineer Dp controllers valves dedicated to stabilising the differential pressure in a system Control valves Pa Balancing and control valves valves used to balance and control the flows in a system a Press Indep control valves valves used to control the flows in a system These valves are pressure independent Radiator valves valves dedicated to control the flows through
112. s your logged data Go to the Logged Data Processing chapter In addition to these main operations if you want to know further How to edit and output your results Go to the Results Management chapter Read the Selection Results Edition topic to edit your results Read the Results Output topic to export or print your results How to configure your system Go to the System Configuration chapter for advance configuration of your system How to calculate or convert your hydronic data Go to the Additional Tools chapter Look for the tool that will perform your calculation or conversion among the different available tools TA Select 4 3 Software Interface 3 Software Interface 3 1 Interface Overview TA Select 4 is a software developed by TA Hydronics Its main interface is illustrated hereunder Home Project Tools Communication Flow Wh Default pipe series Device size Pipe pressure drop Pipe water velocity Language English z E Release notes Differential pressure kPa v Generic Steel Pipes z oot O me P 150 Pa m yo 1 m s p Product documentation Q Tip of the day User o Temperature X coy 2 a 200 Pa m yo 2 m s V Autosave recovery file references About TA Select 4 Default units x Pipe series p Technical parameters F Options Information Control panel m a Untitled a Hydraulic Network Logged Data Z Quick Measurements Number of modules 0 Num
113. strated example hereunder then the actual flow regime is laminar or intermediary Viscosity Correction I Type Balancing Valve Family cae STAD Device kPa STAD 10 09 h 450 h Water Propylene Glycol 50 by weig Temperature 6 C e Example of vicosity correction computation 10 2 Pipe Pressure Drop Calculation The Pipe Pressure Drop Calculation tool is used to compute the actual pressure drop in a selected pipe type and to recommend within this type a pipe size according to the liquid characteristics and viscosity E JG ed es Home Project Tools Communication c cm cz c i al CS ses E ate calf nt ee l Viscosity Pipe pressureg Kv values Hydronic Unit TA correctio drop alculation calculator conversion Link Hydronic Other The Pipe pressure drop button in the Tools ribbon TA Select 4 10 Additional Tools When you select this tool in the ribbon the following window is displayed Pipe Pressure Drop Calculation S Pipe Name Ih Generic Steel Pipes Lin Dp v Flow Regime Pa m m s Water Propylene Glycol 50 by weight Temperature 20 C The Viscosity correction window Flow and pipe In this window you should first specify in the upper area the following parameters Flow the desired flow in your pipe Pipe Name the type of pipe you are using Water characteristics Click on the button to open the Water
114. strated hereunder in the Update group Home Project Tools Communication A A V TA SCOPE update monitoring P P TA SCOPE TA CBI Update Properties communication communication TA Select Data transfer Update The Communication ribbon In this group the following commands are available Update TA Select to update your software as described below Properties to configure the automatic update of your software as described below TA SCOPE update monitoring to keep your TA SCOPE if you are using one updated when you connect it to your computer as explained in the TA SCOPE Communication section TA Select 4 3 Software Interface SSS ee Update TA Select The Update TA Select button opens the following window TA Select 4 update by TA Update v3 0 0 7 Welcome to TA Update the TA Select 4 update software TA Select 4 i about to connect itself to the TA Update server in onder to download the available update components Do vou want to continue x HYDRONICS C Offline The TA Select 4 update window Click on the Repair button to repair your software installation in case it has been corrupted or click on the Yes button to launch the update process and open the following window Your computer should be connected to the Internet to be able to update TA Select 4 update by TA Update v3 0 0 7 Progress Please wait while TA Update completes the following actions y TA Select 4 Update Progress Act
115. the product priorities defined for your localized version Reset to default i Technical Parameters window Balancing and control valves section In this section you can define the balancing valve type to be used in circuit calculations A distinction is made for valves DN 50 and below and valves DN 65 and above due to the difference in body design All possible variations available are given in a drop down menu which shows applicable options within the Type Family Body Material Connection Version or PN Begin by selecting the Type and the rest of the options will become apparent If there are still multiple options a further selection narrows the type of valves to be used All parameters that cannot be changed are given for your information TA Select 4 9 System Configuration The Press indep ctrl valves section Technical Parameters El General z Control i Press indep control valves Dp controllers Fixed orifices 2 Radiator valves Fipes Device sizes Hydronic circuit calculation z Balancing valves Control valves i Press indep control valves Actuators ba Dp controllers Pipes Balancing and control valves Hydronic circuit calculation preferences for pressure independent control valves DN 50 and below DN 65 and above Type A picy std Hvac Type AX PICV Std HVAC Family Family TA FUSION P Body material Ametal tm Body material Ductile iron Connection Conn
116. the water characteristics In all 3 tabs click on the button to open the Water Characteristics window as illustrated hereunder This Water Characteristics window is described in the Fluid Characteristics section Please note that the Fluid Characteristics you enter when performing different operations such as individual selection hydronic calculation or using the additional tools are independent from one another If you change the fluid or its temperature here these values will NOT be changed in other TA Select 4 parts q Kv Dp calculation In this tab you have access to the following parameters Flow the current flow in your system Kv Valve coefficient the flow factor of your valve Dp the current pressure drop in your system Click on the radio button of the parameter you want to calculate and enter a value for both other parameters as illustrated hereunder The unknown parameter is computed in real time and displayed according to the following formula g Kv Ap 1000 P pis the fluid density kg m retrieved from the fluid characteristics where e qis the fluid flow m h Ap or Dp is the pressure drop bar Hydronic calculation Be a Kv Dp Be q P DT gi g Valve Dp Flow s ih Kv Valve coefficient 0 56 Kv Dp 3 kPa Example of q Kv Dp calculation TA Select 4 10 Additional Tools e q P DT calculation In this tab you have access to the following
117. this window you can Choose the language used when opening documentation and catalogue files if available Select the languages for which you want to maintain an up to date set of product catalogue leaflets and this User Manual We highly recommend that you always select English in addition to your language s to guarantee a complete and updated set of documentation on your computer If a file is not available in your language it will be displayed in English providing English is selected in the list Each language set can account for as much as 100 MB and if no language is selected there will be no product documentation updates TA Select 4 3 Software Interface Product documentation update Product documentation languages Select the languages for which you want to maintain an up to date set of product catalogue leafiets Be aware that each language set can account for as much as 100MB English C Chinese simplified e tina C Dansk Deutsch C Espa ol C Suomi Francais Magyar C Italiano Japanese C Korean C Nederlands C Norsk Polski Portugu s Options group Product documentation update Autosave recovery file check this field box to activate the autosave of the current project data in a separate recovery file The project will then be regularly every 10 minutes saved The saved file can be accessed via your computer in the following folder Do
118. timise your system as described in Distribution and Circuits Two or three tabs are available The Distribution tab displays the flow distribution through all circuits and components The Circuits tab displays the components automatically selected by the software The Measurements tab if available displays the measurements performed with a TA CBI or TA SCOPE This tab is described in the TA Scope Data Processing dedicated chapter 4 Output the resulting bill of material as described in Results Management TA Select 4 5 Hydronic Project Calculation I a a ea Se a Se 5 2 Hydronic Circuit Description In order to balance a plant with TA Select 4 you should decompose your whole plant in elementary hydronic modules This hydronic module structure will also be used to send balancing valve settings to the TA SCOPE or TA CBI Hydronic modules A hydronic module is made of several circuits connected in parallel as illustrated hereunder Example of a hydronic module direct return configuration The hydronic module and its circuits should follow these conditions Each circuit is connected in the same configuration either all in direct return or all in reverse return Each circuit is fitted with a balancing valve The module is fitted with a general valve that regulates the total flow of the module this valve is called a partner valve In a hydronic module each circuit can be a terminal unit as in the previous illus
119. tion 4 Click on the Cancel button to exit the wizard without adding any circuit 5 4 3 Circuit Wizard Second Step To add a new circuit after completing the Circuit Wizard First Step follow these steps 1 In the wizard window top area Enter a description for the circuit not mandatory but recommended Change the parent circuit in Insert In and the position in Pos if required The name is automatically set according to the circuit position Inthe left window the circuit is automatically positioned according to this name TA Select 4 5 Hydronic Project Calculation The circuit El icon indicates that this is the currently edited valve The asterisk in front of the name indicates that this circuit can be automatically renamed if the configuration changes to match the TA Select 4 naming rules DG test tsp TA Select 4 _ Home Project Tools Communication Project name Untitled V TA CBI compatibility Project Info F Circuit Wizard Freeze hydronic circuit calculation kii og Water Period F A f Safety factor for pipe pressure drops 5 E Start ai Import hydronic Search and My Temperature 20 C Control panel lt Untitled zi Hydraulic Naja A S S Hydraulic Network A HS A1 HB A 2 Bt A 3 Control valve 6 RGA DN15 HB A 11 Primary differential pressure 11 3 kPa 10 7 kPa rma crats S e
120. tion STAD 10 09 3 Uh 52151 609 Steel DIN 2440 ISO 65 1 Water Thread 3 02 kPa 10 Temperature 20 C With drain 3 4 0 25 turns 0 0068 m s PN 20 1 39 Pa m Balancing Valves from direct selection STAF SG 20 52182 020 1 Edit Quick edit Delete N Standard PN 16 25 STA DR 15 Thread With drain 1 2 PN 20 52173 015 Cut Copy Quick reference sheet Full catalogue sheet K lt gt gt __ Balancing valves _ Control Products Article list The contextual menu in the Results tables TA Select 4 6 Results Management The following commands are available from this menu Edit edit and if wanted change the selected product as described in the Parameterised Selection section Quick edit open the selection window illustrated below to quickly change the product references but without changing the product itself Please refer to the Selection section for a complete description Selection Description eS Complementary information Balancing valve First reference STAD 15 14 Body material Ametal tm Second reference Connection Thread Quantity T Version Without drain PN 20 bal Remark Enter you own remark here 6 i Lx Jf ce The Quick Edit window Delete remove the selected products from the list Cut remove the selected products but keep them in the clipboard for later paste reuse Copy copy the selecte
121. tion results 10 3 Kv Values Calculation The Kv values calculation tool is used to compute the equivalent flow factor Kv of a pipe along which several items are placed in series J ides Home Project Tools Communication cad Unit TA conversion Link Hydronic Other The Kv values calculation bution in the Tools ribbon The flow factor or Kv is used to express the capacity and flow characteristics of control valves When several valves are installed in a circuit it is sometimes necessary to calculate the resulting equivalent Kv of the whole assembly TA Select 4 10 Additional Tools Parallel assembly Valves mounted in parallel When valves are installed in parallel the resulting Kv is simply the addition of the individual Kv values A A A Series assembly e Ky 4 Rm 1 2 Valves mounted in parallel When valves are installed in parallel the resulting Kv is simply the addition of the individual Kv values 1 1 P 1 K Ka Ka The Kv calculation window This tool window is illustrated hereunder with a complete example It directly computes the equivalent Kv for the different individual Kv entered assuming a series assembly the way the individual values are entered is described below Calculate Kv Values in Series Nominal Condition Kv Cv Zeta Value g 10 h Dp 3 kPa feta coefficient C Internal Diameter es 1 2 Zeta 0 5 Di 19 9 mm Sa Pi
122. tration or another hydronic module as in the plant illustration below The different circuits ina module must be numbered incrementally the first circuit being the one nearest the flow entry Direct return configuration Direct return configuration and Dp distribution A direct return system has a flow proportionality property that reverse return systems do not have A decreasing differential pressure is applied on circuits so balancing can be done using balancing valves This configuration is much more flexible than a reverse configuration and better suited for buildings were reallocation occurs often TA Select 4 5 Hydronic Project Calculation Reverse return configuration M Reverse return contiguration and Dp distribution Intheory the differential pressure is equal across all branch but the same Dp cannot be obtained in all pipe segments In practice a reduced differential pressure is obtained in different circuits inside the branch Intheory self balancing is assumed to happen based on design calculations but there is no possibility for actual corrections Issue there is NO systematic balancing method that applies to reverse return systems One way to mitigate the issue of large Dp variations with reverse return systems is to use Dp control However this does not solve the intrinsic flow distribution distortion issue that happens with reverse return when units do not work in simultaneity
123. up opens the following window to enter the project designer and customer information In this window use the icon to automatically retrieve the User references data entered in the ribbon Home tab Project Information Selection by Name Project Project s Name Reference ASTRIUM X2 Comments Customer Contact person Ref N Name Company Address Zip Country Tel The Project Information window Project Parameters Freeze hydronic circuit calculation Automatic check of hydronic calculation Project type Cooling Project parameters The Project ribbon Project parameters group In this group enter Freeze hydronic circuit calculation Check this option to freeze the circuit and allow to transfer the project without modification This is especially useful when several people are working on the same project on different computers an existing project is frozen at opening Uncheck this option to enable editing and recalculation of the project Automatic check of hydronic calculation Activate this option to check the results of the automatic calculation performed on your circuit after any significant change This option guarantees that the new results comply with the technical parameters It may slow down the application for large circuits Uncheck this option to disable automatic results che
124. ves s Control valves Balancing and control valves Press indep control valves Actuators Dp controllers i Pipes Reset to default o OK Cancel Technical Parameters window Device sizes section In this section you can select the following options concerning the device sizes Select upto to select the number of sizes above and below the selected pipe size to be considered for valve selection These fields are redundant with the Devise size controls on the ribbon Technical paramaters group Thus filling these fields in one place will automatically modify them in the other place See The Technical Parameters Group section for more detailed explanations concerning these parameters Select only with the same size as pipe size to essentially allow zero sizes above the pipe size and zero sizes below the pipe size TA Select 4 9 System Configuration 9 3 3 Hydronic Circuit Calculation The Hydronic circuit calculation section Technical Parameters El General Balancing a Control Press indep control valves z Dp controllers i Fixed orifices Radiator valves Pipes Device sizes EB Hydronic circuit calculation Balancing valves z Control valves Balancing and control valves Press indep control valves 2 Actuators Dp controllers Fipes General hydronic circuit calculation parameters Automatic check of hydronic calculation Reset to default Technical Parameters window Hydronic
125. w 2 3 Gp Max 200 Pa m po Max 2 m s Technical parameters E Ihe Technical parameters group This group allows you to enter the information concerning pressures pressure drops and fluid velocity in your system For more details about this group see The Technical Parameters Group in The Home Tab section Click on the small arrow at the right bottom to open the Technical Parameters window and to access to more technical parameters and to modify them That window is explained with more details in the Advanced Technical Parameters section TA Select 4 4 Individual Selection SSS eer 4 2 5 Fluid Characteristics In the Fluid Characteristics group in the Individual selection tab of the ribbon enter the information concerning the fluid used in your system Water My Temperature 20 C Fluid Characteristics E The Fluid Characteristics group Define the fluid water and additive used in your system The fluid characteristics will be automatically computed and used in the calculation made during the project calculation The Water Characteristics window is described in the Fluid Characteristics section Please note that the Fluid Characteristics you enter when performing different operations such as individual selection hydronic calculation or using the additional tools are independent from one another If you change the fluid or its temperature here these values will NOT be changed in other TA Select 4 parts 4 2 6 Control Pa
126. window illustrated below Customize Pipes S Fipe Series Generic Steel Pipes 10 3 8 Corresponding valve size C 6F 8s 15 1 2 1B GF Pe aa 25 15 C GF Pe 100 S 32 1 1 4 C Climatherm Faser 40 11 27 Internal Diameter 7 Gy Copper AS 1432 1990 A s Copper EN 1057X 30 39 iy Copper EN 1057 Y 100 4 Copper EN 10572 pa pa im Copper ISO 274 DS 2110 200 39 Copper NF A 51 imm 250 109 B Copper US Type K 300 127 B Copper US Type L ae fa B Copper US Type M 450 18 M Copper s UNE 37 41 500 20 79 aes ee T O s 600 245 lt jiii gt 700 28 ay a ee oe Set as default pipe series Create Series Customize pipes window The Customize Pipes window displays all pipe types available in the system database The pipe type and size selected will lead to pipe pressure drop calculations relevant to system operation In this window the user can select the common pipes to be quickly selected from the Pipe series group The different pipe series listed have the icons or J in front of their name to show if they are respectively locked or unlocked All locked pipes are part of TA Select 4 initial database and can never be deleted nor modified All unlocked pipes are user input pipes that can be deleted at any time if it s not used in an opened project This window contains the following buttons and fields The button allows to select all the pipe series with one click whil
127. ya A NITION PMNTAVTIIM ryninnis Ne CAITTINO COnTeYXTI ali ment O CUM UUIILOACUCG Fiori Double click on a circuit to edit the circuit same as the Edit command in the context menu c editable column click on any setting in that column to select a new value via a drop down list ane editable column click on any setting in that column to enter a new text in the text box TA Select 4 5 Hydronic Project Calculation Drag copy to copy a setting in the following adjacent cells at once Click on the cell you want to copy it should be editable The cursor changes into an open hand Click on the cell again and do not release the mouse button The cursor changes to a closed hand as illustrated Move the cursor down over the cells you want to replace with the selected value Release the mouse button All cells are replaced with the selected value These cells are now locked by default lt way vou 49 4 wp dU Z uU it uU u2 2 way 286 487 bz 6 0 665 T 0 037 2 way 286 481 lp 50 2 a 0 592 T 0 035 2 way 648 477 ly 50 2 0 349 T 0 06 2 way 286 473 baarr 0 404 T 0 069 2 way 648 466 Ly 4011 27 4 0 688 T 0 12 2 way 286 46 1 Ly 32 1 1 47 2 0 473 T 0 086 2 way 176 449 Ly 32 1 1 47 6 1 13 T 0 05 2 way 176 438 ly 32 1 1 4 6 0 969 T 0 045 2 way 634 413 Lp 32 1 1 4 18 2 46 T 0 127 5 6 Advanced Project Configuration 5 6 1 Overview When you create a new project some setup is required via t
128. ype such as Thread Flange Version select the valve version such as Standard 3 way 4 way PN select the pressure class You can leave these parameters with their default value launch a first suggestion and according to the results narrow your search by using more parameters Search results Then press the ENTER key or click on the Suggest button to get a list of proposed products as detailed in the Selection Results section 4 2 7 Suggest Results A Suggest launch display a list of products compliant with your requests such as the one illustrated hereunder Name Body Material Connection Version PN Size Presetting Dp Dp 100 Dp 50 Temp range Size Linear Dp v turns pos kPa kPa kPa pi Pa m ms Le STAD 34 Ametaiim __ UnionThread NPT Without drain 20 2034 2 6400 30772682 20 120 STAD 20 Ametal tm Thread With drain 3 4 20 20 3 4 2 54 3 0 772 6 92 20 120 STAD 20 Ametal tm Thread With drain 1 2 20 20 3 4 2 54 3 0 772 6 92 20 120 STAD 20 Ametal tm Thread Without drain 20 20 3 4 2 54 3 0 772 6 92 20 120 STAD 1 2 Ametal tm Union Thread NPT Without drain 20 15 1 2 4 00 3 93 3 93 75 9 20 120 STAD 15 14 Ametal tm Thread With drain 3 4 20 15 1 2 4 00 3 93 3 93 75 9 20 120 20 118 0 379 STAD 15 14 Ametal tm Thread With drain 1 2 20 15 1 2 4 00 3 93 3 93 75 9 20 120 STAD 15 14 Ametai tm Thread Without drain 20 15 1 2 4 00 3 93 3 93 75 9 20 120 STAD 10 09 Ametal tm Thread With drain 3 4 20 10
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