Current RVA User Manual
Contents
1. Steps 1 through 4 demonstrate how to apply the Cut Between Wells filter Step 3 explains how to select the wells and specify the data object to be sliced Steps 5 and 6 visualize the reservoir permeability field at low opacity Steps 7 and 8 visualize the permeability slice results from the Cut Between Wells filter 1 Click on UTE204 PERM in the Pipeline Browser 2 Filters Menu gt RVA Sub Menu Cut Between Wells 3 AChange Input Dialog window will appear containing options for Available Input Ports on the left and available data objects on the right For each Available Input Port we need to choose a data object a Available Input Ports gt Click Data Set On the right click on UTE204 PERM 26 RVA Release 2 5 2 09 10 2015 b Available Input Ports gt ClickWell One On the right click on the position object of UTE204 HISTO5 ardens Helia c Available Input Ports gt ClickWell Two On the right click on the position object of UTE204 HISTOT 27 RVA Release 2 5 2 09 10 2015 Hi Change Input Dialog L9 x Available Input Ports Select Well Two Bpwaset UTE204 HISTOS J Well One HE Position Well Two LF History E UTE204 HISTO7 Le Position LF History L UTE204 PERM x cae d Click OK 4 Properties Panel gt Properties Tab gt Click Apply 5 Click on UTE204 PERM in the Pipeline Browser Turn on its2. Properties Panel gt Display Tab gt Color gt Edit Color Map gt Color Scale Tab gt Choose Preset Button Blue to Red Rainbow gt OK gt Close The above instructions specify how to select a preset color map Blue to Red Rainbow for an object In this example inthe Properties Panel onthe Display Tab theEdit Color Map button was selected In the pop up window for that button the Choose Preset Button was selected This brought up another window on which the Blue to Red Rainbow preset color map was selected The Ok and Close buttons were selected to finalize this choice GETTING TO KNOW PARAVIEW RVA RVA is built on top of ParaView an open source visualization and analysis package The RVA plug in adds a suite of advanced data filters a global vertical scaling toolbar Global Z Scale and flow visualization capabilities relevant to reservoir analyses The ParaView Home Page provides information on the background and structure of ParaView and links to a range of ParaView resources There is an online users guide to ParaView another online help for the current stable ParaView release a tutorial for version 3 12 a group of more advance tutorials newsgroups and 13 RVA Release 2 5 2 09 10 2015 user groups for general ParaView use These resources do NOT cover RVA specific tutorials or issues This part of the User Manual discusses critical aspects of the generic ParaView structure and functi
3. M 12 Tips and Tricks for Loading UTCHEM Data wu eeseessesssssssesseesseessssstesecneesneeseeeseenteeseesseestesaeenteaneeseeateseenteaseeaseeass 12 RVA and Other Datasheet ee ee e aaas Buca attese hit vec bcn trug 13 RVA and Demonstration Data Sets eis essiee tente tentent ttt tent te nts ttt tn tent annann nunnat nnt 13 Font and Typographic Style Conventions Used in this Manual sees 13 Getting to Know ParavieW RV A actetuer ca da retro kk tela rta a suo a Rena c Eo heb Ra n Ra Ee Gd Da da da 13 Pipeline Brow is T 16 Visibility Eye COT atn titor ttr teg eto Aana Saad Kaaa tAE eter ken See ck bL nene aeg ec Lu SER Spend 16 Nasonis cm diate tial ida adds ol ate tla 16 Deleting OD ecc 16 Properties Panel reri perdu ipee i ore tiec m Pe rinse t pre ida iu E aKa De ape tA rv 16 PropertesTabotstuoxt teet eii Teenie ene e Na SU Mu ICT a MUN ec Nee 16 IDEUEVALCLM 16 Information Ta loe Ec 17 Standard ParaView Filters 5 ettet ede darent ete Deere bedeckt eec Beet tecto 17 eedem 18 Common SU lon E n Cm 18 RVA Release 2 5 2 09 10 2015 Data Analysis SUDMENU yc dei roter ite nie ea dente tre trente e pet eedem crank deiecta rea ete 19 Material Analysis Submenu isses te
4. 138832e 06 13866e 07 1484 v 1 7 Eat Color Map Rescale to Data Range TITEL n wm 13832e 06 138060 MM 2 7 Ske n oon 13887e406 139806607 U34 6 2 7 u wu 13887e 06 138676e 07 13t E 1 7 iim 15 1045 13887e 06 1396050 1484 18 2 7 Show abe axes 16 9866 138832e 06 13867 e 07 1486 n 3 6 Ste v os 1388270006 13967 40 16 16 3 6 Representaton Surface 18 9867 1 38832e 06 138677e 07 1484 v 3 7 x i z 19 9255 138877e 06 138677607 ds 16 3 7 Pont sae ao 20 10478 13887e 06 13887e 07 1435 E 3 5 Une width 10 y 1 n wes 1 38837e 06 138677e 07 M84 18 3 7 Ania as 2 os 13882e 06 138678e 07 1486 u 6 Edge Style B wm 138827606 138678607 1486 16 4 6 E nm u 138832e 06 138678e 07 1484 ni 4 7 Figure 5 17 Athreshold filter was used on the permeability values to create the above image on the left hand side The results ofthe threshold filter are displayed in the spreadsheet on the right hand side 1 Filter Menu gt Common Sub Menu Threshold 2 Properties Panel gt Properties Tab gt a Scalar Desired variable e g Mean of Phi b Lower Threshold Input desired lower threshold value e g 155 c Upper Threshold d Uncheck All Scalars e Click Apply 3 Properties Panel gt Display Tab gt Color gt Edit Color Map gt Color Input desired upper threshold value e g 255 Legend Tab gt check Show Color Legend Adjust the parameters as desired 4 Split the display by cl
5. Bl z z Wb GobalZ Scale x5 00000 Sy 2 Representatio it G x Q9 8 X Layout 1x CERO EROR Layout 2x_ Layout 3x Layout 4 X Layout 6 X Layout 7 X vaT S P Oil Recovery Cumuntive Ol Recovery OIL total Phase Cut Ol SURF total Properties 8x Attribute Mode X Axis Data Use Array Index From Y Axis Data Use Data Array Time Line Series Bj Variable Legend Name 7 Water Oil R B Water Oil R 7 Cumulative fl Cumulative 7 Total Produ ill Total Produ E Phase Cut Bi Phase Cut V Phase Cut Oil Bl Phase Cut Oil E Phase Cut M Phase Cut 7 Wellbore pr Wellbore pr es ii Row Data j 1200 2600 2800 3000 3200 2400 1600 1800 2000 2200 Time days 1000 1400 1 Set up a third viewing area Open a third viewing Layout tab by clicking on the icon located at the top of the viewing area A Layout 3 tab will open Select Line Chart View Inthe Pipeline Browser click on the History object of utex01 HIST02 Turn on its visibility by clicking on its eye icon All variables in the well history file will be plotted in the line chart as a time series 71 RVA Release 2 5 2 09 10 2015 3 To select variables to be plotted as time series go to Properties Panel gt Display Tab gt a Attribute Mode Row Data b X Axis
6. RVA Release 2 5 2 09 10 2015 RVA A Plugin to ParaView 3 14 for Improved Reservoir Visualization and Analysis USER MANUAL Version 2 5 2 September 2015 D Keefer B Storsved D Torridi J Duggirala Copyright 2015 University of Illinois at Urbana Champaign UIUC All Rights Reserved VE ILLINOIS STATE r GEOLOGICAL SURVEY PRAIRIE RESEARCH INSTITUTE 1 RVA Release 2 5 2 09 10 2015 CONTENTS P Nob M 5 Online TESOUTCES aane bite oit E Lettere Oct tec tuuc ue oed te cea I eU cesse SD EE ROLE 5 Acknowledgements ceret aecteeneeteettle tert tlc rnc dee Galante Erata Senat eoru esca ante elses 6 Reservoir Visualization and Analysis Software essit tentant tent tents ttn ttn tento 7 dau ls 7 RVA InstallatiOI iecit rh tere itti etia aa damien Eo Runs d supa URee TORRES 7 Structure of the User Manual n deRUSHO S UR etus teh d ER o ET el ERR c EE EMG 8 RVA Elta gir M 8 RVA YES 8 GIXserver Installation gud e ERU ici ug te die iste ER eR Ten fa Re ei ae 8 GTXServer Configuratio E 9 Loading an Isatis Data Set essere tarnen tttn tent tette ttn aas 10 Navigating satis File Structure isse ien tentent tante tnnt tent tantas toten tote tttn tas 11 RVA and UTCHEM PEL
7. 2 Properties Panel a b eu d gt Properties Tab gt Scalars gt Select desired variable e g Mean of Phi Lower Threshold gt Input desired value e g 17 Upper Threshold gt Input desired value e g 21 click Apply 3 Properties Panel gt Display Tab gt Color gt Edit Color Map gt Color Legend Tab gt checkShow Color Legend Adjust the parameters as desired You should be able to see an image resembling Figure 5 12 If this image is not drawing on your screen reference the tips to resetting the camera and viewing post processed data The IsoVolume Filter provides a slightly different rendering of the same data 39 RVA Release 2 5 2 09 10 2015 ESS HN See i gt gt rH me Ww IRGSEEBAK POSA Gy ieri etes formation o ax N Figure 5 15 A IsoVolume filter was used on the permeability values to create the above image on the right hand side For this image the same data set was opened in two camera views to demonstrate how the IsoVolume filter works 1 Filter Menu gt Alphabetical Sub Menu Iso Volume 2 Properties Panel gt Properties Tab gt a Scalars gt Select desired variable e g Mean of K b Lower Threshold gt Input desired value e g 155 c Upper Threshold gt Input desired value e g 255 d click Apply 3 Properties Panel gt Display Tab gt Color gt Edit Colo
8. 30 RVA Release 2 5 2 09 10 2015 To simultaneously adjust the vertical exaggeration of all objects in a viewing window use the new Global Z Scale tool You can input the particular scale factor you want or use the and buttons to incrementally adjust the scale NOTE New objects loaded in will NOT be automatically scaled To scale them to size simply reapply the global scale i e click in the box and hit enter Also the Global Z Scale will become the default vertical exaggeration and override vertical scaling in individual data objects How do add another viewing window to see a different view of my data Each viewing window can be subdivided and each new window can be set to be a different window type e g 3D View 2D View Spreadsheet View Any active viewing window can be split horizontally or vertically using the split window buttons that are located in the upper right hand corner of each view window Fig 1 4 Once the window is split a list of window types is provided Choose the desired window type The active viewing window is identified by a blue border The data objects that have been included in the active window are identified by black eye icons To add a data layer to the active window select the desired window then select the desired object s from the Pipeline Browser Fig 1 4 Split Horizontal Split Vertical Maximize Close How do make a data object transparent To change the opacity of
9. Color Legend Tab gt check Show Color Legend Adjust the parameters as desired IV Click Apply then Close 2 To view how phase concentrations change per time step we use the animation features in RVA a Animation View tab gt Mode Snap To TimeSteps b VCR Controls gt press Play This will cycle through the time steps In the Current Time Controls toolbar the current time will be 3300 at time step 31 How do compare distributions oil water gas and polymer in my SP simulation and save an animation This demo shows how to create a side by side comparison of aqueous and oleic phase concentrations and save an animation of the simulation Before completing this tutorial activate the Animation View tab by going to the View pull down menu Turn on the VCR Controls andCurrent Time Controls toolbars by going to View Toolbars Jil ParaView 3 14 1 64 bit RVA UIUC version File Edit View Sources Filters Jools Macros RVA Help Boe BY oec amp A E K 4d gt Di F Te s30 Jn E B gemens I rp Seem 0 KS RUA O0 6 G ESOTO F szsese E Pipeline Browser X Layout 1x DOD aE vame Properties Display Display ax View m V Visible Zoom To Data 7 Selectable 3 Color a V Interpolate Scalars Map Scalars Apply Texture None Animation View ax Color by Concentrationos_waTER gt Mode Snap To TimeSteps
10. connected cells by applying a Threshold filter to the output array from Step 1 Steps 5 through 8 visualize only the connected cells and an outline of the reservoir is added for context Fig X 1 Click on UTE204 PERM in the Pipeline Browser a Filters Menu gt RVA Sub Menu Connected Threshold b Properties Panel gt Properties Tab gt I Scalars 1 Permeability II Filter Mode Only Scalar 1 III Threshold Range 1 1 Left Box min 1500 2 Right Box max 3760 3 Result Array Name HighK Connectivity IV Click Apply 2 Click on ConnectedThreshold1 object in the Pipeline Browser Turn on its visibility by clicking on the eye icon 3 Properties Panel gt Display Tab gt a Color by HighK Connectivity b Color by gt Edit Color Map gt I Color Legend Tab gt check Show Color Legend II Click Apply III Click Close c Style gt Representation Surface with Edges 4 To extract only the connected cells from the Connected Threshold filter in Step 1 a Filters Menu gt Common Sub Menu Threshold b Properties Panel gt Properties Tab gt I Scalars HighK Connectivity II Lower Threshold 1 III Upper Threshold 20 IV Click Apply 5 Click on Threshold object in the Pipeline Browser Turn on its visibility by clicking on the eye icon 6 Properties Panel gt Display Tab gt a Color by HighK Connectivity b Color by gt Edit Color Map gt I Color Legend Ta
11. d Saturation02 Oi X Array Bin Count Component V Calculate Averages 10 o E Use Custom Bin Ranges Custom Bir Sea 58251953125 58251953125 0 35 1 Set up a second viewing area a Open a second viewing Layout tab by clicking on the icon located at the top of the viewing area A Layout 2 tab will open Select Bar Chart View b Click Split Horizontal button in the viewing area Select Bar Chart View 2 Click on the left 35 Bar Chart View Browser click on utex01 SATP Filters Menu Alphabetical submenu Histogram b Properties Panel Properties Tab In the Pipeline a I Select Input Array Saturation02 Oil II Bin Count 10 III CheckCalculate Averages IV Click Apply Menu gt View Settings gt General Chart Title Text TIME days Left Axis gt Title gt Axis Title gt Text Count Bottom Axis gt Title gt Axis Title gt Text Saturation Click Apply e Click OK 5 Click on the right a Edit Histogram of SP Oil Saturation at aa o Bar Chart View Filters Menu gt Alphabetical submenu gt Histogram b Properties Panel gt Properties Tab gt I Select Input Array Saturation02_Oil II Bin Count 10 III Check Calculate Averages IV Click Apply Edit Menu gt View Settings gt 68 RVA Release 2 5 2 09 10 2015 a General gt Chart Title gt T
12. inthe Pipeline Browser Turnon its visibility by clicking on the eye icon 2 Object Inspector gt Display Tab gt a Color gt Color by SP_Norm b Color gt Edit Color Map gt I Color Scale Tab gt Choose Preset gt choose appropriate color scale for variable gt Click OK II Color Legend Tab gt Check Show Color Legend III Click Apply c Style gt Representation Surface 47 RVA Release 2 5 2 09 10 2015 d Line Width 6 After completing this tutorial you will have 1 two Threshold filters delineating high and low permeability regions in the stratigraphic dataset Demo vts 2 two Glyph filters highlighting core porosity and core vertical permeability of the borehold data set Borehole Demo vtu and 3 visualized the density porosity values from the borehole data set Reservoir Fluid Flow Simulation Examples How do evaluate simulated oil migration relative to the structural partitioning of my reservoir model This tutorial details how to create streamlines of oleic phase flux data investigate frequency of permeability values and visualize oil flux with permeability connectivity in the reservoir model This tutorial uses sample data set EX20 Load all UTE204 HIST files UTE204 PERM and UTE204 PROF The first step splits the viewing area into a 3D viewing area and a Line Chart view Step 2 and 3 visualize the permeability field Steps 4 and 5 utilize the Histogram filter to investigate the f
13. three month resting period Phase I pre test water flush tracer injection post tracer water flush surfactant injection post surfactant water flush and a water extraction test Phase H pre test water flush tracer injection post tracer water flush water chloride injection surfactant injection post surfactant water flush tracer test post tracer flush and water extraction test Grid dimensions are 20x17x6 Total simulation time is 227 days 78
14. Browser click twice on the Threshold filter Rename it to LowPermeability_Threshold 1 Note The color scaling and legend are identical for LowPermeability_Threshold and HighPermeability_Threshold Load your borehole data set Borehole Demo vtu In this section we use a Glyph filter to visualize core vertical permeability values 1 Filter Menu gt Common Sub Menu Glyph 2 Properties Panel gt Properties Tab gt a Scalars Core_Kvert b Glyph Type 2D Glyph c 2D Glyph gt Glyph Type Triangle d 2D Glyph gt Check Filled e f g Scale Mode scalar Set Scale Factor Check Edit Set Scale Factor 0 4 h Click Apply 3 Properties Panel Display Tab a Color Color by Core Kvert b Color gt Edit Color Map gt I Color Scale Tab gt Choose Preset gt choose appropriate color scale for variable gt Click OK II Color Scale Tab gt uncheck Automatic Rescale to fit Data Range gt Rescale Range gt IntheSet Range pop up window set Minimum to 10 and Maximum to 250 gt Click Rescale III Click Apply c Style gt Surface with Edges d Transformation gt Translate 0 30 0 4 Inthe Pipeline Browser click twice on the Glyph filter Rename it to Kvert Glyph In the section below a second Glyph filter is used and applied to the borehole data set Borehole Demo vtu to visualize core porosity values 1 Click on the borehole
15. Examples esse entente tents tnnt tent tette tton 48 How do I evaluate simulated oil migration relative to the structural partitioning of my reservolr model cni taceo ipii t boc ded t re A c epe cca E a Feu cen de b eed nuc 48 How can I investigate the relationship between permeability and oil saturation in my 5 spot How do I see the concentration of oil water gas and or polymer change over time 56 How do I compare distributions oil water gas and polymer in my SP simulation and save an cantu 58 Working with UTCHEM Well Data in RVA sisse tren tnnt tn ttn ttn tent tentent ta tant toa 60 How do I compare UTCHEM simulations eis essee tentent tatnen ttn tnnt ttt ttn tnnt 66 How do I compare cumulative oil recovery and water to oil ratios between two simulations 69 How do I investigate the effect of injected surfactant on oil recovered ssss 71 How do I visualize fluid flow in my simulation csse trennt tentent 72 APPENDIX uomen MH 77 Descriptions of UTChem demo data sets essent tatnen tentent ttn ttt tent tete ttn tas 77 RVA Release 2 5 2 09 10 2015 ABOUT RVA Reservoir Visualization and Analysis was developed through financial support from the U S Department of Energy National Energy Technology Laboratory under contr
16. Grid dimensions are 19x19x3 Total simulation time is 551 days Reservoir properties include heterogeneous permeability and initial water saturation fields EX20 Sample dataset EX20 is a 3D water flood with 4 injection wells and 3 production wells The reservoir is a buried river channel with heterogeneous permeability and porosity Grid dimensions are 20x40x24 Total simulation time is 730 days EX50 Sample dataset EX50 is a pre SEAR tracer test at Hill Air Force Base There are 4 injection wells and 4 production wells Test sequence consists of an initial 99 day waiting period pre test water extraction pre test water flush tracer injection and a post tracer test water flush Grid dimensions are 20x17x6 Total simulation time is 106 5 days EX51 Sample dataset EX51 is a Phase 2 SEAR test at Hill Air Force Base There are 4 injection wells and 4 production wells The flooding sequence consists of water pre flush surfactant injection and a water drive Grid dimensions are 20x17x6 Total simulation time is 22 4 days 77 RVA Release 2 5 2 09 10 2015 EX52 Sample dataset EX52 is a SEAR process based on the Camp Lejeune field test There are two injection wells to model oil spillage two remediation injection wells and 24 remediation production wells Grid dimensions are 25x25x16 Total simulation time is 140 days EX53 Sample dataset EX53 is a Phase II SEAR test The flooding sequence consists of two phases separated by a
17. Menu gt Open submenu specifically including ArcGIS Shapefiles and Z MAP Plus formatted grid files In addition to these file types for which custom reader utilities were added ParaView is able to read a large suite of file types See the ParaView web site for a more complete listing of the file types that ParaView can read RVA and Demonstration Data Sets Several demonstration project files are available for use with RVA All of the tutorials in this User Manual were made using demonstration data files that are available through the RVA web site http rva cs illinois edu Two files Strat2fields vts and BoreholeData vtu were created from an Isatis project and contain a 3 D reservoir model with porosity and permeability values and a suite of 5 wells with wireline log and sample data Several UTCHEM demonstration simulations are included with the demonstration data The correct file names will be listed in each tutorial within this User Manual to help the reader replicate the tutorial results Font and Typographic Style Conventions Used in this Manual This User Manual will use specific font and style notation to simplify instructions for completing specific tasks and when referring to parts of the RVA or ParaView interface All instructions and interface names will use the Courier New font Instructions for carrying out any procedure will use a carrot notation gt to specify the flow of user interface choices For example
18. by Permeability a Edges 2 Filter Menu gt Common Sub Menu Threshold 3 Properties Panel gt Properties Tab gt a Scalars Permeability b Lower Threshold 220 c Upper Threshold Default value d Click Apply 4 Properties Panel gt Display Tab gt a Color gt Color by Permeability b Color gt Edit Color Map gt I Color Scale Tab gt uncheck Automatic Rescale to fit Data Range II Color Scale Tab gt click Rescale Range gt IntheSet Range pop up window set Minimum to 0 and Maximum to 250 gt click Rescale III Color Legend Tab gt check Show Color Legend IV Click Apply c Style Representation Surface with Edges d Line width 2 0 e Opacity 0 15 5 Inthe Pipeline Browser click twice on the Threshold filter Rename it to HighPermeability Threshold In this section a second Threshold filter will be applied to the original data set to isolate regions of low permeability 1 Click on the your data set Demo vts inthe Pipeline Browser 2 Filter Menu gt Common Sub Menu Threshold 3 Properties Panel Properties Tab a Scalars Permeability b Lower Threshold Default value Cc Upper Threshold 90 d Click Apply 4 Properties Panel gt Display Tab gt a Color Color by Permeability b Style Representation Surface with Edges c Line width 1 0 d Opacity 0 10 45 RVA Release 2 5 2 09 10 2015 5 Inthe Pipeline
19. can be used to move the animation to a specific time step Bile Edit Vew Sources fitters Jools Macros RVA Help SESS oes MALS 4 M 4 P DAS w nE De E aoao r a EE EE 8 2 E s ENGG ESCco 90 CIE gp E Pipeline Browser x tayor six B buen e m BB x 2 eL Concentration02 OIL 03 0 4 0 4 GHEEVO 0 33 Properties Deplay Display ax F visible Zoom To Data J TZ Selectable 7 Color Z Interpoiate Scalers oe J sx Color by Bit T mode Snap To Timesteps Tme 390 Start Te c E era tme 3300 E e Frames banum Reece vo Det ange Time 000e 00 8 2506402 16508403 24756403 3 3008 40 Load the concentration file from EX01 utex01 CONCP Set the appropriate vertical exaggeration 5x using the Global Z Scale The first step is to select the oleic phase concentration and set the visualization parameters The second step details how to create an animation 1 Click on the concentration data file utex01 CONP in the Pipeline Browser Turn on its visibility by clicking on the eye icon 57 RVA Release 2 5 2 09 10 2015 Properties Panel gt Display Tab gt a Style gt Representation Surface With Edges b Color gt Color by Concentration02 OIL c Color gt Edit Color Map gt I Color Scale Tab gt uncheck Automatically Rescale to Fit Data Range II Color Scale Tab gt clickRescale Range 1 Minimum 0 33 2 Maximum 0 37 3 Click Rescale III
20. do not build off one another Connected Threshold Filter The Connected Threshold filter extracts cells that have cell scalars in a specified range and are connected to each other by edges or faces of cells Each connected group of cells is numbered in the output array Cells with cell scalars which fall out of the specified range are assigned a 0 in the output array Applying a Threshold filter after the Connected Threshold filter is useful to extract only the interconnected cells To begin this tutorial open and load UTE204 PERM 19 RVA Release 2 5 2 DILUTED d A ges jeem fmm dem Mem M te SES Pore MARFA Nae PHS ieee Se s como EET E CSG BScoc vo BGO merse vita 09 10 2015 HighK Connectivity 10 i i i 0 20 zi ll Wi Md biu z 2 55 25 9996G HighK Connectivity 10 ooo 0 20 This tutorial combines the Connected Threshold and Threshold filters to extract connected cells with high permeability which represents a buried river channel Step 1 details how to use the Connected Threshold filter to extract cells connected to each other and have permeability values greater than 1500 mD The cells with permeability values less than 1500 mD are assigned the scalar value 0 in the output array Steps 2 and 3 visualize the results from Step 1 BIB Step 4 demonstrates how to extract only the 20 RVA Release 2 5 2 09 10 2015
21. links for downloads are available there Software updates and downloads are available through github https github com shaffer1 RVA Contact Us rva support illinois edu RVA Release 2 5 2 09 10 2015 ACKNOWLEDGEMENTS RVA development was significantly benefitted by assistance from the following groups and individuals Geovariances France Department of Petroleum and Geosystems Engineering University of Texas at Austin RVA Release 2 5 2 09 10 2015 RESERVOIR VISUALIZATION AND ANALYSIS SOFTWARE Overview RVA was developed to provide an integrated data visualization and analysis environment to support management of oil and gas reservoirs particularly mature oil reservoirs being managed through tertiary recovery strategies known also as enhance oil recovery EOR strategies The RVA software is a plugin to ParaView an open source 3 D visualization and analysis software package The latest RVA build source code demonstration data sets and documentation are available free of charge from the project web site http rva cs illinois edu RVA is intended to open a range of data files frequently used by petroleum geologists and engineers involved with EOR projects and to provide a suite of tools and tutorials for analyzing these varied data sets Specific emphasis is placed on the development of novel tools for visualization and analysis of these complex data sets Currently the RVA plugin allows for reading and impo
22. of the more important aspects of the Pipeline Browser Visibility Eye Icon On loading data the visibility or eye icon next to the object in the Pipeline Browser turns from grey to black This indicates whether or not an object is rendered in the active window Clicking on the eye icon changes the icon from black to grey and correspondingly toggles the object from rendered to not rendered This eye icon is useful when multiple objects are available for viewing The behavior of the Eye Icon can vary when multiple display windows are used Use of multiple display windows will be covered later in the manual Renaming Objects Objects created can be renamed in the Pipeline Browser The objects by default are named alphanumerically with the name of the object followed by the creation number Double clicking on this name opens a text edit box where you can rename the object to be more informative Deleting Objects You can right click on an object for a list of actions to take on the object Clicking on Delete will remove the object from the Pipeline Browser Properties Panel The Properties Panel is where the various parameters of the active module within the visualization pipeline are displayed and controlled ParaView provides various methods to view data and are listed in the View Menu Properties Tab The Properties Tabofthe Properties Panel holds information on the filters and objects created in the Pipeline
23. tab on the properties plane The clip can also be reversed by checking the Inside Out check box onthe Properties Tab a Macro m Hep ee Ce GARR Rt o4 di DWE mo mers z Soe IRGAbRRAAK F0 G ESCTTT O DI eere som v poe BX minx 5 Permeability 257 44 Figure 5 6 A plane clip filter was used on the permeability values to create the above image on the right hand side For this image the same data set was opened in two camera views to demonstrate how the clip filter works 36 RVA Release 2 5 2 09 10 2015 Split the display by clicking Split Horizontal in the viewing area Click 3D View Create a camera link so the both viewing areas are synced Filter Menu gt Common Sub Menu Clip A WwW N F Properties Panel gt Properties Tab gt a Clip Type Plane b Click X Normal c Click Apply 5 Properties Panel gt Display Tab gt Color gt Edit Color Map gt Color Legend Tab gt checkShow Color Legend Adjust the parameters as desired You should be able to see an image resembling Figure 5 6 If this image is not drawing on your screen reference the tips to resetting the camera and viewing post processed data How do look at a single row column or layer within my model The Slice Filter A slice filter cuts and removes everything that is not in contact with the clipping plane ParaView provides a few clipping planes to apply to the data A plane a box and a sphere The slice ca
24. the RVA software either download and run the installation executable or download the zip folder with the plugin dlls and move those to the desired directory These files can be found on the Releases page at the RVA github site After installing ParaView and the RVA plugins launch ParaView In the Tools Menu select Manage Plugins In the popup window under the Remote Plugins table select Load New Navigate to the directory in which the RVA plugin was installed and select the first of the RVA dlls RVA_Core_Plugin Then under the Local Plugin table select Load New Navigate to the directory in 7 RVA Release 2 5 2 09 10 2015 which the RVA plugins were installed and select the same dll Repeat this process for each of the RVA dlls then close the Plugin Manager RVA v 2 5 2 has 5 dlls RVA_Core_Plugin RVA ISATIS Plugin RVA_UTChemReaders_Plugin ShapefileReader and ZMAPPlusReader As you successfully load the RVA dlls the banner at the top of the GUI will include RVA UIUC version 2 5 2 there will be an RVA menu in the menu bar and when an actionable data layer is loaded an RVA Submenu will appear in the Filters Menu Structure of the User Manual This User Manual has been designed to help RVA users interact with their data as quickly as possible Because RVA is a plugin to ParaView there are many menus and buttons that are part of the standard ParaView interface and are available through RVA However this manual will on
25. visibility by clicking the eye icon 6 Properties Panel gt Display Tab gt a Color by Permeability b Color by gt Edit Color Map gt I Color Legend Tab gt check Show Color Legend II ClickApply III ClickClose C Style gt Representation gt Surface with Edges d Style gt Opacity 0 2 7 Click on CutBetweenWells1 object in the Pipeline Browser Turn on its visibility by clicking the eye icon 8 Properties Panel gt Display Tab gt a Color by Permeability b Style gt Representation gt Surface with Edges You should be able to see an image resembling Figure X If this image is not drawing on your screen reference the tips to resetting the camera and viewing post processed data 28 RVA Release 2 5 2 09 10 2015 Sum Filter This tutorial demonstrates the use of the Sum filter to calculate total oil saturation in a reservoir To begin this tutorial open and load UTE204 SATP Steps 1 through 3 demonstrate how to apply the Sum filter to the data set The Sum filter calculates the sum of each array in the SATP data object The total saturation for each phase is calculated The results of the Sum filter can be viewed ina Spreadsheet View steps 4 and 5 BI ParaView 3 14 1 64 bit RVA UIUC version 252 eeusgecs Jj K K 4b D pi f we o E M e oe gt GG g oao 3o Wb GobalZ Scale 1 00000 meas umna a CIENIE B bute Sumi Attribute Feld Data Preci
26. well history files HIST the viewing area may automatically split into a 3D View anda Spreadsheet View If this happens close the Spreadsheet View by clicking on the Close button X in the top right corner of the spreadsheet To correctly set up the viewing area we need to begin with a single 3D View b Click Split Horizontal button in the viewing area Select Line Chart View c In the left side viewing area click Split Vertical button Select 3D View d Create a camera link between the two 3D viewing areas 2 Click on the top left 3D viewing area a Click on UTEX07 HISTO1 in the Pipeline Browser Turn on its visibility by clicking on the eye icon Repeat this step for all UTEX07 HIST files b Click on the concentration data file utex07 S ATP in the Pipeline Browser Turn on its visibility by clicking on the eye icon i Properties Panel Display Tab checkShow cube axes ii Properties Panel Display Tab Style Representation Outline 3 Click on the bottom left 3D viewing area Repeat Steps 2a b 4 Press and hold the Ctrl key and click on the UTEX07 PERM and UTEX07 SATP objects in the Pipeline Browser Both data objects will be highlighted simultaneously a Filters Menu Alphabetical Sub Menu Append Attributes b Properties Panel gt Properties Tab gt click Apply c The resulting data object will be named AppendAttributes1 A green arrow and an AppendAttributes1 object will appear after each of the objects a
27. were along the Y Normal option with multiple slices For this image the same data set was opened in two camera views to demonstrate how the slice filter works 1 Filter Menu gt Common Sub Menu Slice 2 Properties Panel gt Properties Tab gt a Slice Type Plane b Select Y Normal c Slice Offset Values gt click Delete All d Click New Range gt Inthe Add Range pop up window use the default values gt click OK e Click Apply 3 Properties Panel gt Display Tab gt Color gt Edit Color Map gt Color Legend Tab gt check Show Color Legend Adjust the parameters as desired 38 RVA Release 2 5 2 09 10 2015 You should be able to see an image resembling Figure 5 11 If this image is not drawing on your screen reference the tips to resetting the camera and viewing post processed data How do look at a specific range of my parameters The Threshold Filter and the IsoVolume Filter Both the threshold filter and the isovolume filter allow the user to look a specified range of values within their data set This allows the user to focus in on specific areas of interest NAR CK 04 db d bi ti 1 Figure 5 12 A threshold filter was used on the porosity values to create the above image on the right hand side For this image the same data set was opened in two camera views to demonstrate howthe threshold filter works Filter Menu Common Sub Menu Threshold
28. zmap files RVA and Isatis Data Isatis project data are managed in a hierarchical binary file structure The Isatis developer Geovariances has provided the SDK GTXserver to allow programmers access to the native Isatis file structure For RVA to read Isatis files therefore the GTXserver software needs to be installed and running Procedures describing the installation and use of GTXserver are provided below GTXserver Installation The Geovariances web site recommends working with GTXserver versions that are consistent with the Isatis version that created the files RVA Release 2 5 2 09 10 2015 Download and install the appropriate GTXserver zip file from http www geovariances com en spip php page GTXserver This release of RVA is based on GTXserver 2011 2 If you have difficulties with opening Isatis project files either consult the Geovariances web page or contact us for additional guidance GTXserver Configuration After downloading and extracting GTXserver navigate to the folder C GTXserver bin winnt to find the GTXserver application Create a shortcut for the application on your Desktop Open the Properties dialog box by right clicking on the shortcut and selecting Properties If you have saved GTXserver to your C drive then in the Properties dialog box set Target to C GTXserver bin winnt GTXserver exe multisession If you have saved GTXserver elsewhere on your machine set Target to the appropriate path The
29. 2 Te Position W Production Well Geometry Display f Variable E Cumulative Legend Name E Cumulative Time mn Total Produ Bl weter oiir Cumulative E Time E Total Produ 7 Water Oil R 7 Cumulative 7 Total Produ B Total Produ Phase Cut Phase Cut Phase Cut Oil Bl Phase Cut Oil Phase Cut Bl Phase Cut Wellbore pr Wellbore pr Choose Color _ A o Line Color Cumulative Oll Recovery T T 70 80 90 gt Properties Information Display Open a second viewing Layout tab by clicking on the icon in the top left of the viewing area Select Line Chart View Browser click the eye icon of History object of UTEX07 HISTO1 All variables in the well history file will be plotted in the line chart as a time series In the Pipeline To select a single variable go to Display Panel gt Display Tab gt Line Series gt a Check and then uncheck the first box next to the column title Variable This will clear the line chart of all line series b Check the box next to Cumulative Oil Recovery Edit Menu gt View Settings gt a General gt Chart Legend gt Location gt select inline Left Axis gt Title gt Text cubic ft Bottom Axis gt Title gt Text Time days Click Apply Bottom right b eu d e Click OK P
30. Browser All of the fields in the Properties Tab change the configuration of the objects The Apply button must be clicked each time there is change made to an object in the Properties Tab ParaView has the additional option of auto applying changes made to the Properties Tab To auto apply changes to the Properties Tab Edit Menu gt Settings gt General Settings gt Auto Accept check uncheck gt OK Display Tab Inthe Display Tab the following are useful functions for viewing data objects for better gt Zoom To Data This button centers all of the data objects that are turned on in the active viewing window 16 RVA Release 2 5 2 09 10 2015 gt Color by This field applies color to the data set according to the variable selected In the drop down a list of variables appear and you can then use any one of the variables to color the data set To see the list of variables corresponding to a given data object the Representation field details given below needs to be set to anything except Out line gt Edit Color Map This button opens a widget to adjust the color scales on the data The Choose Preset button inthe Color Scale tab shows a list of color schemes available with the data The checkbox for Use Logarithmic Scale sets colors using a log scale The Color Legend tab displays the legend for the current variable being used on the view port Set Ambient Color This drop down list can be used to set solid col
31. Data gt selectUse Data Array Time c Line Series gt I Check and then uncheck the first box next to the column title Variable This will clear the line chart of all line series II Check the boxes next to Cumulative Oil Recovery Phase Cut Oil OIL total and SURF total 4 Edit Menu gt View Settings gt a General gt Chart Title gt Text S P Oil Recovery Left Axis gt Title gt Axis Title gt Text Bottom Axis gt Title gt Axis Title gt Text Time days Click Apply Click OK aa 5 How do I visualize fluid flow in my simulation This demo shows how to add streamlines to velocity data printed in the PROF file Streamlines can be used to evaluate efficiency of injection and production wells rank water flood production scenarios identify preferential flow paths related to geologic structures and determine the reservoir volume associated with a given well in the reservoir This tutorial shows how to visualize fluid flow in the entire reservoir and about a single injection well Load all UTEX07 HIST files and UTEX07 PROF Set the appropriate vertical exaggeration 3x using the Global Z Scale When loading well history files HIST the viewing area may automatically split into a 3D View anda Spreadsheet View If this happens close the Spreadsheet View by clicking on the Close button X in the top right corner of the spreadsheet To correctly set up the viewing area we need to begin with a sin
32. Eat ja Rescate 2 307131 1 063738 063738 0 Styling 3 282567 2 127476 0 63738 0 _ 200 Opacit n iod In 4 258003 0 0 0 0 i Cube Axes 5150 5 233439 4 255127 0637807 0 5 7 show t 6 208875 5 3 14076 06281522 0 7 184311 18 102732 05707334 0 Dersity 8 159747 16 9 8004 0612525 0 so Momentum Magnitude Ss toner 9 135183 16 9 83943 0614964 0 Segnemneergv s 10 110 619 49 231051 0471532 0 04 44 ecarrr RP nacars d 5 10 15 20 25 30 4 Hn J r Probe Offset Extract different type of selections Figure 1 The ParaView User Interface from http paraview org Wiki ParaView Users Guide Introduction 14 RVA Release 2 5 2 09 10 2015 ParaView 3 14 1 64 bit File Edit View Sources Filters Tools Mac ox RvA He opp ee BRR I P D Pd Sh mel o tecent Me ET common i aak utar FICSG N Data Analysis E e v E Material Analysis Lo RVA Filters RVA Connected Threshold Statistics Connected Threshold With Custom Source Temporal Cut Between Wells Alphabetical i urExo2 HISTO1 urexo2 ursro2 Wa urexo2 ursros i urExoz HIsTO4 if urExoz HrsToS cai E e ConnectedThreshold1 Threshold3 View vivsbe V Selectable Figure 2 RVA User Interface Note the RVA menu filters Global Z Scale and the RVA UIUC with build version in the banner In ParaView there will always be one active view one active module or object within the v
33. Fit Data Range Permeability iii ii Color Scale Tab gt click Rescale Range 1 Minimum 0 2 Maximum 0 65 3 Click Rescale iii Color Legend Tab gt click Show Color Legend iv Click Apply v Click Close c Style gt Representation Surface with Edges 9 While still working in the top left viewing area click on the CutBetweenWells1 object in the Pipeline Browser Turn on its visibility by clicking on its eye icon 10 Properties Panel gt Display Tab gt a Color gt Color by Saturation02 OIL b Style gt Representation Surface c Style gt Opacity 0 30 11 Click on the bottom left 3D viewing area and then click on the Threshold1 object in the Pipeline Browser Turn on its visibility by clicking on its eye icon 12 Properties Panel gt Display Tab gt a Color gt Color by Permeability b Color gt Edit Color Map gt i Color Scale Tab gt uncheck Automatically Rescale to Fit Data Range ii Color Scale Tab gt click Rescale Range 834 2410 1 Minimum 2 Maximum 55 C RVA Release 2 5 2 09 10 2015 3 Click Rescale iii Color Legend Tab gt click Show Color Legend iv Click Apply v Click Close Style gt Representation Surface with Edges While still working in the bottom left viewing area click on the CutBetweenWells1 object in the Pipeline Browser Turn on its visibility
34. Layout 1X Layout 2x g IE mane Prag CIECIE Flux02_Oil_OLEIC Magnitude Connectivity i D05 sp ar or 32 Sa 30 0 05 1 Setupthe viewing areas a When loading well history files HIST the viewing area may automatically split intoa 3D ViewandaSpreadsheet View Ifthis happens close the Spreadsheet View by clicking on the Close button X in the top right corner 49 RVA Release 2 5 2 09 10 2015 of the spreadsheet See the Working With Wells tutorial for more information To correctly set up the viewing area we need to begin with a single 3D View b Click Split Horizontal button in the viewing area Select Line Chart View 2 Click on the left side 3D View and then click on UTE204 PERM in the Pipeline Browser Turn on its visibility by clicking on the eye icon 3 Properties Panel gt Display Tab gt a Style gt Representation Surface with Edges b Color gt Color by Permeability c Color gt Edit Color Map gt I Color Scale Tab gt clickRescale Data Range II Color Legend Tab gt click Show Color Legend III Click Apply IV Click Close 4 Click on the empty Line Chart on the right side viewing area and then click on UTE204 PERM inthe Pipeline Browser a Filters Menu gt Alphabetical Sub Menu gt Histogram b Properties Panel gt Properties Tab gt I Select Input Array Permeability II Bin Count 20 III Click Apply The histogram will be drawn auto
35. ParaView seen ttnntns 32 I applied a filter to my data set or object and now it is not visible in the view area How can I fix punire NINE 32 Exploring a geologic and reservoir models essere tttntnns 32 Geologic Model Examples op terret aero trien m rae ers rain ra niue trc ek daara nt Ente S dE adrienne 32 How do I apply a color ramp to my data seen tentent ttn ttn tente tte tton 32 How do I display contours or isosurfaces in my data sesenta 35 How do I create a cut away view of my model The clip filter ss 36 How do I look ata single row column or layer within my model The Slice Filter 37 Can look at multiple slic s 2 iate tere rtc DET oe eret nut avos 38 RVA Release 2 5 2 09 10 2015 How do I look ata specific range of my parameters The Threshold Filter and the IsoVolume lum 39 How do I display my data in a spreadsheet for the filter that I applied in RVA 41 How do I analyze modeled values in a spreadsheet when I used multiple filters 42 How do I model my borehole data using a glyph filter es 43 How do I explore the sweet zone of my reservoir with my core data and normalized SP logs 44 Reservoir Fluid Flow Simulation
36. SATISReader1 v Attribute PointData Precision 6 gt ple Number REZ ordinate READC ordinate READC ordinate READC Index READONI Index READONI Index READONI Mean of K Mean of Pt 0 1 1 38752e 06 1 38676e 07 1496 1 1 1 10 0514 13 5685 Fig 4 3 A dialog box opens when you Add Camera Link Now click on the window marked in red to establish a camera link between the two windows How do I take a screenshot of my creation in ParaView Navigate to File Menuinthe menu bar andselect Save Screenshot This opens a dialog box with the options to configure the output image file Click on OK after you make the changes of your choice save the picture and you have a copy of your creation l applied a filter to my data set or object and now it is not visible in the view area How can fix this gt Make sure the Eye Icon of your data object or filter is highlighted in the Pipeline Browser gt Ifyou are using multiple viewing windows make sure the correct view window is selected gt Click on the data object or filter that is missing from the viewing window and try Properties Panel Display Tab View Zoom to Data gt Update the vertical scaling in each image by clicking the and buttons in the Global Z Scale toolbar IntheCamera Controls Toolbar clickthe Reset button to reset the camera view EXPLORING A GEOLOGIC AND RESERVOIR MODELS Geologic Model Examples How do apply a color ramp to my data To shade
37. ST files Set the appropriate vertical exaggeration 3x Step 1 splits the viewing area into two horizontally stacked 3D View plots and oneLine Chart plot Steps 2 and 3 visualize well locations and an outline of the reservoir in both 3D viewing areas Step 4 demonstrates the use of the Append Attributes filter to group PERM and SATP into a single data object Step 5 creates a slice between well 1 and well 13 using the Cut Between Wells filter This diagonal slice intersects with injection wells 3 and 11 and production 53 RVA Release 2 5 2 09 10 2015 wells 1 7 and 13 Step 6 shows how to use the Threshold filter to extract only the high permeability regions of the inter well slice from step 5 Steps 7 10 visualize oil saturation in the top left viewing area Steps 7 and 8 visualize oil saturation in the high permeability selection from step 6 For reference oil saturation in the slice from step 5 is displayed at a low opacity steps 9 and 10 Steps 11 14 visualize permeability in the bottom left viewing area Steps 11 and 12 visualize the high permeability threshold and selection from step 6 For reference permeability in the slice from step 5 is displayed at a low opacity steps 13 and 14 In Step 15 the Plot Data filter is applied to the high permeability selection Step 16 demonstrates how to select data to be plotted inthe Line Chart Step 17 adds axes labels and title to the plot 1 Set up the viewing areas a When loading
38. TOEM Smuatons X07 Yrange s 2range 5 to 35 ela 30 Tee Indes Value Wreres Information Delay 60 RVA Release 2 5 2 09 10 2015 3 Inthe Pipeline Browser click on the eye icon of the History object of UTEX07 HIST01 This table contains the production well history data Total Production Water Oil Ratio Cumulative Oil Recover etc ee eee See oc e r AMANTEA Kaps we Balen J clem RGR FOGG USCcTTTOL4S rus nn Lar LL prom PEREEREEEEEREREERRREERRERREREELRERERE ERE ERE PEPEETUTEEREEEEEPEEEEEEEEEEEEGEGETE 3jPPRRPPPPREREIBSEOESISQISSIBEEG dPiitiPgldbiblibribiiibidbiibkldild 4 Inthe Pipeline Browser click on the eye icon of the History object of UTEXO07 HISTO3 This table contains the injection well history data Total Injection Total Injection Rate etc gt e EAP ag 8 83225 r2457006G T TOSSS nmi EAT E pe ee se ee eo oo oe so mm Pte onn 7 lel win PETE rome ea Type Die Ranges l B an tre tn namm IB es Mer GRIN E Tete pce tae PCM Ere tret teat eure tect feat oma E veto peso ck Meat mem nn Ir m om m um um wa wn ws am aim an p E E E am n LE m ca sun x on n sa LE uam umo ume Em ne saw m im waw an a as umm z EEBEEEEEEREEEREREEREREEERESERCERET EERE EE H 61 RVA Release 2 5 2 09 10 2015 Part 2 Visualizin
39. Time 3300 Start Time 0 End Time 3300 No Frames 10 Edit Color Rescale to Data Rang mep Time 000e 00 8 250e 02 1 650e 03 2 475e403 3 300e40 Slice V TimeKeeper Time Sice Direction XY Plane A F l Load the concentration file from EX01 utex01 CONCP Set the appropriate vertical exaggeration 5x using the Global Z Scale The first step is to split the viewing area and then link the two camera views The third 58 RVA Release 2 5 2 09 10 2015 and fourth steps select the aqueous and oleic concentration respectively and visualization parameters for each The fifth step details how to advance time steps create an animation with the dataset and save the animation as an avi file 1 Split the display by clicking Split Horizontal in the viewing area Click 3D View Create a camera link so both viewing areas are synced 3 Click on the left viewing panel Click on the concentration data file utex01 CONP in the Pipeline Browser Turn on its visibility by clicking on the eye icon Properties Panel gt Display Tab gt a Style gt Representation Surface With Edges b Color gt Color by Concentration01_WATER c Color gt Edit Color Map gt I Color Scale Tab gt uncheck Automatically Rescale to Fit Data Range II Color Scale Tab gt clickRescale Range 1 Minimum 0 64 2 Maximum 0 67 3 Click Rescale III Color Legend Tab gt check Show Color L
40. a volume model by the variations in a variable first select the variable 32 RVA Release 2 5 2 09 10 2015 Properties Panel gt Display Tab gt Color gt Color by Mean of K Second set the color ramp Properties Panel gt Display Tab gt Color gt Edit Color Map gt Choose Preset Blue to Red Rainbow Finally if you want a legend select and configure the legend Properties Panel gt Display Tab gt Color gt Edit Color Map gt Color Legend Tab gt checkShow Color Legend You should be able to see an image resembling Figure 5 1 If this image is not drawing on your screen reference the tips to resetting the camera and viewing post processed data WiFeriVen 1141 6 bi A A 2 peg oc SASS KA D tim II ECLT E aan idbkddk Elec uSco9 90 2o9 PI Pipeline Browser 1x B butin a ime Permeability 257 4395 200 a I 1100 a Edt Color Map Rescale to Data Range Note that many display parameters can be set using buttons or pulldown menus on the various menu bars within ParaView We will try to present methods that are not affected by configuration or customization of the User Interface The representation will be affected by the type of representation selected for the object in the active window The above image shows how a 3 D geologic model would be rendered if the 33 RVA Release 2 5 2 09 10 2015 representation was Surface Othe
41. act DE FE0005961 Additional funding was provided by the University of Illinois at Urbana Champaign through the Illinois State Geological Survey and by the U S Geological Survey under funding through the Great Lakes Geological Mapping Coalition a program within National Cooperative Geologic Mapping Program RVA is the result of a collaborative effort between the Illinois State Geological Survey at the Prairie Research Institute the Department of Computer Science and the National Center for Supercomputing Applications all at the University of Illinois at Urbana Champaign UIUC Project Geologists D Keefer lead and PI and J Damico co PI Software Development Team E Shaffer lead and co PI M Vanmoer B Storsved L Angrave D McWherter J Li R Reizner U Yadav and J Duggirala Technical Advisors Dr M Delshad UT Austin Dr S Frailey ISGS UI Urbana J Grube ISGS UI Urbana Dr H Leetaru ISGS UI Urbana Dr Y F Lin ISGS UI Urbana Dr E Mehnert ISGS UI Urbana Dr R Okwen ISGS UI Urbana Dr R Ritzi Wright State Univ S Whitaker Devon Energy RVA is covered by Copyright c University of Illinois at Urbana Champaign UIUC All rights reserved This software is distributed WITHOUT ANY WARRANTY without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE ONLINE RESOURCES The RVA web site is http rva cs illinois edu Project information image gallery and information and
42. ames def Fig 0 1 If the user does not have ISATIS this folder may not exist However the folder gets created once the connection between the machine that the server is running on and RVA is established see below e ee AppData Roaming Geovariances Isatis gt v gt Search Isatis p n library v Share with v Burn New folder v Hh Name Date modified Type Size Isatis Init 7 5 2011 10 55AM File folder DATA 6 30 2011 9 18 AM File 1 KB E read_write 8 15 2011 12 04PM_ Export Definition F 1 KB amp study names 8 11 2011 9 30 AM Export Definition F 1 KB Fig 0 1 study names file in the AppData Roaming Geovarianes Isatis folder 10 RVA Release 2 5 2 09 10 2015 Important GTXserver and Isatis MUST NOT BE RUNNING when you open this file or the changes you make will be overwritten Open study_names def by right clicking on the file and selecting Open with and then Notepad Modify the study_names def file to add Demo and RVA_Demo2 as shown in Fig 0 2 Save and close study_names def Note Users with an active Isatis license should find the study_names def file already contains the names of studies loaded in their system previously However it is possible that those studies may not be compatible with the GTXserver version you downloaded To make sure your GTXserver installation and configuration were successful add in the demonstration data set you downloaded ipi
43. an object you adjust the Opacity field between 0 and 1 with 1 being completely opaque and 0 being completely transparent Properties Panel gt Display Tab gt Style gt Opacity choosea value e g 0 5 How do show the axes for the data The axes are readily drawn for any data layer Properties Panel gt Display Tab gt Annotation gt Show Cube Axes checked unchecked The details of each axis can also be adjusted Properties Panel gt Display Tab gt Annotation gt Edit each axis can be adjusted as desired I ve added a second viewing window How do I make the objects in each window spin together ParaView has the useful option of linking two images in different view ports so that they can both be oriented in the same position at the same time When one image is rotated in one direction the other image with the camera link rotates in that direction too 31 RVA Release 2 5 2 09 10 2015 Tools Menu gt Add Camera Link This opens up a dialog box like the one in Fig 4 3 Click on the window that you want to link with the window that has the dialog box When you click on the other window a link is established Clicking on Zoom To Data might be necessary to focus both the objects correctly Now rotating one object in a certain direction also rotates the other object in that direction aos meme Atge meae Click on another view to link with Name Cameralink1 Cancel a B J B x Showing I
44. art 4 Visualizing Injection Well Data RVA Release 2 5 2 File Edit View Sources Filters Tools Macros RVA Help amp Rl 2 Solid Color Qum K 4 gt DD P 53 meo p GlobalZ Scale x3 00000 20354 20304 20254 20204 Layout 2 X 09 10 2015 Total Injection Rate T T 500 550 600 E History UTEX07 HISTOS INJ Position I Injection Well Geometry i UTEX07 HISTO4 He Position i Production Well Geometry Display zi m Variable 7 Cumulative Pore Vol Bl Cumulative E Time H Time 7 Total Injection Bl Total Inject 7 Total Injection Rate Total Injecti 7 Wellbore Pressure of J Wellbore Pr Wellbore Pressure of lJ Wellbore Pr E Wellbore Pressure of ll Wellbore Pr 7 vtkOriginallndices Bil vtkOriginal Legend Name Line Thickness Kim A Line Color Choose Color Properties Information Display Inthe Pipeline Browser unclick the eye icon of History object of UTEX07 HISTO01 Click the eye icon of History object of UTEX07 HIST03 All variables in the well history file will be plotted in the line chart as a time series To select a single variable go to Properties Panel gt Display Tab gt Line Series gt a Check and then uncheck the first box next to the column title Variable This will clear the line cha
45. b gt I Stream Tracer Box gt 1 Vectors Flux01_Water_AQUEOUS 2 Vector Interpolator Type Interpolator with Point Locator ntegration Direction BOTH 3 4 Integrator Type Range Kutta 4 5 5 Integration Step Unit Cell Length 6 Initial Step Length 0 2 7 8 9 Minimum Step Length 0 01 Maximum Step Length 0 5 Maximum Steps 2000 10 Maximum Streamline Length 361 11 Terminal Speed 1e 12 12 Maximum Error 1e 06 13 Uncheck Compute Vorticity II Seeds Box gt 1 Seed type Point Source 2 Check Show Point 75 RVA Release 2 5 2 09 10 2015 3 Point enter coordinates 256 5 256 5 20 4 Number of Points 200 5 Radius 50 III Click Apply 10 Click on StreamTracer2inthe Pipeline Browser a Properties Panel gt Display Tab gt I Color gt Color by Hlux01 Water AQUEOUS II Color Edit Color Map Color Legend Tab check Show Color Legend Adjust the parameters as desired III Style Representation Surface IV Style gt Opacity 0 5 b Filter Menu gt Common Sub Menu Glyph c Properties Panel gt Properties Tab gt I Vectors Flux01_Water_AQUEOUS II Glyph Type Arrow III Check Orient IV Scale Mode off V Set Scale factor 10 VI Maximum Number of Points 1000 VII Check Mask Points VIII Check Random Mode IX Click Apply 11 Click on Glyph2 in the Pipeline Browser a Properties Pan
46. b gt check Show Color Legend II Click Apply III Click Close c Style gt Representation Surface with Edges 7 Click on the ConnectedThreshold1 object in the Pipeline Browser 8 Properties Panel gt Display Tab gt a Style gt Representation Outline b Style gt Line Width 2 00 21 RVA Release 2 5 2 09 10 2015 You should be able to see an image resembling Figure X If this image is not drawing on your screen reference the tips to resetting the camera and viewing post processed data Connected Threshold with Custom Source The Connected Threshold with Custom Source filter acts similar to the Connected Threshold filter however the connections between cells begin at a selected Seed Point In this tutorial the connections will begin at a well To begin this tutorial open and load UTE204 PERM and UTE204 HISTO07 When loading well history files the viewing area will automatically split into a 3D View anda Spreadsheet View Close the Spreadsheet View by clicking the X icon in the top right corner of the Spreadsheet View viewing area For this tutorial we need to begin with a single 3D View Please see the Working with Wells tutorial for additional information This tutorial combines the Connected Threshold with Custom Source and Threshold filters to extract cells with permeability values greater than 1500 mD connected to each other and connected to a well Steps 1 through 4 de
47. by clicking on its eye icon a C Properties Panel Display Tab Color gt Color by Permeability Style gt Representation Surface with Edges Style gt Opacity 0 30 Click on the empty Line Chart in the viewing area and then click on the Threshold object in the Pipeline Browser a 13 14 b 15 b 16 a b eu d e 17 a b C d e f Filters Menu Alphabetical Sub Menu Plot Data Properties Panel Properties Tab Click Apply Properties Panel Display Tab Attribute Mode Cell Data X Axis Data gt cdickUse Data Array gt Permeability Line Series gt check Saturation02_Oil Uncheck all other variables Line Style None Marker Style Circle Edit Menu gt View Settings gt General gt Chart Title gt Text TIME days Left Axis gt Layout gt click Specify the Axis Range i Minimum 0 05 ii Maximum 0 65 Left Axis gt Title Saturation Bottom Axis gt Title gt Text Permeability mD Click Apply Click Ok To see how the oil saturation varies with permeability with respect to time use the Time Controls Toolbar to navigate time steps How do I see the concentration of oil water gas and or polymer change over time This demo shows how to visualize phase concentrations and demonstrates how RVA handles UTCHEM simulation time stepping Before completing this tutorial activate the Animat
48. d water to oil ratios between two simulations 1 Set up a third viewing area a Open a third viewing Layout tab by clicking on the icon located at the top of the viewing area A Layout 3 tab will open Select Line Chart View b Click Split Horizontal button in the viewing area Select Line Chart View 2 Click on the left Line Chart View 3 Inthe Pipeline Browser click on the History object of utex01 HISTO2 Turn on its visibility by clicking on its eye icon All variables in the well history file will be plotted in the line chart as a time series 4 To select a single variable to be plotted as a time series go to Properties Panel gt Display Tab gt a Attribute Mode Row Data b X Axis Data gt selectUse Data Array Time c Line Series gt I Check and then uncheck the first box next to the column title Variable This will clear the line chart of all line series II Check the box next to Cumulative Oil Recovery 69 RVA Release 2 5 2 09 10 2015 III Rename the line series by clicking on the Legend Name twice Change the name to S P flood d Line Style Solid 5 In the Pipeline Browser click on the History object of utex01b HISTO2 Turn on its visibility by clicking on its eye icon All vatiables in the well history file will be plotted in the line chart as a time series 6 To select a single variable to be plotted as a time series go to Properties Panel gt Display Tab gt a Attribute M
49. data set Borehole Demo vtu inthe Pipeline Browser 2 Filter Menu gt Common Sub Menu Glyph 3 Properties Panel gt Properties Tab gt a Scalars Core_Por b Glyph Type 2D Glyph 46 RVA Release 2 5 2 09 10 2015 c 2D Glyph gt Glyph Type Circle d 2D Glyph gt Check Filled e Scale Mode scalar f g Set Scale Factor Check Edit Set Scale Factor 2 0 h Click Apply 4 Properties Panel gt Display Tab gt a Color Color by Core Por b Color gt Edit Color Map gt I Color Scale Tab Choose Preset choose appropriate color scale for variable Click OK II Color Legend Tab Check Show Color Legend III Click Apply c Style gt Surface with Edges 5 Inthe Pipeline Browser click twice on the Glyph filter Rename it to Por Glyph Load your borehole data set Borehole Demo vtu a third time and set the appropriate vertical exaggeration 8x 1 Object Inspector gt Display Tab gt Color gt Color by dphi 2 Object Inspector gt Display Tab gt Color gt Edit Color Map Choose Preset a Preset Color Scales choose appropriate color scale for variable 3 Object Inspector gt Display Tab gt Style gt Representation Surface a Line Width 6 In this last section we visualize only the SP_Norm values in the borehold data set BoreholeData vtu 1 Click on the borehole data set BoreholeData vtu
50. e 2 5 2 09 10 2015 a When working with well files the viewing area may split into a 3D View anda Spreadsheet View If this happens close the Spreadsheet View by clicking on the Close button X in the top right corner of the spreadsheet To correctly set up the viewing area we need to begin with a single 3D View b Split the display by clicking Split Horizontal in the viewing area Click 3D View c Create a camera link between the two 3D viewing areas 2 Click on the left viewing panel Click on the saturation data file for the surfactant polymer flood utex01 SATP in the Pipeline Browser Turn on its visibility by clicking on the eye icon 3 Properties Panel gt Display Tab gt a Style gt Representation Surface With Edges b Color gt Color by Saturation02_Oil c Color gt Edit Color Map gt I Color Scale Tab gt uncheck Automatically Rescale to Fit Data Range II Color Scale Tab gt clickRescale to Temporal Range III A warning window will appear Click OK IV Color Legend Tab gt check Show Color Legend Adjust the patameters as desired V Color Legend Tab gt Title SP Oil Saturation VI Click Apply VII ClickClose 4 Click on the right viewing panel Click on the saturation data file for the polymer flood utex01b SATP in the Pipeline Browser Turn on its visibility by clicking on the eye icon 5 Properties Panel gt Display Tab gt a Style gt Representation Surfac
51. e With Edges b Color gt Color by Saturation02_Oil c Color gt Edit Color Map gt I Color Legend Tab gt check Show Color Legend Adjust the patameters as desired The color ramps in each 3D View should be synchronized II Color Legend Tab gt Title P Oil Saturation III Click Apply IV Click Close 6 To adda time stamp to both 3D Views a Source menu gt Annotate Time b Properties Panel gt Properties Tab gt I Format Time 2f days II Click Apply c In each 3D View turn on the AnnotateTimel object in the Pipeline Browser 7 Using the Time Controls Toolbar navigate to the last time step 3300 days Part 2 Comparing simulated oil saturation using histograms 67 RVA Release 2 5 2 09 10 2015 ra 64 bit RVA UIUC version 2 5 1 Ele Edit View Sources filters Jools Macros RVA Help pe BF oa AE 7 keria LA E Sold Color XU 4b P DD Dd C mese E h Gobalz Scale x5 00000 Pipeline Browser B buitin z D Butexoi sare 8 X Layout 1x Layout 2x E CIENCIES CHENENES 804 Histogram of SP Oil Sat at 3300 days Histogram of P Oil Sat at 3300 days Billion values E on vates HE utex01 HISTOL B utexo1 HIsTo2 Hu MB utexo1b HrsTo1 HED utexo tb HISTO2 E utexo1b sar gt kh Hstogramz D Bp AnnotateTime1 Information Properties Properties Display Select Input
52. e image on the left hand side The image on the right was created by applying a threshold filter to the slice filter The results of the threshold filter are displayed in the spreadsheet 1 The display will be split into three viewing areas a Click Split Vertical in the viewing area Click Spreadsheet View b To split the top viewing area click Split Horizontal Click3D View 2 Create a camera link between the top two viewing areas Filter Menu Common Sub Menu Slice Notethat the top right viewing area needs to be selected 4 Properties Panel gt Properties Tab gt a Slice Type Plane b Click X Normal c Slice Offset Values gt click Delete All d Click New Range gt Inthe Add Range pop up window use the default values gt click OK e Click Apply 5 Filter Menu Common Sub Menu Threshold Notethat the right viewing area needs to be selected 6 Properties Panel gt Properties Tab gt a Scalars gt Select desired variable e g Mean of K b Lower Threshold gt Input desired value e g 81 Cc Upper Threshold gt Input desired value e g 256 RVA Release 2 5 2 09 10 2015 d click Apply 7 Properties Panel gt Display Tab gt Color gt Edit Color Map gt Color Legend Tab gt checkShow Color Legend Adjust the parameters as desired 8 Spreadsheet gt a Showing Thresholdl b Attribute Point Data You should be able to see an image resembling Figure 5 18 If this ima
53. eed Points b Available position object of UTE204 HIST07 MI Change Input Dialog C9 jis Select Input UTE204 HISTO7 If Position History r Available Input Ports Input Seed Points Ill Change Input Dialog C9 jie Select Seed Points E UTE204 PERM UTE204 HISTO c Click OK Properties Panel gt Properties Tab gt a Filters Mode Only Scalar 2 Input Ports gt Click Seed Points On the right choose the 24 RVA Release 2 5 2 09 10 2015 b Scalars 2 Permeability c Threshold Range 2 1500 3760 d Result Array Name HighK Connectivity e Click Apply Click on ConnectedThresholdWithCustomSourcel object in the Pipeline Browser Turn on its visibility by clicking on the eye icon Properties Panel gt Display Tab gt a Color by HighK Connectivity b Color by gt Edit Color Map gt I Color Legend Tab gt check Show Color Legend II Click Apply III Click Close c Style gt Representation Surface with Edges To extract only the connected cells a Filters Menu gt Common Sub Menu Threshold b Properties Panel gt Properties Tab gt I Scalars HighK Connectivity II Lower Threshold 0 1 III Upper Threshold 1 IV Click Apply Click on Threshold1 object in the Pipeline Browser Turn on its visibility by clicking on the eye ico
54. egend Adjust the patameters as desired IV Click Apply then Close 4 Click on the right viewing panel Click on the concentration data file utex01 CONP in the Pipeline Browser Turn on its visibility by clicking on the eye icon Properties Panel gt Display Tab gt a Style gt Representation Surface With Edges b Color gt Color by Concentration02_OIL c Color gt Edit Color Map gt I Color Scale Tab gt uncheck Automatically Rescale to Fit Data Range II Color Scale Tab gt clickRescale Range 1 Minimum 0 33 2 Maximum 0 37 3 Click Rescale III Color Legend Tab gt check Show Color Legend Adjust the patameters as desired IV Click Apply then Close 5 To view how phase concentrations change per time step we use the animation features in RVA a Animation View tab gt Mode Snap To TimeSteps b VCR Controls gt press Play This will cycle through the time steps In the Current Time Controls toolbar the current time will be 3300 at time step 31 6 To save the animation a File gt Save Animation TheAnimation Settings Dialog box will appear b Animation Settings Dialog gt 59 RVA Release 2 5 2 09 10 2015 I Frame Rate fps 1 00 default II No of Frames timestep 1 default III click Save Animation Working with UTCHEM Well Data in RVA This tutorial shows how to use RVA s Well Reader and visualize UTCHEM well history data Sample data set EX07 is used in
55. el gt Display Tab gt I Style Representation Surface II Color Color by GlyphVector III Color Edit Color Map Color Legend Tab check Show Color Legend Adjust the parameters as desired 76 RVA Release 2 5 2 09 10 2015 APPENDIX Descriptions of UTChem demo data sets All UTChem demo data sets were simulated using UTChem v9 3 All time intervals for output files are written in days EX01 Sample dataset EX01 is a 3D surfactant polymer water flood with one injection well and one production well Grid dimensions are 11x11x2 The flooding sequence consists of a surfactant polymer slug plus tracer injection followed by a polymer injection Total simulation time is 3300 days EX01b Sample dataset EXO1b is a 3D polymer water flood with one injection well and one production well Grid dimensions are 11x11x2 Total simulation time is 3300 days EX07 Sample dataset EX07 is a 3D comprehensive ASP water flood consisting of 4 injection wells and 9 production wells in an inverted five spot well pattern Grid dimensions are 19x19x3 The ASP process was conducted in a 4 slug sequence pre flush polymer flood alkaline surfactant slug alkaline surfactant polymer slug and a polymer drive Total simulation time is 551 days Reservoir properties include heterogeneous permeability and initial water saturation fields EX08 Sample dataset EX08 is a 3D water flood with 4 injection wells and 9 production wells
56. er clips away a portion of the data set depending on the Clip Type selected in the Properties tab of the Properties Panel You have the choice of selecting a plane box sphere or scalar The Clip filter returns the portion of the data set that remains after the clip If the scalars option is chosen then you must select the scalar array by which to clip Clip then returns the set of those scalars that are larger than the clip Value Checking the Inside Out box will return the portion that has been clipped rather than the portion that remains after the clip 18 RVA Release 2 5 2 09 10 2015 Data Analysis Submenu These filters can be used to analyze data quantitatively They can plot data as graphs and histograms on different variables Material Analysis Submenu These filters are used for processing data of materials Statistics Submenu These filters provide descriptive statistics of data Temporal Submenu These filters can be used to analyze data that changes over time Alphabetical Submenu This option lists all the available filters in an alphabetical order The screenshots given at the end of this manual illustrate the use of some of these filters RVA Filters The following tutorials detail how to use RVA filters Connected Threshold Connected Threshold with Custom Source Sum and Cut Between Wells UTCHEM demo data set EX20 is used for all demonstrations These tutorials do not need to be completed in sequential order and
57. ext Histogram of P Oil Saturation at TIME days b Left Axis gt Title gt Axis Title gt Text Count c Bottom Axis gt Title gt Axis Title gt Text Saturation d Click Apply e Click OK Part 3 Comparing and Visualizing Well Recovery Data BAT 64 bit RVA UIUC version 251 E s s Mes dll eee File Edit View Sources Filters Jools Macros RVA Help eeuwuc e Vi m UN Kd 4d P DD D CX nme 5300 61 B Solid Color a K xt ps gt GG ESEO amp 9 3j Wh Globalzscale x5 00000 5 Pipeline Browser So X Layout ix Layouts2 X Layout 3x Layout 4x Layout 6x Layout 7x Taaa Beet DOW ERE EDGE OE bs Cumulative Oil Recovery Water Oil Ratio e Hir P Food aeos 3 0 354 SP Food Ef utexoib HIsTo2 m 3 e rmm di EH utexo1b saTP 7 La l z Display Information Properties 9253 Display ax Attribute Mode FjRowwsts 0 24 Dd g X Axis Data F 4000 z Use Array Index From Y Axis Data 7 Use Data Array Time m Line Series E Variable Legend Name 2 E Cumulative Wl Cumulative E Time B time Total Produ Bl Total Produ 7 Water Oil R Ill P Flood 7 Cumulative Bl Cumulative Total Produ M Total Produ 04 E Phase Cut a Phase Cut m 3000 j 0 X 2500 day How do compare cumulative oil recovery an
58. g All Wells dem FA ee T MARSR At MP PH cn wri EET TEETH EEREG ER EEERE REL EG EL EER EREEQE E i i i i H it ii id i FREE rE tw tote tut whet wt B i i i i I i i i i i i E E T 1 Set the appropriate vertical exaggeration 3x using the Global Z Scale Click on the 3D View on the left side of the viewing area Click on PERM in the Pipeline Browser Turn on its visibility by clicking on the eye icon Properties Panel Display Tab a Color Color by Permeability b Style gt Representation Surface With Edges c Style Opacity 020 Click on the Position object of UTEXO07 HISTO 1 in the Pipeline Browser Turn on its visibility by clicking on eye icon Properties Panel Display Tab a Color Color by Solid Color b Style gt Representation Surface With Edges c Style Line width 3 00 Repeat Steps 4 and 5 for the remaining well history files Part 3 Visualizing Production Well Data 62 RVA Release 2 5 2 09 10 2015 File Edit View Sources Filters Tools Macros RVA Help BEBSRS oc Z XU SG XC M DB wed o a de y Representation K xt t Gb 3G x 9 QD 9 9Os c wb GlobalZScale x300000 5 Layout amp 1x Layouts2X Layout 3x Pipeline Browser 8x EGRE as DEAK buitin gt f UTEXO7 HISTOL uj Position e Production Well Geometry E e UTEX07 HISTO
59. ge is not drawing on your screen reference the tips to resetting the camera and viewing post processed data How do model my borehole data using a glyph filter pege oae GMANBPE Rt I 4 DPS m B hm a JAskier FOS G Spree T cebu zscte a 00000 Peine Browser x umt dphi PAROVA 20 18 16 14 12 10 96977 Figure 5 19 A box type glyph filter was used on the SP_Norm values from a borehole dataset to create the above image To create this image open and load your data set BoreholeData vtu To display your data set reference the section on how to use a color shade on your data In this example the variable of interestis SP Norm The first step will apply a Glyph filter The second step sets the filter attributes The last step will draw a legend 1 Filter Menu gt Common Sub Menu Glyph 2 Properties Panel gt Properties Tab gt a Scalars Desired Variable e g SP_Norm b Glyph Type Box c Unheck Orient results in orient being turned off 43 RVA Release 2 5 2 09 10 2015 d Scale Mode Off e uncheck Mask Points results in turning off the mask points f click Apply 3 Properties Panel gt Display Tab gt Color gt Edit Color Map gt Color Legend Tab gt checkShow Color Legend Adjust the parameters as desired You should be able to see an image resembling Figures If this image is not drawing on your screen reference the tips to resetting
60. gle 3D View The first step visualizes the wells The second step renames the injection well history files The third step converts the velocity data in the PROF file into point centered data The fourth fifth and sixth steps detail how to use the Stream Tracer and Glyph filters to visualize aqueous flux data in the entire reservoir The seventh through eleventh steps detail how to find coordinates of a specific well and how to adjust parameters of the Stream Tracer and Glyph filters to visualize aqueous flux data about a single production well 1 Click on UTEXO07 HISTO1 in the Pipeline Browser Turn on its visibility by clicking on the eye icon Repeat this step for all UTEX07 HIST files 2 The injection well history files are UTEX07 HIST03 UTEX07 HIST06 UTEX07 HIST08 and UTEX07 HIST11 To rename these files a Click on UTEX07 HISTO3 in the Pipeline Browser b To rename the file click again A blinking text entry cursor will appear Note A rapid double click will collapse or close the sub pipeline Add INJ to the file name The revised name should be UTEX07 HIST03 INJ c Repeat this step for the remaining injection well history files by adding INJ to the end of the file names 72 RVA Release 2 5 2 3 Click on UTEX07 PROF in the Pipeline Browser a Filter Menu gt Al Data lphabetical Sub Menu 09 10 2015 Cell Data to Point b Properties Panel gt Properties Tab gt Click Appl
61. icking Split Horizontal in the viewing area Click Spreadsheet View 5 Spreadsheet gt a Showing Thresholdl b Attribute Point Data You should be able to see an image resembling Figure 5 17 If this image is not drawing on your screen reference the tips to resetting the camera and viewing post processed data 41 RVA Release 2 5 2 09 10 2015 How do analyze modeled values in a spreadsheet when I used multiple filters anomna moua o OO M O a E ese Fle Edt View Sources Fites Tools Macros RVA Help BESS Oc amp GWANRRA t HGP DB wo Wis trm z Ree JAsa skaak EGSA FAE D A care moon mte X amen a B butte A m TEATE A m mama EAT SP 200 T0 o E x Duas States peck Peter informata eter ex Moser T san Tr Lower rere ADC Indes READOM Indes HEADOM Index READON Mean ot K poe Tedd m perma 2 145 1 m 108 2m E u asies 2am m u usus 2m 2 192 T z a 6 118297 1 38762e 06 1 38675e 07 un 29172 1 B 222881 7 121597 138762e 06 1 38676e 07 Aga 291172 2 2 15126 inem 1308406 139060 UN zam 2 nass 2354 DX QeU 8 ues 138762606 1367e0 M imm i wan anes 13MM o mm 1998 l13997e0 an 2m 1 mm nao 1308e06 10 no ums 1308 LISTE iM iam 4 u su una 13 d 2 rms 1308e06 1398e0 N 2am 1 er PE LEen n Select Cells Through Figure 5 18 A slice filter was used on the permeability values to create the abov
62. ilter groups well geometries into a single object Turn on its visibility by clicking its eye icon in the Pipeline Browser 18 Properties Panel Display Tab a Style gt Representation Surface b Style Line width 2 0 52 RVA Release 2 5 2 09 10 2015 19 Continuing to work in the left 3D viewing area click on the Connected Threshold1 object in the Pipeline Browser Turn on its visibility by clicking on its eye icon 205 Properties Panel Display Tab a check Show cube axes b Style Representation Outline 2l Click on the Threshold1 object in the Pipeline Browser Turn on its visibility by clicking on its eye icon 22 Properties Panel gt Display Tab gt a Color gt Color by Solid Color b Style gt Representation Surface with Edges c Style gt Opacity 0 20 How can investigate the relationship between permeability and oil saturation in my 5 spot This tutorial demonstrates how to combine the Append Attributes Cut Between Wells and Threshold filters to investigate inter well reservoir properties and the relationship between high permeability and simulated oil saturation Demo dataset EX07 is used in this tutorial EE mJgB Jn x Permeability gt 1700 mD vs Oil Saturation 275 57 days Satuatior02 Oi 05 1700 1800 1900 2000 2100 2200 2300 2400 2500 Permeability mD Load UTEX07 PERM UTEX07 SATP and all UTEX07 HI
63. in the right 3D viewing area click on the ConnectedThreshold1 object in the Pipeline Browser Turn on its visibility by clicking on its eye icon 10 Properties Panel gt Display Tab gt a check Show cube axes b Style gt Representation Outline Lle Click on the Threshold1 object in the Pipeline Browser Turn on its visibility by clicking on its eye icon 12 Properties Panel gt Display Tab gt a Style gt Representation Surface with Edges b Color gt Color by Connectivity c Color gt Edit Color Map gt I Color Legend Tab gt click Show Color Legend II Color Scale Tab gt click Rescale to Data Range III Click Apply IV Click Close 13 Click on the left 3D view and then click on UTE204 PROF in the Pipeline Browser Turn on its visibility by clicking its eye icon a Filter Menu gt Alphabetical Sub Menu Cell Data to Point Data b Properties Panel gt Properties Tab gt Click Apply 14 Click on CellDatatoPointData1 in the Pipeline Browser a Filter Menu gt Common Sub Menu Stream Tracer b Properties Panel gt Properties Tab gt I Stream Tracer Box gt 1 Vectors Hux02 OLEIC AQUEOUS 2 Vector Interpolator Type Interpolator with Point Locator 3 Integration Direction BOTH 4 Integrator Type Range Kutta 4 5 5 Integration Step Unit Cell Length 6 7 8 Initial Step Length 02 Minimum Ste
64. ion Step Unit Length Range Kutta 4 5 Cell Length 0 2 0 01 ch Maximum Step Lengt Maximum Steps 10 11 ow 0 10Y0 amp W Maximum Stre Terminal Spe th 0 5 2000 amline Length 361 ed 1e 12 73 RVA Release 2 5 2 09 10 2015 12 Maximum Error 1e 06 13 Uncheck Compute Vorticity II Seeds Box gt 1 Seed type Point Source 2 Check Show Point 3 Point enter coordinates 180 5 180 5 20 4 Number of Points 3000 5 Radius 200 III Click Apply 5 Click on StreamTracerl inthe Pipeline Browser a Properties Panel gt Display Tab gt I Color gt Color by Flux01_Water_AQUEOUS II Color gt Edit Color Map gt Color Legend Tab gt check Show Color Legend Adjust the parameters as desired III Style gt Representation Surface IV Style gt Opacity 0 5 b Filter Menu gt Common Sub Menu Glyph Properties Panel gt Properties Tab gt I Vectors Flux01_Water_AQUEOUS II Glyph Type Arrow III Check Orient IV Scale Mode off V Set Scale factor 10 VI Maximum Number of Points 2000 VII Check Mask Points VIII Check Random Mode IX Click Apply 6 Click on Glyphl in the Pipeline Browser a Properties Panel Display Tab I Style Representation Surface II Color Color by GlyphVector III Color Edit Color Map Color Legend Tab check Show Color Legend Adjust the parameters as desi
65. ion View tab by going to the View pull down menu Turn on the VCR Controls andCurrent Time Controls toolbars by going to View Toolbars These features are used for playing animation and are highlighted in the figure below 56 RVA Release 2 5 2 09 10 2015 7 Help peuguocs B Qs E concentre waren zJ ROD eee Mohs kos Go QB Gobelzscae 5 00000 B X LlayuteiX VCR Controls and Current Time Controls Pe Tame m vame 0 0 66 0 e 0 3 0 6 Ke e e Proper es Display Display 8x View al F Visible Zoom To Data V Selectable 7 Color V Interpolate Scalars z Map Scalars Primation View zi Apply Texture None f Mode Time 0 Start Time 0 End Time 3300 No Frames 10 elg G concentratonds WATER x 1 Time 000e 00 8 250e 02 1 650e 03 2 475e403 3 300e40 Edit Color Map Rescale to Data Rang J Timek nm si Jm MM dp uexoi coNcP v Sice Drection Xr Pane Animation View Tab Slice M n A m J r The Animation View tab designates the playback mode VCR Controls are a simple set of VCR like animation controls for navigating through time history datasets Current Time Controls shows the current time information The text on the left gives the time value reported by the dataset The spin box on the right gives frame number or index of the current time step The spin box
66. is comprised of two demos The first demo shows how to create comparative time series plots of production well data Cumulative oil recovery and watet oil ratio between the simulations are compared The second demo focuses on the SP flood EX01 Time series of various production well data are plotted in order to investigate the effect of surfactant on oil recovered Load the well and saturation files from EX01 utex01 HISTO1 utex01 HIST02 utex01 SA TP and EXO1b utex01b HISTO1 utex01b HIST02 utex01b SATP Set the appropriate vertical exaggeration 5x using the Global Z Scale Part 1 Comparing Oil Saturation in 3D Views BErssviewSEATG4bt RVA UIUC version 251 File Edit View Sources Filters Tools Macros RVA Help of BB amp s EBD ELDER GE A 4d P UP D Eu ine 500 Du W soia cor R n EE TEE AAE 1 3 Global Z Scale x5 00000 Pipeline Browser S X layutsix tayuts2x B buitn 99 58 E5708 pann BeOS CENENE D ep uteos sar HD utexo1 HIsTo1 amp If utex01 HISTO2 HD utexo tb HIsTO1 HD utex01b HISTO2 e ATP e imel Information Properties Display Display 8x V Show Text F Interactive Text Property Font Size 18 G Font BE Let Align Opacity i0 Gc Text Postion Ls SP Oil Saturation Le 0 02 93 P Oil Saturation Lower Left Corner 0 1 02 0 3 Time 3300 00 days on0 o w y Time 3300 00 days 1 Setup the viewing areas 66 RVA Releas
67. isualization pipeline and one active selection The information displayed in any region of the User Interface always relates to these active entities ParaView Users Guide Within ParaView there are three basic steps to visualizing data reading the data into ParaView filtering or processing the data in some way and rendering or drawing some aspect of the data RVA as a plugin to ParaView is focused on simplifying the processes of reading data into ParaView and of filtering the data all with the goal of simplifying visualization and analysis of reservoir simulation results and thereby improving the management of mature oil fields ParaView takes these three steps and integrates them with an architecture called the visualization pipeline which allows a user to read in data and run the data through a sequence of processes or filters each of which provide a different view of the data ParaView has over one hundred different filters that can be used to manipulate various data types Since the filters are specific to the type of data processed not all filters work on all data sets When a filter is unavailable for an active data object it is greyed out in the menu 15 RVA Release 2 5 2 09 10 2015 Pipeline Browser The Pipeline Browser is where the visualization pipeline is recorded and controlled from ParaView Users Guide As such interaction with the Pipeline Browser is a critical component of RVA The following describes some
68. ly address key concepts in ParaView and critical parts of the ParaView interface Most of the manual will focus on using Paraview RVA to open visualize and analyze data associated with oil reservoir simulations Rather than work through an exhaustive discussion of the menus this manual has been structured in a tutorial based question and answer format This should allow the user to more quickly find solutions to problems or questions they want to address with RVA Users looking to expand their visualization and analytical capabilities within RVA are encouraged to explore the ParaView web site and to learn more about ParaView functionality RVA AND RESERVOIR DATA Reservoir visualization and analysis in ParaView RVA consists of three steps reading in data filtering relevant data and data rendering As with all visualization tools the first question one must answer is how to get your data into the visualization program It is often the case that reservoir modeling and simulation software produces output files in proprietary formats RVA has been developed to utilize the software development kit SDK GTXServer to access Isatis files directly Files from UTCHEM v 9 x ArcGIS shapefiles and Z Map Plus format grids can be identified and imported directly from the File menu without the use of an external SDK In this section we provide steps to import geologic models generated using Isatis simulation output files generated by UTCHEM shapefiles and
69. matically in the Line Chart c Edit Menu gt View Settings gt I General gt Title Permeability Histogram II Left Axis gt Title gt Text Frequency III Right Axis gt Title gt Text Permeability mD IV Click Apply V Click OK 5 A quick visual inspection concludes the reservoir model is heavily skewed to low permeability values Hover the mouse over the second frequency bar in the histogram This permeability value 846 mD will be used as input to the Connected Threshold filter in step 7 6 Set up the second viewing area a Open a second viewing Layout tab by clicking on the icon located at the top of the viewing area A Layout 2 tab will open Select 3D View b Click Split Horizontal button in the viewing area Select 3D View c Create a camera link between both views 7 Click on right 3D viewing area and then click on UTE204 PERM in the Pipeline Browser a Filter Menu gt RVA Sub Menu gt Connected Threshold b Properties Panel gt Properties Tab gt I Scalars 1 Permeability II Filter Mode Only Scalar 1 III Threshold Range 1 846 3760 IV Click Apply 8 Click on the ConnectedThreshold1 object in the Pipeline Browser a Filter Menu gt Common Sub Menu gt Threshold b Properties Panel gt Properties Tab gt 50 RVA Release 2 5 2 09 10 2015 I Scalars Connectivity II Lower Threshold 1 III Upper Threshold 32 IV Click Apply 9 Continuing to work
70. mation on the data objects including the Type Number of Cells Number of Points the Data Arrays Variable List the Extents and the Bounds The fields indicate the data structure used to represent the data the volume of interest and the number of samples present in the given data set Standard ParaView Filters As mentioned above ParaView has over one hundred filters for processing the information associated with active objects in the visualization pipeline These filters are accessed through the 17 RVA Release 2 5 2 09 10 2015 Filters Menu onthe MenuBar The filters are displayed under seven submenus Recent Common Data Analysis Material Analysis Statistics Temporal and Alphabetical ParaView RVA has an additional RVA submenu listing the RVA filters Recent Submenu The Recent submenu lists the 10 most recent filters used Common Submenu Common displays the filters that most ParaView users will use most commonly You can find shortcuts to these filters onthe Filters Toolbar Some ofthe common filters used are Glyphs This filter produces glyphs at each point in the selected data set Different shapes can be used for the glyphs like cone arrow line sphere or 2D glyph gt Threshold This filter extracts the subset of the data set whose scalars lie within the specified range The Lower Thresholdand Upper Threshold sliders indicate the range of scalars to retain in the data set Contour This filter calculates the Is
71. n Properties Panel gt Display Tab gt 10 a Color by HighK Connectivity b Color by gt Edit Color Map gt I Color Legend Tab gt check Show Color Legend II Click Apply III Click Close c Style gt Representation Surface with Edges Click on the ConnectedThresholdWithCustomSource1 object in the Pipeline Browser Properties Panel Display Tab a Style Representation Outline b Style Line Width 2 00 You should be able to see an image resembling Figure X If this image is not drawing on your screen reference the tips to resetting the camera and viewing post processed data 25 RVA Release 2 5 2 09 10 2015 Cut Between Wells Filter This tutorial demonstrates the use of the Cut Between Wells filter to extract and visualize a slice of permeability between two wells To begin this tutorial open and load UTE204 PERM UTE204 HIST05 and UTE204 HISTOT When loading well history files the viewing area will automatically split into a 3D View anda Spreadsheet View Close the Spreadsheet View by clicking the X icon in the top right corner of the Spreadsheet View viewing area For this tutorial we need to begin with a single 3D View Please see the Working with Wells tutorial for additional information fe ie per denm Pe De Mem ne St SS one MARPERt har DAE we m ot Remi Ka skkaak SO OG BHycoco e o QI sommen F Permeability 1000 2000 3000 le 5 3760
72. n be sized and oriented as desired in the properties tab on the properties plane Roh Mns A pee ocer AEIR R d 4 DDI meo LE B reeean z DI Masitauis peaG Permeability 57 44 200 Figure 5 10 A plane slice filter was used on the permeability values to create the above image on the right hand side The slice was applied along the Z Normal option For this image the same data set was opened in two camera views to demonstrate how the plane slice filter works 1 Filter Menu gt Common Sub Menu Slice 2 Properties Panel gt Properties Tab gt a Slice Type Plane 37 RVA Release 2 5 2 09 10 2015 b Select Z Normal c Click Apply 3 Properties Panel gt Display Tab gt Color gt Edit Color Map gt Color Legend Tab gt checkShow Color Legend Adjust the parameters as desired You should be able to see an image resembling Figure 5 10 If this image is not drawing on your screen reference the tips to resetting the camera and viewing post processed data Can I look at multiple slices The Slice offset values section of the slice filter can be used to create multiple slices Fie Edt Mes Sources filters Took Macros MA Help Cb SF Oe QANRA t I4 i tS me Di ge sese ao Bake EEE BS9 69999t 95 cuum ae Layout 1 Permeability 257 44 Figure 5 12 A plane slice filter was used on the permeability values to create the above image on the right hand side The slices for this example
73. nta aien aiaa i 19 Statistics SUBMENU wise cater Deu e o d vecta RO acne eee eee oe test p To ades ans 19 Temporal SUM CMU bec itana 19 Alphabetical Submenu iie eese Re MEN qu a eee ae 19 RV A PiUterS e E 19 Connected Threshold Filter reete adsa nte Rene idet Lat ai aaas 19 Connected Threshold with Custom Source testen tnn tton tton 22 Cut Between Wells Bite 2 0 22 32 320 Itc tse Tonto NERA 26 Surg ree ES 29 RVA Volumetrics Filter o eu I HR E E e ERE 29 Basic ParaView RVA Skills eiiis rien ttn tentent tnnt tent ta ttt tttn teta tents ttn ttn tento tst stn snas 30 How do I load my dataset sisse ai tents tanto tent tatto ttt ta tento tse as 30 How do I save my progress so I will pick up where I left off at a later time oes 30 How do I load a Saved State File eise tentent tette ttt ttn tent ta ttt tttn tns 30 How do I change the vertical exaggeration s seen ttn ttnn tentent tttnttas 30 How do I add another viewing window to see a different view of my data s 31 How do I make a data object transparent e esses tette tnn ttnn tentant tton 31 How do I show the axes for the data s isses tent tentant ttt ttn tents ttes stas 31 I ve added a second viewing window How do I make the objects in each window spin worden 31 How do I take a screenshot of my creation in
74. ode Row Data b X Axis Data gt select Use Data Array Time c Line Series gt I Check and then uncheck the first box next to the column title Variable This will clear the line chart of all line series II Check the box next to Cumulative Oil Recovery III Rename the line series by clicking on the Legend Name twice Change the name to P flood d Line Style gt Dashed 7 Edit Menu View Settings a General Chart Title Text Cumulative Oil Recovery b Left Axis gt Title gt Axis Title gt Text c Bottom Axis Title Axis Title Text Time days d Click Apply e Click OK 8 Click on the right Line Chart View 9 Inthe Pipeline Browser click on the History object of utex01 HISTO2 Turn on its visibility by clicking on its eye icon All variables in the well history file will be plotted in the line chart as a time series 10 To select a single variable go to Properties Panel gt Display Tab gt Line Series gt a Attribute Mode Row Data b X Axis Data gt selectUse Data Array Time c Line Series gt I Check and then uncheck the first box next to the column title Variable This will clear the line chart of all line series II Check the box next to Water Oil Ratio III Rename the line series by clicking on its Legend Name twice Change the name to S P flood d Line Style Solid 11 In the Pipeline Browser click on the History object of utex01b HISTO2 T
75. olines Isosurfaces of the selected point centered scalar array in the data set The available scalars are listed in the Contour by dropdown list To add a single contour value select the New Value field inthe Isosurfaces section of the Properties tab and type a new value To add several evenly spaced values first click on Delete A11 button which deletes the initial values present then click New Range and type in the values in the From To and Steps text boxes to specify the Contour values and the spacing interested If you would like to space the contours using a Logarithmic scale instead of a liner scale then check the Use Logarithmic Scale option in the dialog box and press OK to add the values or Cancel to not add them The Contour filter operates on any data set that has atleast one point centered scalar array The output is a polygonal mesh You can also check the Compute Normals Compute Gradients Compute Scalars and the corresponding computation is performed and the contours are Displayed accordingly gt Slice This filter extracts the portion of the data set along a plane The plane can be specified by using the interactive widget axes or by manually typing in the values in the Transformation box Using the Slice Offset Values you can also slice a portion of the data set using an offset from the original plane function The Offset Values can be added in a similar fashion by adding New Value New Range in the dialog box gt Clip This filt
76. onality The standard ParaView User Interface is shown in Figure 1 This figure highlights the modular nature and flexibility of the Paraview environment Of particular note the Pipeline Browser Properties Panel toolbars and varied view window types that are readily accessible Figure 2 provides a view of the RVA User Interface This figure shows the distinctive RVA menu containing RVA filters Global Z Scale and the banner text that contains the RVA UIUC reference and the build version pe Ww c g amp I4 4l i DI 5 rmv a B Qe essed I Caine J MP aaee aar Eeee a HEOBSBDBSBOSLZO Tice gr Se Pipeline Browser ax Layout 1 xX B builtin FEDS GS CE ER RE EC GE CER mj g jm x Histogram of Momentum 3 multicomb 0 vts e GroupDatasets1 5 8B multicomb 1 vts Pa GroupDatasets1 W on values eee 08 6 Histogram2 l PlotOverLine1 Properties Information Properties ax Apply Reset Delete Search G3 100 0 100 200 300 400 Properties GroupDatasets1 Owe Display StructuredGridRepresentation Showing Histogram2 jAttribute Row Data Precision Probe over line results Representation Outline z bin extents bin values Density total ensity averag T2 Coloring 0 356 259 6 3 83561 0 639268 0 solid color ai T i 3316955 0 0 0 0 show fn
77. option multisession must follow the pathname of the GTXserver executable When the target is properly specified click to save and apply these changes Target type Application Target location winnt Target C GTXserver bin winntNG TXserver exe multises Start in C GTXserver bin winnt Normal window Open File Location Change Icon Advanced Figure 1 Change the Target field to C GTXserver bin winnt GTXserver exe multisession click OK RVA Release 2 5 2 09 10 2015 Launch GTXserver by double clicking the shortcut that you created above GTXserver is now running and RVA is ready to read your ISATIS files Note The GTXserver by default connects to port 5500 If you would like to change the port it uses then use the port option in the Target field of the Properties dialog box port XXXX GTXserver MUST BE RUNNING on your system every time you want to access an Isatis file Loading an Isatis Data Set We provide example Isatis data for use in RVA Download the Isatis demonstration case studies from the RVA website Save the CaseStudies zip file and extract it to a convenient directory in your system Open the Start Menu and type APPDATAZ in the search field Click on the folder called Roaming Then navigate to the folder called Geovariances followed by the folder Isatis Within the Isatis folder you will be able to see a file called study n
78. or to the data using the colors provided by ParaView gt Show cube axes When checked this box displays the appropriately labeled axes for the selected object The Edit button allows for customization of the drawing options for each of the axes gt Representation This drop down list consists of different ways to draw an object To see the variables for the object you must set the Representation to anything except Outline The list of variables can be viewed through the dropdownlistin Color Color by Point Size Line Width Opacity Increasing or decreasing these values changes the appearance of the data accordingly gt Translate Scale Orientation Origin These fields in the Display tab transform the data based on the given input The data only changes when the values are typed into the boxes and then clicking the mouse away from the boxes i e losing focus from the boxes In most cases this operation needs to be followed by clicking on Zoom To Data to center the data correctly Unlike the Properties Tab there is no need to click the App1y button when fields are changed in theDisplay Tab Pressing the TAB button or selecting another field inthe Display Tab applies the changes that have been made Most of the above operations can also be done using the iconsinthe Representation andActive Variable Controls toolbars from the ParaView main window Information Tab The Information Tabinthe Properties Panel provides infor
79. p Length 0 01 Maximum Step Length 0 5 51 RVA Release 2 5 2 09 10 2015 9 Maximum Steps 2000 10 Maximum Streamline Length 1600 11 Terminal Speed 1e 12 12 Maximum Error 1e 06 13 Uncheck Compute Vorticity II Seeds Box 1 Seed type Point Source 2 Check Show Point 3 Point enter coordinates 242 800 242 4 Number of Points 1800 5 Radius 800 III Click Apply 15 While still working in the left 3D view click on Stream Tracer1 object in the Pipeline Browser Make sute its visibility is turned on 16 Properties Panel Display Tab a Style Representation Surface b Color Color by Flux02 Oil OLEIC c Color Edit Color Map I Color Scale Tab uncheckAutomatically Rescale to Fit Data Range II Color Scale Tab gt click Rescale Range gt 1 Minimum 0 2 Maximum 0 1 3 Click Rescale III Color Legend Tab gt click Show Color Legend IV Click Apply V Click Close TT Press and hold the Ctrl key and click on all of the Position objects linked to each UTE204 HIST objects in the Pipeline Browser Six Position objects should be selected highlighted simultaneously a Filters Menu Alphabetical Sub Menu Append Geometry b Properties Panel gt Properties Tab gt click Apply C The resulting data object will be named AppendGeometty1 A green arrow and an AppendGeometry1 object will appear after each Position object This f
80. ppended The AppendedAttributes1 object may automatically be visualized in one or both of the 3D viewing areas If this occurs turn off the object s visibility by clicking its eye icon in the Pipeline Browser 5 Click on any of the AppendAttributes1 objects in the Pipeline Browser a Filters Menu gt RVA Sub Menu gt Cut Between Wells 54 RVA Release 2 5 2 09 10 2015 b AChange Ports we need to select a data object i Click Data Set and then select the last AppendAttributes1 object Input Dialog window will appear For each of the Available Input ii Click Well One and then select the Position object under UTEX07 HIST1 iii Click Well Two and then select the Position object under UTEX07 HIST13 iv Click OK c Properties Panel gt Properties Tab gt click Apply 6 Click on the CutBetweenWells1 object in the Pipeline Browser a Filters Menu gt Common Sub Menu gt Threshold Filter b Properties Panel gt Properties Tab gt i Scalars ii Lower Threshold 1700 Upper Threshold 2410 iv Check All Scalars v Click Apply 7 Click on the top left 3D viewing area and then click on the Threshold object in the Pipeline Browser Turn on its visibility by clicking on its eye icon 8 Properties Panel gt Display Tab gt a Color gt Color by Saturation02 OIL b Color gt Edit Color Map gt i Color Scale Tab gt uncheck Automatically Rescale to
81. r Map gt Color Legend Tab gt checkShow Color Legend Adjust the parameters as desired You should be able to see an image resembling Figure 5 15 If this image is not drawing on your screen reference the tips to resetting the camera and viewing post processed data 40 RVA Release 2 5 2 09 10 2015 How do I display my data ina spreadsheet for the filter that I applied in RVA MI PareView 314 1 64 bit RVA UN File Edit View Sources filters Tools RVA Help mum Y a x 23 Pins e SF F GAL PRR 4 MD DDI mee I af e 4 4 z E Eas omm 1 arta WoskiluaknbecoaG Be oo vG0 9 Pom Gealse 10 0000 5 aree SX tex B bue Sox DESE D raes Showing Jwesol v Attribute Precision 6 Da CZ le Number RE zordnete READC sordnate READE zordinate READC Indes READOM Index READOM Index READON o sw 138800406 13980607 1483 n 1 5 1 10409 138837e 06 138676607 1488 18 1 5 2 wa 1388e 06 138676e 07 u38 1 5 7 487 3 wm 13880e 06 1300 0 u38 u 2 5 put 4 9 138832e 06 138676e 07 1456 uv 1 6 a 5 10410 138837e 06 138676e 07 1486 15 1 6 T vehe Zoom To Data 6 wu 13887e 06 1386760007 485 m 6 Vi secite 7 9832 138832606 138650407 u35 u 2 5 Cr V rterpate Scr s ss 13887e 06 13955407 186 16 1 5 vim 9 xm 13887e 06 1300507 86 1 g y tertre cim aw 13987e406 138060 UM 1 1 1 Corby o Meant zl 3 4 n yw
82. r data representations options and simple color renderings are shown below and clarify a range of options that can be used for a single data set Perse 3241648 AVA Q UIC verser LT o Fe EM Ven Somm es o Moos EA Hep eb SF oc e AE ARR Ri EK di b PAS we a e ee 7 ie M 3 a Fea ESCt TO FI omm MX acanx s Bose bes Permeability 257 4395 200 Permeability 257 4395 200 100 Points representation 34 RVA Release 2 5 2 09 10 2015 PCMPTEIICI I 00 0 0 0T E ech Tm ie We dnm fe Ra Mem RA fur BERS Oc e MANS 4 EP DAS me ie el ame JH Ltheaak FOSa BSCct vO Qa amem E poset T al Tos z Grew Permeability 257 4395 200 e nee JAND po Em Cot Map Rescse o Oota fume rower Sve Degreaser ene imeodse Goan eye sive A Wireframe representation How do I display contours or isosurfaces in my data M Paraden 3 142 64 da RVA Q UIUC foals 2012103101 7 File idt View Sources filter Tools Macros AVA Help PE BSS oc er MANPRR A KP PHS We a IC irs jE3utidui SoeG HOCUSVOESS S aurae i pose noume MX uesnx a pes OB Ox a Mire aa Mean of K 57 44 200 Dacis Statetcs repent Posetes infrmaben E 100 0 11 83 ce omnes est Cour Mm esci to Data Range Figure 5 5 A contour filter was used on the permeability values to create
83. red 74 RVA Release 2 5 2 09 10 2015 WE ParaView 3 14 1 64 bit RVA UIUC version 25 1 0 C TF 7A ER i cuj File Edit View Sources Filters Tools Macros RVA Help pE Roae BAN BER k X 4 P D DIG we Mh Oos fo ose JE SahRuan Feea FF A Qe m o Sz A C9 dh GobalZ Scale x3 00000 Pipeline Browser 8 X Layo GHE UTEXO7 HISTO7 EE UTEXO7 HISTOS INJ ee uTExoz HISTO9 FI ED UTEXOZ HISTIO 0 1 0 2 0 3 0 4 M B UTEXOZHIST11 IND TETTE REHETETE E EFE TET ERES ce f UTEXOZ HIST12 dM Bureuzeasrss i8 f UTEX07 PERM D EP UTE PROF e ermmm z EHE StreamTracer4 amh d EH StreamTracer1 omh Properties Display Display Annotation V Show cube axes Style Representation Outline Interpolation Gouraud Point size 2 00 F Line width 100 5 Visualizing Fluid Flow About a production well 7 Inthe Viewing Area click on the Layout tab to add a second Viewing Area Select Spreadsheet View In the Showing dropdown menu select UTEX07 HIST08 Position In the Attribute dropdown menu select Point Data This will display the well coordinates of UTEX07 HIST08 The second row coordinates 256 256 20 will be used in the next step 8 Inthe Pipeline Browser turn off visibility of Stream Tracer1 and Glyph1 from the previous steps 9 Click on CellDatatoPointDatal in the Pipeline Browser a Filter Menu gt Common Sub Menu Stream Tracer b Properties Panel gt Properties Ta
84. requency of permeability values in the reservoir model Step 6 sets up the second layout viewing area The Connected Threshold filter is used in step 7 on the high range permeability values found in the histogram from step 6 Step 8 applies the Threshold filter on the connectivity values found in the previous step filtering out only the connected and high permeability values While working in the right 3D viewing area steps 9 12 detail how to visualize the connected and thresholded permeability values from step 8 Step 13 demonstrates how to convert the velocity data in the PROF file into point centered data which will be used by the Stream Tracer filter in Step 14 Steps 14 through 16 demonstrate how to create and visualize streamlines of oleic phase flux data The AppendGeomet ry filter is used in Step 17 to group well geometries and set visualization parameters for all wells While working in the left 3D viewing area steps 19 through 22 details how to layer the connected and thresholded permeability object with the streamlines from step 14 48 RVA Release 2 5 2 09 10 2015 Layout 1X Layout 2x AMOS Deo EU Ey es Permeability Histogram Permeability 1000 2000 3000 170004 iniii Billion values 3760 160004 150004 140004 130004 120004 11000 100004 9000 Frequency 8000 7000 60004 10004 k 1054 04 7 0 500 1000 1500 2000 2500 3000 3500 Permeability mD
85. rt of all line series b Check the box next to Total Injection Rate Edit Menu gt View Settings gt a Left Axis gt Title gt Text cubic ft per day b click Apply c click OK Part 5 Renaming and Grouping Wells 64 RVA Release 2 5 2 09 10 2015 al Radghkask ooa CEEX 9 or sam T SA SPRUCH E RHE we aY 1 Open a third viewing Layout tab by clicking on the icon in the top left of the viewing area Select 3D View 2 The injection well history files are UTEX07 HIST03 UTEX07 HIST06 UTEX07 HIST08 and UTEX07 HIST11 To rename these files a Click on UTEX07 HIST03 in the Pipeline Browser b To rename the file click again A blinking text entry cursor will appear Note A rapid double click will collapse or close the sub pipeline Add INJ to the file name The revised name should be UTEX07 HIST03 INJ c Repeat this step for the remaining injection well history files by adding INJ to the end of the file names 3 Press and hold the Ctrl key then click on injection well history files in the Pipeline Browser a Filter Menu gt Alphabetical Sub Menu Append Geometry b Properties Panel Properties Tab Click Apply 4 Inthe Pipeline Browser click on AppendGeometry1 Click again and rename it to Injection Well Geometty 5 Properties Panel gt Display Tab gt a Color Color by Solid Color b Style gt Representation Surface With Edges Cc Style gt Line wid
86. rting of files associated with Isatis a leading geostatistical analysis and simulation software package Geovariances France UTCHEM the advanced multiphase multicomponent compositional variable temperature reservoir simulator the Center for Petroleum and Geosystems Engineering University of Texas at Austin ArcGIS shapefiles ESRI and grids in the Z MAP Plus mapping software format The Isatis functionality allows the user to access native Isatis project files via the GTXServer software development kit Information on GTXServer is provided below UTCHEM readers within the RVA plugin are for output files associated with version 9 x of UTCHEM RVA functionality builds on the functionality inherent in ParaView In addition RVA will provide additional functionality that is not available through the standard ParaView builds This RVA Users Manual will provide an overview of the ParaView concepts and tools that are critical for operating RVA It will also provide instruction on the use of custom RVA tools and guidance on the use of RVA for common data visualization and analysis problems associated with EOR field management Additional information on the use of ParaView can be obtained from the ParaView web pages http paraview org RVA Installation RVA currently runs on ParaView 3 14 1 for Microsoft Windows Current and previous stable versions of ParaView are available at the ParaView download page To install the current build of
87. sion 6 a Saturation l Water Sum Saturatiom 2 Oil Sum Saturation03 Surfactant Sum Cell Volume Sum 0 151499 421007 o 37481e 08 R ocete Properes informator beray Click on UTE204 SATP in the Pipeline Browser Filters Menu gt RVA Sub Menu Sum Properties Panel Properties Tab Click Apply Open a second Layout Tab by clicking on the icon located in the top right corner of the viewing area Select Spreadsheet View 5 Properties Panel gt Display Tab gt a Check Show data b Select Attributes to Show Field Data A Ww N He The value of total oil saturation is located in the first column 4210 07 RVA Volumetrics Filter To be completed 29 RVA Release 2 5 2 09 10 2015 Basic ParaView RVA Skills How do load my dataset Most datasets can be opened through the File Menu Open command File Menu Open choose a demo file Properties Panel Properties Tab Apply How do I save my progress so I will pick up where left off at a later time ParaView allows you to save a session to a State File This file contains the objects in the Pipeline Browser and the option and parameter settings for each object in any view windows It allows you to jump back to a specific analysis without having to manually record all of the parameter values 1 File Menu Save State a Save State File Choosealocation and name How do load a Saved State File To load a previo
88. tails how to use the Connected Threshold with Custom Source filter Step 3 shows how to specify the data set and seed point Step 4 demonstrates how to specify the range of permeability values The cells with permeability values less than 1500 mD ate assigned the scalar value 0 in the output array Steps 5 and 6 visualize the results from the Connected Threshold with Custom Source filter GIR Step 7 demonstrates how to extract only the connected cells by applying a Threshold filter to the output array Steps 8 through 11 visualizes only the connected cells and an outline of the reservoir is added for context BIB 1 fe be De dem Pe et Mem Dm SPESS Oe e MANSE AL KAP DAS a oe z wmm el KG th ak FCSG BSCoTTO Fem mmm HighK Connectivity ES FF EEE 0 Y x ul 22 RVA Release 2 5 2 09 10 2015 t Md J Gakkai FCSG HighK Connectivity e 5 NES 0 1 Click on UTE204 PERM inthe Pipeline Browser 2 Filters Menu gt RVA Sub Menu Connected Threshold with Custom Source 3 AChange Input Dialog window will appear containing options for Available Input Ports on the left and available data objects on the right For each Available Input Port we need to choose a data object a Available Input Ports gt Click Input Onthe right choose UTE204 PERM 23 RVA Release 2 5 2 09 10 2015 4 n Available Input Ports 9 Input S
89. th 7 0 d Edge Style gt Set Edge Color gt choose red gt click OK 6 Press and hold the Ctrl key then click on production well history files HISTO1 HISTO02 HIST04 HISTO05 HISTO7 HIST09 HIST10 HIST12 and HIST13 in the Pipeline Browser a Filter Menu gt Alphabetical Sub Menu Append Geometry b Properties Panel Properties Tab Click Apply 65 RVA Release 2 5 2 09 10 2015 7 Inthe Pipeline Browser click on AppendGeometry2 Click again and rename it to Production Well Geometry 8 Properties Panel gt Display Tab gt a Color Color by Solid Color b Style gt Representation Surface With Edges Cc Style gt Line width 3 0 d Edge Style gt Set Edge Color gt choose black gt click OK 9 Click on PERM in the Pipeline Browser Turn on its visibility by clicking on the eye icon 10 Properties Panel Display Tab a Color Color by Petmeability Style gt Representation Surface With Edges Cc Style gt Opacity 0 20 How do compare UTCHEM simulations This demo demonstrates how to compare simulations EX01 surfactant polymer flood and EX01b polymer flood are used in this tutorial This tutorial consists of three parts Part one details how to create a side by side comparison of oil saturation in a 3D View Part two shows how to compare histograms of oil saturation at the final time step of the simulations Part 5
90. the above image The contours that are displayed are between the range of 100 250 with a contour interval of 10 The contour filter can be used to create a single isosurface or a set of isosurfaces for a geologic model or reservoir simulation RVA Release 2 5 2 09 10 2015 1 Filter Menu gt Common Sub Menu Contour 2 Properties Panel gt Properties Tab gt a Contour gt Contour by choose a variable e g Mean of K b Contour gt check Compute Scalars c Contour gt check Compute Normals d Isosurfaces gt click Delete All e Isosurfaces gt click New Range gt Inthe Add Range pop up window Input desired range and desired steps e g From 100 To 250 Steps 4 gt click OK f click Apply 3 Properties Panel gt Display Tab gt Color gt Edit Color Map gt Color Legend Tab gt checkShow Color Legend Adjust the parameters as desired You should be able to see an image resembling Figure 5 5 If this image is not drawing on your screen reference the tips to resetting the camera and viewing post processed data How do I create a cut away view of my model The clip filter Aclip filter cuts and removes portions of an object allowing the remaining uncut portions to be rendered ParaView provides a few distinct clipping shapes to apply to data a plane a box a sphere and a scalar value of the variable used in the coloring of the object The clip can be sized and oriented as desired in the properties
91. the camera and viewing post processed data How do explore the sweet zone of my reservoir with my core data and normalized SP logs MI ParaView 3141 32st RVA UIUC build WX CK ADP DIS wes z oho 50 3 280 852 c4 3 1 EG G G Figure 22 Two data sets and a series of filters were applied to create the above image that allows for an analysis of the simulated sweet zone permeability structure together with petrophysical core analyses and normalized SP logs This tutorial begins to show the complexity that ParaView_RVA can handle This tutorial uses the low permeability rock to bound the view then highlights the connectivity within the high permeability zone Transparency and the surface with edges representations are used to view inside the model and help to view the structure of the sweet zone connectivity The core porosity data are shown as disks with their radius scaled to the porosity value and the permeability core data is shown as flat triangles again scaled to measured value The density porosity logs are shown as colored cylinders To create this image open and load your data set Demo vts Set the appropriate vertical exaggeration 8x using the Global Z Scale In the first section a Threshold filter will be used to isolate regions of high permeability 44 RVA Release 2 5 2 09 10 2015 Properties Panel gt Display Tab gt Style gt Representation Surface With b Color gt Color
92. this tutorial This tutorial has five parts Part 1 details how wells are represented in RVA and how to view well history data in the Spreadsheet View Part 2 demonstrates how to visualize well geometry with permeability Parts 3 and 4 demonstrate how to plot the timed well history data in line charts Part 5 shows how to rename wells and use the Append Geometry filter to group well geometry for quick visualization Load all well history files UTEX07 HISTO1 through UTEX07 HIST13 and UTEX07 PERM There are 9 production wells and 4 injection wells The injection well history files are UTEX07 HIST03 UTEX07 HIST06 UTEX07 HIST08 and UTEX07 HIST11 The remaining well history files are production wells Part 1 Well Representation in RVA In RVA a well file is represented by two data objects Position and History 1 When loading well history files the viewing area will automatically split into a 3D View on the left side anda Spreadsheet View on the right side Click on the Spreadsheet View on the right hand side of the viewing area 2 Inthe Pipeline Browser click on the eye icon of the Position object of UTEX07 HIST01 This is the well s geometry The points are well coordinates MI ParaView 3141 64 bit RVA UIUC version 252 peg oc MANS amp WG D gt DISS mec E o X ii 6G BSOS o Geuise ooo F ueanx Te ax Jp CORE wee Flename UTEXD MISTO1 Path uStorsved RAJUTOEM Doc xest oFU
93. to RVA The text box next to the Refresh button will tell you the status of the connection every time it is clicked Fig 0 2 The GTX Study field is a drop down list consisting of a list of studies that are populated by the connection to GTXserver Selecting a valid study in this field will allow you to select a directory in the GTX Directory drop down list populated by the connection to GTXserver Selecting a valid directory in this field will allow you to selecta fileinthe GTX File 11 RVA Release 2 5 2 09 10 2015 Name field It contains the list of files available in the directory chosen above Length Units can be used to view data scaled to the selected unit Once all the fields are instantiated click the Apply button to load the data Note Each time a new study file directory is chosen the Apply button needs to be clicked You have the additional option of Auto Applying option in RVA Navigate to Edit gt Settings check the Auto Accept box click Apply and then OK RVA and UTCHEM Data RVA v2 5 2 is compatible with UTCHEM v9 3 This version contains readers for several output files PROF HIST ALKP CONCP PRESP SATP VISC COMP OIL COMP ME and COMP AQ UTCHEM output files are in ASCII format allowing RVA to load these files directly through the Open command in the File Menu UTCHEM v9 3 demo data are available from the RVA project web site A zip file contains several different demonstration projects each with se
94. urn on its visibility by clicking on its eye icon All variables in the well history file will be plotted in the line chatt as a time series 12 To select a single variable to be plotted as a time series go to Properties Panel gt Display Tab gt 70 RVA Release 2 5 2 09 10 2015 Tos mhmoDaa Attribute Mode X Axis Data gt selectUse Data Array Time Row Data Line Series gt I Check and then uncheck the first box next to the column title Variable This will clear the line chart of all line series Check the box next to Water Oil Ratio Rename the line series by clicking on the Legend Name twice Change the name to P flood Line Style gt Dashed Edit Menu gt View Settings gt General gt Chart Title gt Text Water Oil Ratio Left Axis gt Layout gt Axis Layout gt LI II Minimum 0 III Maximum 10000 Left Axis gt Title gt Axis Title gt Text Fraction Bottom Axis gt Title gt Axis Title gt Text Time days Click Apply II III Select Specify the Axis Range Click OK How do I investigate the effect of injected surfactant on oil recovered Wa ParaView 3141 64 bit RVA UIUC verso 1 2 a 9 cns File Edit View Sources Filters ob BAe c EY sold Color E 9 fe 6 Pipeline Browser TCFNEFUUEXULTUSTUZ jutex0 tb HISTO1 Tools Macros RVA Help amp SX M x X D iE lt gt D D C mex
95. usly saved State File 1 File Menu Load State a Load State File gt Navigate toa Save State file from a previous session If the files and State File have been moved since the State File was last saved the path names will have changed The pop up window from the Load State File selection allows you to identify all of the data files used when the State File was last saved This option also allows you to apply a set of parameters to a different set of data files making a comparative analysis a bit easier How do change the vertical exaggeration Vertical exaggeration can be adjusted per data object or globally For a single data object the vertical exaggeration can be adjusted from the Display Tab To use the Display Tab to set the vertical exaggeration for a single object to 10x Display Tab gt Transformation gt Scale 1 1 10 This only works on one object at a time and generally does carry forward to new child objects If you set the vertical exaggeration for a geologic model to 10 then use a Threshold Filter on this model the Threshold Filter object is automatically set to 10 However if you subsequently change the original geologic model to 5 the Threshold Filter object is not updated automatically Also some filters do not inherit these scaling changes For example the Clip and Slice filters load with the default scale values regardless of vertical or horizontal change in scale of the parent filter or data object
96. veral output files Descriptions of UTCHEM demo datasets are located in the Appendix Cartesian and curvilinear 2D and 3D grids are supported One dimensional grids are not supported RVA supports the UTCHEM grid parameter combinations in the table below For further explanation of UTCHEM output files and grid specification please refer to the UTCHEM User s Guide and Technical Documentation at http www cpoe utexas edu q U TChem GI ICOORD IDXYZ 1 Cartesian coordinate system 0 Globally Constant 1 Cartesian 2 Globally Variable 4 Curvilinear grid 0 Globally Constant 1 Cartesian 2 Globally Variable Tips and Tricks for Loading UTCHEM Data To begin visualizing a UTCHEM v9 3 demo simulation open and load your data set The RVA file reader requires the UTCHEM input files be named INPUT and HEAD and not contain file extensions See the provided demo datasets for examples This current RVA release can read in aqueous phase and oleic phase flux data from the PROF output file Phase flux must be printed to the PROF file IVEL 1 otherwise the error No phase vel in PROF file VEL equals 0 will be returned The RVA file reader will load UTCHEM concentrations files which contain NaN s however an error message will appear stating NaN s were found 12 RVA Release 2 5 2 09 10 2015 RVA and Other Data ParaView RVA 2 5 2 is able to load other file types through the File
97. xi File Edit Format View Help root unix root windows pacien nane C CaseStudies Demo ogical name Demo REL Lit teh C CaseStudies RVA_Demo2 ogical name RVA_Demo2 from the RVA site Fig 0 2 Modified study names file to include the RVA case studies Demo and RVA Demo2 Navigating Isatis File Structure Start RVA Click on the RVA menu and select Import ISATIS Data The Isatis import button creates an object called ISATISReader1 displayed in the Pipeline Browser Next to the object cube you should see an icon that looks like an eye The icon at this time will be grey in color indicating that no data can be seen in the view port as yet The Properties tabinthe Properties Panel panelshows seven fields all of which can be customized as per the choice of you The GTX Server Port field will contain the port number that GTXserver is connected to If GTXserver is running locally then type localhost in the GTX Server Host field The Re resh button must be clicked every time an RVA object is created in ParaView or when the port or the hostis changed with the GTXserver connection Clicking on the Refresh button establishes a connection between the machine that the server is running on and RVA so that the list of studies available on that machine become available to the local machine If you are connected to a GTXserver running on the local machine then the studies available locally become available for reading in
98. y M01 ParaView 3 14 1 64 bit RVA UIUC version 25 1 J sie CL HK NE on x File Edit View Sources Filters Tools Macros RVA Help Be SGoa s AGIS KAP DID we o PREE x Meonitud v Surface JA 5 248151 a 44i JO O8 G amp e uw o A C9 Hb GiobalZ Scale x3 00000 Pipeline Browser Bx Layout 1 X Layout 2X amp NB UTEXO7 HISTO7 28 8 E08 CIENCIES E UTEXO7 HISTOS INJ p ureo Flux01_Water_AQUEOUS Magnitude HE UTEXO7 HIST10 iraran 01 02 03 04 E UTEXO7HIST12 3 l E UTEXO7 HIST13 0 z B uTexo7 PERM D EM BurExozPROF cellDatatoPointData3 EHD StreamTracer4 erm EB StreamTracer1 L 72 Properties Display Properties a ax et 98 Delete 2 V Orient Scale Mode off Set Scale Factor Maximum 10 Number of Points V Mask Points 2000 7 Random Mode Visualizing Fluid Flow In the Entire Reservoir 4 Click on CellDatatoPointDatal in the Pipeline Browser a I II III b Filter Menu Common Color by Solid Color Style Representation Check Show cube axes c Properties Panel I gt Propertie Box Stream Tracer 1 2 Vectors Vector In Sub Menu Properties Panel gt Display Tab gt Outline Stream Tracer s Tab gt Flux01_Water_AQUEOUS terpolator Type Interpolator with Point Locator Integration Direction BOTH Integrator Type Initial Step Leng Minimum Step Integrat
Download Pdf Manuals
Related Search