Marley Class 1000 cooling tower user manual
Contents
1. leaks and all joints 5 A Caution are tight See the Geareducer Service Manual for oil filling procedure recommended lubricants 6 Rotate the fan by hand to be sure it is free to rotate and that it has correct tip clearance as indicated in the Marley Fan Owner s Manual 7 Check the motor insulation with a Megger See the Maintenance Section of the Marley Electric Motor Service Manual 8 Lubricate the motor according to motor manufacturer s instructions 9 Test run each fan separately for a short time Check for excessive vibration or unusual noise If either is present see Troubleshooting on page 22 of this manual The fan must rotate clockwise when viewed from above Recheck the Geareducer oil level 10 Check functioning of makeup water supply and correct basin levels 11 Make sure the blowdown or bleed off will carry the proper amount of water See BLOWDOWN on page 18 OPERATE WATER SYSTEM Complete steps 1 thru 4 under Initial Starting Procedure on page 7 Circulate water overthe tower continuously for several days before starting the mechanical equipment and putting the tower into continuous operation Do not circulate water over the tower in freezing weather without a heat load See Caution on page 7 N Caution Initial Starting Procedure 1 Fillthe cold water basin and circulating water system to a level 13 mm 1 2 below the overflow 2 Completely open all hot water flow control valves If th2. the rings A new rotor may be required Have motor service man check motor Troubleshooting Trouble Cause Remedy Wrong Rotation Motor Wrong sequence of phases Switch any two of the three motor leads Geareducer Noise Geareducer bearings If new see if noise disappears after one week of operation Drain flush and refill Geareducer See Geareducer Service Manual If still noisy replace Gears Correct tooth engagement Replace badly worn gears Replace gears with imperfect tooth spacing or form Unusual Fan Drive Vibration Loose bolts and cap screws Tighten all bolts and cap screws on all mechanical equipment and supports Unbalanced drive shaft or worn couplings Make sure motor and Geareducer shafts are in proper alignment and match marks properly matched Repair or replace worn couplings Rebalance drive shaft by adding or removing weights from balancing cap screws See Drive Shaft Service Manual Fan Make certain all blades are as far from center of fan as safety devices permit All blades must be pitched the same See Fan Service Manual Clean off deposit buildup on blades Worn Geareducer bearings Check fan and pinion shaft end play Replace bearings as necessary Unbalanced motor Disconnect load and operate motor If motor still vibrates rebalance rotor Bent Geareducer shaft Check fan and pinion shaft with dial indicator Replace if necessar
3. 8 0 196 0 124 0 088 6 C 10 8 F 1 708 0 556 0 412 0 268 0 196 9 C 16 2 F 2 572 0 844 0 628 0 412 0 304 12 C 21 6 F 3 436 1 132 0 844 0 556 0 412 15 C 27 F 4 300 1 420 1 060 0 700 0 520 Multipliers are based on drift of 0 02 of the circulating water rate EXAMPLE 2000 L s 31695 7 GPM circulating rate 10 C 18 F cooling range To maintain 4 concentrations the required blowdown is 0 46 or 0046 times 2000 L s 31695 7 GPM which is 9 200 L s 145 8 GPM If tower is operated at 4 concentrations circulating water will contain four times as much dissolved solid as the makeup water assuming none of the solids form scale or are otherwise removed from the system The use of corrosion and scale inhibitors is strongly recommended CHEMICAL TREATMENT In some cases chemical treatment of the circulating water is not required if adequate blowdown is maintained In most cases however chemical treatment is required to prevent scale formation and corrosion Sulfuric acid or one of the polyphosphates is most generally used to control calcium carbonate scale Various proprietary materials containing phosphates or other compounds are available for corrosion control When water treatment chemicals are required the services of reliable water treating companies should be obtained The circulating water pH should be maintained between 7 0 and 8 5 The Langelier index ca
4. Check voltage and current of all three lines against nameplate values Overload Check fan blade pitch See Fan Service Manual Check for drag in fan drive train as from damaged bearings Wrong motor RPM Check nameplate against power supply Check RPM of motor and gear ratio Bearings over greased Remove grease reliefs Run motor up to speed to purge excessive grease Rotor rubs stator bore If not poor machining replace worn bearing Wrong lubricant in bearings Change to proper lubricant See motor manufacturer s instruction One phase open Stop motor and attempt to start it Motor will not start if single phased Check wiring controls and motor Poor ventilation Clean motor and check ventilation openings Allow ample ventilation around motor Winding fault Check with Ohmmeter Bent motor shaft Straighten or replace shaft Insufficient grease Remove plugs and grease bearings Deterioration of or foreign material in grease Flush bearings and lubricate Bearings damaged Replace bearings Incorrect fan blade pitch See Fan Service Manual for blade pitching instructions Motor Does Not Come Up Voltage too low at motor terminals To Speed because of line drop Check transformer and setting of taps Use higher voltage on transformer terminals or reduce loads Increase wire size or reduce inertia Broken rotor bars 22 Look for cracks near
5. Class 1000 User Manual Marley A Warning N Caution A Note Note The following defined terms are used throughout this manual to bring attention to the presence of hazards of various risk levels or to important information concerning the life of the product Indicates presence of a hazard which can cause severe personal injury death or substantial property damage if ignored Indicates presence of a hazard which will or can cause personal injury or property damage if ignored Indicates special instructions on installation operation or maintenance which are important but not related to personal injury hazards These instructions assist in obtaining efficient long life from Marley cooling equipment Direct additional questions concerning cooling tower operation and maintenance to your Marley sales office or representative Always include your tower serial number when writing for information or ordering parts Look for this number on the nameplate located on the tower access door Contents General 5 cep oe e ee ha a Ed ere ein HER 4 Before Start p oe reete P ese eee nee ies 5 Initial Starting Procedure sssssssssseeeeeeeneenenneenn nene 7 Routine Starting Procedure 8 Imt 9 Cold Weather Operation 11 Temperature Control and Energy 13 Maintenan
6. If two speed motors are used allow a time delay of a minimum of 20 seconds after de energizing the high speed winding and before energizing the low speed winding Tremendous stresses are placed on driven machinery and motor unless the motor is allowed to slow to low speed RPM or less before the low speed winding is energized When changing fan direction of rotation allow a minimum of two minutes time delay before energizing the fan motor N Caution 10 HOT WATER DISTRIBUTION SYSTEM Keep metering orifices clean andin place in distribution basins Adjust water flow to give the same depth in the distribution basins of all cells Design water depth varies typically from 102 to 178 mm 4 to 7 depending upon design circulating water rate If a major change in the quantity of water to be circulated over the tower is to be made replace the removable metering orifices with ones of a correct orifice size to provide adequate water breakup and maintain the proper water level If an Amertap condenser tube cleaning system is part of plant equipment care should be taken during operation to backwash the strainer section only after the sponge rubber cleaning balls are removed from the system by trapping them in the collector If the balls are allowed to enter the cooling tower supply piping they can clogthe plastic metering orifices Clogged orifices will cause unequal water distribution over the fill which will affect thermal performance Exten
7. TOWER ENERGY USE described on page 13 are those which the operator would use to maintain water temperature at or above 21 C 70 F In combinations of low ambient air temperatures and reduced loads fan speed manipulation may not be sufficient to maintain an acceptable water temperature Even with fans off the natural movement of air through the tower may be enough to continue reducing the water temperature When that happens if the tower is equipped with a bypass it will become necessary to open the bypass valve and allow total circulation to flow directly into the cold water basin until such time as the basin water inventory rises to a temperature level sufficiently high to preclude frequent change overs from normal flow to bypass flow That temperature level might be 29 C to 32 C 85 F to 90 F but should be determined by operator experimentation DEICING The formation of ice on towers operating in freezing weather cannot be completely prevented but can be acceptably controlled Ice will form on the relatively dry parts of the tower that are in contact with the incoming air Primarily this includes the louvers and adjacent structural framing Ice forming characteristics on any given tower will vary depending on velocity and direction of wind circulating water rate and heat load A regularly programmed inspection one walk around the tower per shift during cold weather operation is the best way to determine if excessive ice buildu
8. at the water be drained from the tower piping to insure protection against freezing and possible pipe and valve damage A Caution Temperature Control and Energy Management The wet bulb temperature of the ambient air varies significantly on a daily basis and considerably from seasonto season Asthe wet bulb temperature reduces the tower becomes capable of producing colder and colder water or it becomes capable of producing a given cold water temperature at reduced airflow through the tower These characteristics are the opposing forces referred to under General on page 4 MAXIMIZING TOWER PERFORMANCE If your operating system is one which benefits from the coldest possible water that is if colder water allows you to increase your output or allows you to operate your system at significantly lower cost then continuous full speed operation of the fan s may be your best mode of operation In this mode of operation concern for the cold water temperature level would be limited to the potential for the tower to form ice during freezing weather See Caution on page 8 and Cold Weather Operation on page 11 Although the 21 C 70 F cold water temperature indicated on page 11 is appropriate for cold weather start up and operation acceptable temperatures during full operation in spring summer and fall may be appreciably lower perhaps as low as 10 50 or less Refer to your performance curves for expected tower cold water temperat
9. ce iicet een Peri e Rx be RR 15 Cooling Tower Cleaning esssesseeeneneeeeeneeenn nnns 17 Water Treatment nnne 18 Seasonal Shutdown sesenta 20 Spare Parts and Accessories sss 21 Troubleshooting ie ertet tee a 22 Safety 5 incite etas atetutuit rt vete 23 Inspection and Maintenance 24 Tower Cross Section iie AE e bain ed dona 25 Inspection Checklist ssseseseseseeseeeeeeennnen nnne 26 A cooling tower like any heat exchanger exchanges all heat imposed upon it from one fluid to another fluid For a cooling tower heat from the water is exchanged into the air The plant process replenishes the heat to the water typically at another heat exchanger such as a condenser A cooling tower differs from many heat exchangers in that heat is transferred in two forms sensible and latent heat As heat is transferred from the water the air temperature increases sensible and the air s water content or humidity also increases latent As the heat load inlet air wet bulb temperature or airflow on a cooling tower changes the cooling tower will respond by finding a new equilibrium with the process The cooling tower will still dissipate all the heat from the process but at new water temperatures The cooling tower cold water temperatu
10. d or produced by the use of sulfuric acid for pH adjustment The concentration of calcium sulfate should be kept below 1000 ppm expressed as CaCO Calcium carbonate generally will not form scale in the cooling tower if carbonate scaling does not occur in the condenser However if makeup water contains surplus free carbon dioxide scaling may be inhibited in the condenser but may occur in the fill because of CO stripping Silica scale is virtually impossible to remove However silica scale is unlikely if concentrations of SiO are held below 150 ppm Oxides suchasiron oxide can coatall parts of the system if soluble iron is present in concentrations above 0 5 ppm Iron oxides do not usually develop into thick scales but like mud can accentuate the development of other scales FOAMING Heavy foaming sometimes occurs when a new tower is put into operation This type of foaming generally subsides after a relatively short period of operation Persistent foaming can be caused by the concentrations of certain combinations of dissolved solids or by contamination of the circulating water with foam causing compounds This type of foaming can sometimes be minimized by increasing the blowdown but in some cases foam depressant chemicals must be added to the system Foam depressants are available from a number of chemical companies 19 A Note N Caution 20 Seasonal Shutdown TOWER Drain all tower piping During shutdown cl
11. e operating valve measure distance from valve stem guide to operating handle to assist in resetting the valve to the original operating position Grease the stainless steel stem to prevent scale forming Lubricate the valves at least semiannually with a lithium base NLGI No 2 consistency grease More frequent lubrication of valves and valve stems may be dictated by circulating water conditions FILL CIeanfillis key to the continued efficient operation and performance of a cooling tower The owner operator must keep the circulating water clean by treatment screening or filtering to avoid the presence of trash and debris algae slime and scale with the effects of scale often being worsened by the presence of suspended muds All of these can be controlled with some combination of water treatment screening and filtration and it is the owner s responsibility to institute a program of water treatment and maintenance that will minimize their impact See Water Treatment on page 18 TOWER FRAMEWORK Inspect for cracks and spalling and repair if necessary Keep bolts tight in the mechanical equipment supports Maintain a positive Langelier saturation index in your circulating water See Water Treatment on page 18 mM 15 16 DRIVE SHAFT Check drive shaft alignment and condition of couplings every six months See the Drive Shaft Service Manual for correcting misalignment balancing or replacing parts ELECTRIC MOTOR Lubricate and main
12. e tower is equipped with a bypass the bypass valve should be closed unless start up is in cold weather See Routine Starting Procedure on page 7 3 Primeandstartthe circulating water pumps one ata time Increase the flow of circulating water gradually to design water rate to avoid surges or water hammer which could damage the distribution piping 4 When flow has stabilized at or near the design rate adjust water makeup to maintain the level that the water has pumped down to in the cold water basin See COLD WATER COLLECTING BASIN on page 9 This should coincide reasonably with the recommended operating water level indicated on the Marley project drawings 5 Adjust flow control valves to equalize the hot water depth in the distribution basins Adjust deepest water level basins first Lock valves in desired position with the valve locking bar 6 Startthefan s Allow 30 minutes operating time to permit Geareducer oil to come up to operating temperature then check motor load with watt meter or take operating volt and ampere readings and calculate motor HP Refer to Marley Fan User Manual for instructions If it is necessary to pitch fans to pull correct contract horsepower measure results when circulating design water rate at design hot water temperature HP will change with air density LOCK OUT ALL ELECTRICAL SERVICE BEFORE ENTERING FAN AREA A Caution Routine Starting Procedure After periods of routine shutdown the following r
13. ean the tower and make any necessary repairs Apply protective coating as required to all metal parts Particular attention should be given to mechanical equipment supports drive shaft and drive shaft guards See Warning on page 17 regarding tower cleaning Visually inspect for concrete deterioration f ambient temperature is 0 32 F or below do not put cold water on tower MECHANICAL EQUIPMENT Shutdown for less than 3 months Each month drain water condensate from the lowest point ofthe Geareducer and its oil system Check oil level and add oil if necessary Operate Geareducer to recoat all interior surfaces with oil At start up drain water condensate and check oil level Add oil if necessary Refer to Geareducer Service Manual for maintenance and lubrication instructions Shutdown for 3 months or longer Ifthe motors have space heaters operate mechanical equipment one hour each month Space heaters should be energized anytime motor is not operating If the motors do not have space heaters operate mechanical equipment one hour each week At start up operate mechanical equipment one hour or until oil is warm then shut the equipment down Drain the oil and refill with new oil Refer to Geareducer Service Manual for instruction on changing oil Refer to Marley Downtime Instruction Manual for downtime of 6 months or longer ELECTRIC MOTORS Donotstart motor without determining that there will be no interference with f
14. estarting procedure should be followed 1 Start the circulating water pump s Increase the flow of circulating water gradually to design water rate to avoid surges or water hammer which could damage the distribution piping Circulating cold water over a tower in freezing weather will cause ice to form which may cause damage to the fill system Water should be bypassed until the heat load causes its temperature to rise above 21 C 70 F at which time it may be directed over the tower Also towers must not be operated with reduced water rate and or no heat load during freezing weather Ifa bypass is used DO NOT MODULATE 2 Start the fan s On multicell towers only as many fans should be started as are needed to produce the desired cold water temperature If the tower is equipped with two speed motors fans may be progressively started at half speed increasing to full speed as necessary to maintain the desired cold water temperature See Temperature Control and Energy Management on page 13 A Caution Operation TOWER PERFORMANCE The following is intended to serve as a guideline for the operation of this crossflow mechanical draft cooling tower The owner may use this information to develop preliminary operating procedures As operational experience with the system accumulates more definitive responses to specific conditions will be developed by the owner s operating personnel Keep the tower clean and the water distribution u
15. for unusual noise or vibration Inspect keys keyways and set screws Make sure vents are open Lubricate grease Check oil seals Check operating oil level Check static oil level Check oil for water and sludge Change oil Check fan blade tip clearance Check water level Check for leakage Inspect general condition Tighten loose bolts Clean Repaint Rebalance Completely open and close Inspect repair for safe use Inspect and repair before each use Stairs Ladders Walkway Doors Guardrails g 9 o 9 5 I o s 8 5 d g S od s 9955353 5 So BOR oco go 5 25 8 E S 5 52 9 gt S2s3uE 225gzgPg Osgg c Soe 7 SBE gt or O O 5 O gt a M M 51515158 S R S M D M M S S DID 5 6 5 5 6 5 6 5 6 5 65 5 S S S Y RIS RIRIRIRRIRISIRIRIRAR R R S Y Y Y R D daily W weekly M monthly Q quarterly S semi annually Y yearly R as required 24 Class 1000 Tower Cross Section CYLINDER aig Cl Nau ni Inspection Checklist Date Inspected Inspec
16. ing between half andfull speeds permita commensurately greater number of control cycles Variable frequency drives of course provide the ultimate in both temperature control and energy management and can be easily retrofitted to your system Please discuss this with your Marley representative N Caution Maintenance Well maintained equipment gives the best operating results and the least maintenance cost Marley recommends setting up a regular inspection schedule to insure effective safe operation of the cooling tower Use the schedule on page 23 to obtain continuously good performance with least tower maintenance See Inspection Checklist on page 26 Keep a continuous lubrication and maintenance record for each cooling tower Conduct regular inspection and repair of personnel safety items Table on page 23 and maintaining a record of this is especially important For a supply of check list forms contact your Marley sales office or representative HOT WATER DISTRIBUTION BASINS Metering orifices in the floor of the hot water basins may be cleaned without shutting down any part of the tower Remove dirt algae leaves etc which might get in these basins or orifices Do not rod out nozzles The plastic spray head could be permanently damaged The metering orifices must be kept in place to assure proper water distribution Completely open and close flow control valves at least semi annually to remove any scale on the threads Befor
17. lcium carbonate saturation index has proven to be an effective tool in predicting the aggressiveness of cooling tower water toward concrete The Langelier index relates the methyl orange alkalinity the calcium hardness the total solids the pH value and the temperature of the water From these values it is possible to calculate the index and N Caution predict the corrosive tendencies of the tower water toward concrete An explanation and method of calculating the Langelier index can be found in books on water treatment Maintaining a positive Langelier index provides excellent protection of concrete Slime a gelatinous organic growth and algae a green or brown plant growth may grow in the cooling tower or heat exchangers Their presence caninterfere with cooling efficiencies Proprietary compounds are available from water treating companies for the control of slime and or algae however compounds which contain copper are not recommended Chlorine if used should be introduced at a point in the circulating water system that will promote rapid dispersal and residual chlorine should not exceed that which is required to reasonably control slime and algae SCALING Scale can be caused by the uncontrolled presence of sulfates silicates carbonates or oxides and their effect can be accentuated by the presence of suspended muds Some suggestions and limitations follow Calcium sulfate may be introduced in the makeup water stream an
18. mination Public Health Service officials have recommended that good housekeeping procedures be followed such as regular inspections for concentrations of dirt scale and algae periodic flushing and cleaning and the following of a complete water treatment program including biocidal treatment Visual inspection should take place at least once a week during the operating season Periodic flushing and cleaning should be done at least twice a year Nozzles louvers drift eliminators and easily accessible fill surfaces should be flushed by use of a moderate pressure water nozzle being careful not to cause physical damage A reliable water treatment program should be installed and maintained 17 A Note A Note 18 Water Treatment BLOWDOWN Blowdown or bleed off is the continuous removal of a portion of the water from the circulating system It is used to prevent dissolved solids from concentrating to the point where they will form scale The amount of blowdown required depends upon the cooling range design hot water temperature minus design cold water temperature and the composition of the makeup water water added to the system to compensate for losses by blowdown evaporation and drift The following table shows the amount of blowdown percent of flow required to maintain different concentrations with various cooling ranges Number of Concentrations COOLINGRANGE 1 5X 2 5X 3 0X 4 0X 5 0X 3 C 5 4 F 0 844 0 26
19. niform to obtain continued maximum cooling capacity See Warning on page 15 Do not allow excessive deposits of scale or algae to build up on the fill or eliminators Keep the metering orifices free of debris to assure correct distribution and cooling of water The capacity of a tower to cool water to a given cold water temperature varies with the wet bulb temperature and the heat load on the tower As the wet bulb temperature drops the cold water temperature also drops However the cold water temperature does not drop as much as the wet bulb temperature Wet bulb temperature is the temperature indicated by the wet bulb thermometer of a sling or mechanically aspirated psychrometer A tower does not control the heat load For a given heat load the quantity of water circulated determines the cooling range The hot and cold water temperatures increase with higher heat loads Cooling range is the temperature difference between the hot water coming into the cooling tower and the cold water leaving the tower FAN DRIVE Air is caused to move through the tower by the operation of electric motor driven fans At full speed these fans are designed and pitched to move the amount of air required to accomplish the design thermal performance Proper utilization of these fans provides the operator a means by which to adjust the level of thermal performance to suit the requirements of the load See Temperature Control and Energy Management on page 13
20. p is occurring Excessive ice formation may be controlled by regulating air and water flow through the tower by one or more of the following procedures 1 Shutthe fan down This reduces the cooling rate to a minimum and increases the quantity of warm water on the louvers to a maximum Except for extreme cold conditions or extended freezing conditions this procedure will normally control ice formation For automatic operation a timer switch can be provided to shut the fan down for a few minutes each hour 2 If the tower has two speed motors operate the fan at half speed forward This reduces the cooling rate heat transfer and increases the quantity of warm water on the louvers 11 N Caution A Caution 12 3 Under extended extreme cold conditions it may be necessary to operate the fan in reverse This forces warm air out through the louvers melting any accumulated ice Reversal may be at either full or half speed however full speed is recommended if adequate heat load is available Reverse operation of the fan should only be used to control ice not prevent it Reverse fan operation should not exceed 15 to 20 minutes Usually much less time than this is required to melt accumulated ice Reverse operation of fans for prolonged periods during subfreezing weather can cause severe damage to fans and fan cylinders Ice can accumulate inside fan cylinders at fan blade plane of rotation and fan blade tips will eventually strike
21. re is the supply water temperature to the condenser and changes in the cold water temperature usually affect efficiency of the plant output Although the reduced cold water temperatures that result from maximum fan power utilization are usually beneficial to plant output the amount of fan power affects the cost of running the cooling tower As these variables interact on a cooling tower the operator must find the proper trade off between these opposing forces These instructions will assist in obtaining efficient long life from Marley cooling equipment Direct additional questions concerning tower operation and maintenance to your Marley sales office or representative Always include your tower serial number when writing for information or ordering parts Look for this number on the nameplate located on the tower access door A Caution A Note Before Start up SAFETY Temporary safety barricades should be placed around any exposed openings in the operating or nonoperating tower safety harnesses should be worn by personnel where appropriate and other safety precautions should be taken in compliance with OSHA regulations and standards CLEANING Remove any dirt and trash which has accumulated in the hot water distribution basins Clean any nozzles that are clogged Remove any sediment from the cold water basin sump and screens Use a water hose to flush cold water basins If youarerestarting or recommissioning a previously used
22. ree rotation of the fan drive Refer to Marley Electric Motor Service Manual If shutdown period is longer than seasonal contact your Marley sales office or representative for additional information Spare Parts and Accessories Marley manufactures and maintains a stock of replacement parts for all cooling tower mechanical equipment Shipment of these parts are normally made within ten days after an order is received If emergency service is necessary contact the local Marley sales office or representative for assistance Toprevent prolonged shutdown periods in case of damage to the mechanical equipment it is recommended that the following parts be carried in the owner s stock Onefan assembly One Geareducer assembly One drive shaft assembly One electric motor Be sure to furnish the tower serial number when ordering parts Marley has designed or will design at your request many accessories devoted to improved maintenance access safety component handling and the general customization of the tower to suit your process These accessories include stairways walkways external and internal mechanical equipment removal systems derricks davits hot water basin covers for algae suppression as well as variable frequency drives page 13 and other retrofittable control devices Please discuss your needs with your Marley representative 21 Troubleshooting Trouble Cause Remedy Motor Will Not Star
23. rial Yes O Diameter Blade Material Hub Material Acti ion Required Fixed Pitch L1 Adjustable Pitch L1 Number of Blades Hub Cover Material Blade Assembly Hardware Tip Clearance mi min Vibration Level max Fan Cylinder Height Mech Eqpt Support Mat l Oil Fill amp Drain Lines Oil Level Sight Glass Vibration Limit Switches Make up Valves Other Components Motor Manufacturer Name Plate Data HP F L Amps Last Lubrication Date Frame Grease Used Type Any Unusual Noise Any Unusual Vibration Anu Unusual Heat Build up No No RPM Yes Yes Yes Phase Hz S F Special Info Volts d Action Required d Action Required d Action Required 27 SERVICE SPX COOLING TECHNOLOGIES Health Alert Among other sources outbreaks of Legionnaires Disease have reportedly been traced to cooling towers Maintenance procedures that prevent amplification and dissemination of Legionella and other airborne bacteria should be formulated and implemented BEFORE systems are operated and continued regularly thereafter to avoid the risk of sickness or death The following is recommended QO Do NOT attempt any service unless the Q Drift eliminators should be inspected fan motor is locked out monthly Any debris or scale should be cleaned off the eliminators
24. sive clogging can lead to overflowing the distribution basins and possible ice damage to towers installed in freezing climates The basins should be frequently checked for orifice clogging until such time as the operational sequence of the Amertap system assures that no balls enter the cooling tower piping FILL Weater leaving the metering orifices is scattered uniformly over the fill plan area The water cascades through the fill to maximize water surface exposure to the air being moved by the fans DRIFT ELIMINATOR Air leaving the fill passes through drift eliminators blanketing the entire fill height of the tower The purpose of these drift eliminators is to minimize the amount of water that is caused to exit the tower by the velocity of the moving airstream and to direct the flow of air toward the fan COLD WATER COLLECTING BASIN The normal water depth in the concrete basin is approximately 1100 mm 43 inches below the curb top of bottom louver Adjust the makeup water supply to maintain this water level Low operating depths of the water require air baffles under the fill to prevent air bypass Maintain sufficient water depth to prevent cavitation Cold Weather Operation During periods of low ambient air temperatures 2 C to 4 C 35 F to 40 F or below itis advisable to maintain the cold water temperature at or above 21 C 70 F to retard the formation of ice and to assist in its control The methods used in MINIMIZING
25. t Power not available at motor terminals 1 Check power at starter Correct any bad connections between the control apparatus and the motor 2 Check starter contacts and control circuit Reset overloads close contacts reset tripped switches or replace failed control switches 3 If power is not on all leads at starter make sure overload and short circuit devices are in proper condition Wrong connections Check motor and control connections against wiring diagrams Low voltage Check nameplate voltage against power supply Check voltage at motor terminals Open circuit in motor winding Check stator windings for open circuits Motor or fan drive stuck Disconnect motor from load and check motor and Geareducer for cause of problem Rotor defective Look for broken bars or rings Unusual Motor Noise Motor running single phase Stop motor and attempt to start it Motor will not start if single phased Check wiring controls and motor Motor leads connected incorrectly Check motor connections against wiring diagram on motor Ball bearings Check lubrication Replace bad bearings Electrical unbalance Check voltages and currents of all three lines Correct if required Air gap not uniform Check and correct bracket fits or bearing Rotor unbalance Rebalance Cooling fan hitting guard Reinstall or replace fan Motor Runs Hot Wrong voltage or unbalanced voltage
26. tain each electric motor in accordance with the manufacturer s instructions If repair workis necessary contactthe nearest representative ofthe motor manufacturer See Warranty Section of Marley Service Manual on Electric Motors FAN Inspect fan blade surfaces every six months For detailed maintenance information refer to Marley Fan User Manual GEAREDUCER Make weekly and monthly oil checks Inspect internal parts during seasonal oil change Refer to the Geareducer Service Manual for detailed maintenance instructions COLD WATER COLLECTING BASIN Inspect collecting basin occasionally for cracks leaks and spalling and repair if necessary Maintain a positive Langelier index in your circulating water See Water Treatment on page 18 Keep cold water outlets clean and free of debris Makeup and circulating water controls must operate freely and maintain the desired water quantity in the system A Warning Cooling Tower Cleaning Any evaporative type cooling tower must be thoroughly cleaned on a regular basis to minimize the growth of bacteria including Legionella Pneumophilla to avoid the risk of sickness or death Service personnel must wear proper personal protective equipment Do NOT attempt any service unless the fan motor is locked out Operators of evaporative cooling equipment such as water cooling towers should follow maintenance programs which will reduce to an absolute minimum the opportunity for bacteriological conta
27. ted By Owner Location Owner s Tower Designation Tower Manufacturer Model No Serial No Process Served by Tower Operation Continuous O Intermittent C1 Seasonal 1 Design Conditions GPM HW F CW F WB F Number of Fan Cells Condition 1 Good 2 an eye 3 Needs immediate attention 1 213 Comments Structure Casing Material Structural Material Fan Deck Material Stairway Material Ladder Material Guardrails Material Interior Walkway Material Cold Water Basin Material Water Distribution System Distribution Basin Material Inlet Pipe Material Inlet Manifold Material Flow Control Valves Size In Nozzles Orifice Diameter inches Heat Transfer System Fill Drift Eliminators Louvers Use this space to list specific items needing attention 26 Inspection Checklist Condition 1 Good 2 Keep an eye it Mechanical Equipment Gear Drive Units Manufacturer Oil Level Full Oil Condition Good Oil Used Type Model Add Immediately Contains Water 3 Needs immediate attention 3 Comments Ratio Low check again soon 0 Contains Sludge Contains Metal O Seals Back Lash Fan Shaft End Play Any Unusual Noises No L1 Drive Shafts Manufacturer Fans Manufacturer Mate
28. this ring of ice damaging the fan blades or cylinder Ice can also accumulate on fan blades and be thrown off damaging fan cylinder or blades Reverse operation of fans with adjacent fans not operating increases probability of icing The low discharge velocity of moist air from fan cylinders in which fans are not in operation can result in moisture laden air being pulled into the adjacent cylinder in which the fan is operating in reverse increasing this ice buildups Therefore fans each side of the one operating in reverse must be operated in forward rotation at full or half speed or all fans must be operated in reverse Allow a minimum of 10 minute delay between reverse operation and forward operation during subfreezing weather to permit ice to dissipate from fan blades and fan cylinders 4 With no heat load on the circulating water icing cannot be controlled effectively by air control alone during freezing weather Towers must not be operated with reduced water rate and or no heat load during freezing weather If a bypass directly into the cold water basin is used all water must be bypassed Water flow over the tower must never be modulated during freezing weather Design of a bypass arrangement must include consideration of water impact effect on tower components See FAN DRIVE page 9 for fan speed change and reversing precautions INTERMITTENT OPERATION When the unit is operated intermittently during winter weather it is necessary th
29. tower see Warning on page 17 INSPECTION It is imperative that all operating assemblies be inspected before they are placed in operation The following is a list of components to be checked before starting the tower 1 Check the drive shaft alignment and realign if necessary Refer to the Marley Drive Shaft Service Manual for more information 2 Checkthetightness of bolts that attach mechanical equipment supports to the tower framing Check the tightness of bolts in fan cylinder joints and fan cylinder anchorage 3 Check concrete structural surfaces for spalling and cracks Consult a Marley structural engineer for evaluation and repair procedures 4 Check tightness of the following bolted joints in the fan and drive assemblies e Fan hub clamp bolts See Marley Fan User Manual for correct torque setting e Fan hub cover bolts Where applicable e Geareducer and motor mounting bolts e Drive shaft coupling and guard bolts e Refer to Marley Drawing 91 398 for mechanical equipment hold down fastener installation 5 Check the Geareducer oil for sludge or water by draining off and testing a sample as outlined in the Marley Geareducer Service Manual Check the Geareducer oil level at the oil level mark on the side of the case Add oil as required The oil level placard must be adjusted so that its full mark is at the same elevation as the full mark on the side of the Geareducer case Check oil lines to be sure there are no
30. ures at varying flow rates ranges and wet bulb temperatures MINIMIZING TOWER ENERGY USE Many processes gain no operating or production benefits from water temperatures below a certain level and for many that level may be only 5 C to 8 C 10 F to 15 F below the design cold water temperature When a reducing ambient wet bulb permits the tower to reach that target cold water temperature level further reductions inthe wet bulb temperature permit manipulation of fan speeds or operation to maintain that temperature level Single speed fans can be cycled on and off for cold water temperature control with the steps of control depending upon the number of fan cells in the tower Two speed motors offer twice as many control steps with the added bonus that half speed which produces half of the normal airflow through the tower requires less than 20 of the full speed power requirement Excessive cycling of motors causes overheating of the windings and ultimate failure of the motor The total amount of starting time period of high inrush current should not exceed 30 seconds per hour On 4 13 14 fans 6096 20 0 diameter and smaller this may allow 4 or 5 starts per hour On larger fans 1 or 2 starts per hour may be the limit Determine the number of seconds it takes your fan to getto full speed by observation and divide that number into 30 to obtain the recommended maximum number of starts per hour Two speed motors cycl
31. when noted New cooling towers should be cleaned Replace any damaged or worn out and treated with biocides by a water treatment expert before startup See components your Cooling Tower User Manual for Workers cleaning units should use more detailed instructions on biocidal protective clothing and equipment during treatment decontamination Ata minimum cooling towers should be Although using these practices will not cleaned and disinfected with biocides guarantee that a system or individual twice a year Systems with biofouling or component will not be contaminated by positive cultures of legionella may require legionella they should reduce the chance additional cleaning of colonization Units should be inspected weekly for For additional copies of the tower User bacterial growth and general operating Manual or other literature pertaining to conditions Bacterial growth should be this unit please contact your Marley reported to your water treatment expert sales representative for immediate attention SPX Cooling Technologies Balcke Hamon Dry Cooling Marley 7401 W 129 Street Overland Park KS USA 66213 1 913 664 7400 spxcooling ct spx com www spxcooling com Manual 99 1342
32. y Fan Noise Safety Loose fan hub cover Tighten hub cover fasteners Blade rubbing inside of fan cylinder Adjust cylinder to provide blade tip clearance Loose bolts in blade clamps Check and tighten if necessary The tower has been designed to provide a safe working environment while either operating or shut down The ultimate responsibility for safety rests with the Operator and Owner When flow to the tower is shut off or when portions of the tower require maintenance temporary safety barricades may be required around openings Other safety precautions such as safety harnesses should be utilized where appropriate for compliance with OSHA regulations and standards and good safety practices See Warning on page 17 Routine periodic maintenance must be performed on all personnel access and material handling accessories in accordance with the following schedule Inspect for General Condition Ladders Stairways Walkways Guardrails Covers Decks and Access Doors Davits Derricks Hoist Semi annually Semi annually Inspect and Repair for Safe Use Yearly Inspect and Repair Before Each Use As Required 23 Inspection and Maintenance Schedule General Recommendations More frequent inspection and maintenance may be desirable NOORA ON sige 13 14 15 16 17 18 19 19 20 Inspect for clogging Check
Download Pdf Manuals
Related Search