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PIPES++ USER MANUAL

1. For Help press F1 ERR Astri OS A Ay onatercon Sa Pipesppaz m ElmerosoreExcal user varua ao EEsmanppp P ME 11 05am Nodes A node is shown as a small circle on the network diagram It is an essential part of the network diagram and is used as follows e pipes are drawn from one node to another node e valves pumping stations and minor head losses are drawn between two nodes reservoirs and sprinklers are drawn touching one node To draw a node e select Node from the Draw Menu or click on the node button in the Toolbar e place the mouse cursor where you want the node e press and hold down the left mouse button e you can move the mouse to place the node precisely When the node is correctly located release the mouse button Hint To draw several nodes hold down the Shift key as you release the mouse button You will then be ready to draw another node immediately The procedures described here for drawing a node apply to the various other network components The use of the Shift key applies to nodes and pipes only Data for a node is optional You can specify the elevation at the node and you can specify details about demand from the node To enter data for the node point to it right click and select Edit Data from the pop up menu A dialog box will appear and you can enter data for elevation and demand details Demands from a node are allocated to one of ten are
2. have specified a fire demand of 11L s for area and 22L s for area 2 In this case the dominant area will be area 2 because 22 gt 11L s and the fire demand will be 22L s when PIPES simulates a fire at this node Consider another node that has residential demand only area 1 In this case the dominant area will be area 1 and the fire demand will be 11L s when PIPES simulates a fire at this node If this logic does not suit you then you can specify which are to use for the fire demand For example if a node had both residential and industrial demand but you wanted to simulate a fire in the residential area with 11L s you would click on You specify area and choose 1 for area 1 in the drop down box that appears When the analysis is complete the HGL or pressure will be the minimum due to a fire anywhere in the network This may be due to a fire at another node For example the minimum HGL at a node in a residential area may not be due to a fire there but due to a fire in a nearby industrial area You can get more information on the worst fire locations by copying the results to a spreadsheet and then choose Edit Paste in the spreadsheet Hint Sort the spreadsheet based on the minimum pressure column to quickly check for unsatisfactory results There will be no results shown for pipes pumps or valves for a fire flow analysis because these vary depending on the fire location Quality Analysis starts a water quality analysis
3. rates respectively have been mentioned in the literature in relation to treated water distribution systems In PIPES you can select the chemical to be modelled and specify default values for bulk decay rate and pipe wall decay rate by selecting Water Quality Analysis under the Options menu item You can also specify the default initial concentration for all nodes from here If you wish to use different values for a particular pipe or node you can double click on that pipe or node and then click on the Quality Data button Appendix B CONVERTING WATSYS DATA FILES Introduction If you wish to convert a WATSYS data file you will need to prepare a network diagram having the same node labels as the Watsys data file You can then merge the WATSYS data file into the current network diagram and the data for pipes and nodes will be automatically converted You will need to re enter the data for reservoirs pumps valves etc from within PIPES Step 1 Check the Watsys Data File The data for pipes should convert without any problems However there are some things you should know about the data for nodes and demands at nodes PIPES does not support Systems in the same manner as Watsys for DOS If you have only one system in your old Watsys data file you should ensure the data file does not contain the line S Y etc If you have more than one system in your Watsys for DOS data file you will need to label the nodes in the netw
4. Editing Data The next step is to set up demands at nodes For large networks we prefer to do this in a spreadsheet such as Excel You should copy the data to the Windows clipboard and then paste it into cell Al of a spreadsheet You can then add demands and ground levels in the spreadsheet You can also change the node labels here if you wish to use a particular labelling system When the data is finalised select all rows from row 1 to the last row of pipe data and choose Edit Copy Then use Alt tab to switch back to PIPES and choose Edit Paste Checking Results In very large models eg 3000 nodes 4000 pipes it can be a daunting task to look for substandard pressures and high head loss pipes on the screen or on a printed diagram of results To help in checking results you can select Edit Copy Results to spreadsheet then switch to an empty spreadsheet and select Paste The results for the current time are shown for nodes on the upper part of the spreadsheet and for pipes on the lower part of spreadsheet The minimum pressures and HGLs which occurred at any time during the simulation 19 are also shown You can select the node results and sort the data in ascending order of minimum pressure This will quickly show all those nodes with substandard pressures You can also select the pipe results and sort the data in descending order of friction slope m km Excessive values of friction slope indicate that this pipe is a
5. Minor Head Losses e Check Valves e Reservoir Inlet Control Valves e Various specialised control valves e Pressure Reducing Valves e Pressure Sustaining Valves e Flow Control Valves e Sprinklers Pipe flows may be calculated using either the Colebrook White equation or the Hazen Williams equation You draw the network on screen using lines to represent pipes and pre defined symbols to represent pumps valves reservoirs etc If you already have the pipes drawn in a CAD system eg Autocad you can create a DXF file directly from that Data is entered via dialog boxes which are accessed by right clicking on the pipe or symbol and selecting Edit Data from the pop up menu Extended Period simulations typically for 24 hours can be carried out and during the simulation pumps can be started and stopped and valves opened and closed based on control rules which you specify eg when a reservoir fills stop a pump when it falls 2 metres start the pump Results can be displayed in several ways including e Detailed results shown on a network diagram at any time during the simulation e Trace graphs showing how a value varies with time eg flow in a pipe HGL at a node Water Level in a reservoir e Minimum and maximum pressure occurring at each node at any time during the simulation Water quality analyses can also be carried out to simulate how the concentration of Chlorine Fluoride or some other chemical varies with time C
6. Sequence Numbers and or Daily Demand Factor Sequence Numbers to comply with these requirements before you attempt to merge a WATSYS data file in PIPES Beware of the default behaviour of WATSYS If the Daily Curve Sequence Number and the Daily Demand Factor Sequence Number are not explicitly defined they default to 1 This is correct for Area 1 but incorrect for all other Areas You must explicitly define them for any Areas Nos other than 1 which are used If the Demand Multiplying Factor is not explicitly defined for an area it defaults to a value of 1 0 This is acceptable in PIPES but you should be careful that it is not redefined as a value other than 1 0 elsewhere in the data file We suggest that you explicitly define the Demand Multiplying Factor the Daily Curve Sequence Number and the Daily Demand Factor Sequence Number for every area in the WATSYS data file before you attempt to merge it into PIPES If you use two or more sub systems and the same Demand Area Number is used in each check that the same Demand Multiplying Factor is used for that Area Examples The following is correct FACTRS 3 0 15 3 3 4 1 0 4 4 The following are all incorrect FACTRS 3 0 15 2 3 41 04 4 FACTRS 3 0 15 3 3 4 1 0 4 1 FACTRS 3 0 15 3 4 1 0 4 4 Step 2 Prepare the Network Diagram If you are converting a large data file you should think about the most efficient way to prepare the network diagram You can of cour
7. a appears beside the reservoir This indicates that some data is required for the reservoir Right click on the reservoir and select Edit Data to display a dialog box showing the required data You can now enter this data Reservoirs can have a constant area eg cylindrical tanks or the area can vary with depth eg a spherical tank A constant level reservoir is a special type of reservoir If you have drawn the reservoir at a node as you should PIPES will show the node label in the title bar of the dialog box eg Reservoir at Node N1 If the reservoir is not drawn at a node the title When PIPES is satisfied that all essential data has been specified for the reservoir and that the disappear from the drawing If you have specified a name for the reservoir this name will appear in Pipes Selecting Pipe or clicking the pipe button in the Toolbar allows you to draw a pipe Point to the pipe starting point and depress the left button don t release it yet Now move the mouse and you will see the pipe follow the mouse movement When you are satisfied with the pipe location release the left button Not satisfied with the location Highlight the pipe simply click on it You can now drag the entire pipe or drag only one end To drag the entire pipe point near the centre of the pipe and drag from there To drag one end point to that end and drag 1t Hint To draw many pipes hold down the Shift key as you release the
8. as deleting it or moving it around the screen To move a highlighted shape you drag it using the mouse To open a dialog box relating to a shape right click on the shape and select Edit Data from the pop up menu For example in the dialog box for a pipe you can enter the pipe length diameter roughness etc and view results of the analysis 5 Menu Commands All of the Menu Commands can be accessed from the menu bar shown in the figure below In addition many of the Commands can be accessed from the tool bar below the menu bar The Commands behave in the same manner regardless of how they are accessed File Menu 1 C Program Filest test1 ppp 2 C Program Files ARR87 dm 3 Medowie South ppp 4 101203_5 ppp Ai Many of the choices available from the File menu are common to most Windows Applications Open allows you to open a new file Close allows you to close the current drawing ready to start a new network Merge Another File allows you to add the details from another PIPES file to the current diagram The merging file must have two nodes in common with the current diagram so that PIPES can determine the correct orientation and scaling for the file to be merged Import DXF or DWG file allows you to read information stored on a DXF or DWG file These files can be created by most CAD packages If you already have pipes shown on a CAD drawing this feature will save you some time in drawin
9. assist you in rapidly gaining a good understanding of how a water supply distribution system performs When the analysis is completed you can view trace graphs You can display the trace graph for a network component by right clicking on the component eg point to a reservoir and click the right mouse button and select the desired graph from the pop up menu AE 1800 1600 1400 1200 1000 800 600 400 200 o Flow L s O 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 Time hours You can show several graph windows on screen at the same time You can move these windows around the screen and re size them to compare the behaviour of different trace values You can print graphs or copy them to the Clipboard from the File and Edit menus in the graph window HGL Graphs You can plot the HGL along one or more pipes by selecting HGL Graphs from the View menu You can specify any pipe route for plotting an HGL graph If you have specified a level for every node along the route the ground level will also be plotted lalz N8 N10 N11 N12 13 N9 130 120 110 100 90 80 Elevation m o 1000 2000 3000 4000 5000 6000 7000 8000 9000 Distance m Appendix A WATER QUALITY MODELLING The water quality model in PIPES tracks a dissolved chemical as it flows through the network It uses the conservation of mass equation to calculate the concentration of dissolved chemical at
10. draw the first segment as you would a normal pipe Then move the mouse to draw the second segment and click once to lock it in place Repeat this process for additional segments Click with the RIGHT mouse button to lock the last segment in place After you have drawn it a kinked pipe is very similar to a normal pipe The only difference is that you can drag the kinks as well as the ends Minor Head Loss A minor head loss should be drawn between two nodes Minor head losses can be used to model anything which has a head loss proportional to flow squared Headloss a Q2 The data required is the nominal diameter and K where Headloss KV 2g You can draw a minor head loss enter data for it and inspect the results of an analysis as you would for any network component Pumping Station A pumping station should be drawn between two nodes A pumping station can contain several different pumps and these pumps can be started and stopped by signals from pressure sensors and level indicators located anywhere in the system You assign a priority from 1 highest to 5 lowest to each signal If a pump receives two conflicting signals one telling it to start the other telling it to stop it will obey the higher priority signal If both signals have the same priority it will stop Pumps can also be instructed to stop during specified time periods You can specify a period such as 1800 to 2200 6 pm to 10 pm every day or 2 180
11. each node and at internal points along pipes Initial concentrations must be specified for each node In addition nodes and reservoirs can be nominated as injection points For these points the chemical concentration versus time must be specified PIPES can model decaying chemicals eg Chlorine growth chemicals and conservative chemicals eg Fluoride Growth chemicals are treated as negative decay chemicals and conservative chemicals are treated as zero decay chemicals The rate of decay is determined by a first order reaction rate model which allows for different decay rates close to the pipe wall and in the bulk flow further away from the pipe wall For each pipe a Bulk Decay Rate per day and a Wall Decay Rate m day must be specified Normally you would specify the same rate for many of the pipes in a network and you need then only specify the default value to be used for these pipes Chemical transfer between the two regions is calculated by PIPES using theory described in Transfer Processes Edwards Denny and Mills McGraw Hill New York 1976 The rate of change of concentration at a point is calculated as de dt Kc where c concentration mg L t time days K an overall constant at this location as follows K kb kw kf Rh kw kf where kb bulk decay rate supplied by you kw wall decay rate supplied by you Rh pipe hydraulic radius calculated as Pipe Diameter 4 kf mass
12. good candidate for augmentation They can also mean that there is an error in the network diagram forcing this pipe to carry flow which should be carried by another possibly larger pipe Another reason for excessive flow in a pipe could be that reservoir zone valves are incorrectly modelled
13. mouse button You will then be ready to draw another pipe immediately You can enter data for pipes by right clicking on the pipe and selecting Edit Data to bring up the dialog box When all data is specified and both ends of replaced by the diameter unless you have requested some other item of data from the View Pipe Details diameter etc is badly located you can simply drag it elsewhere The dialog box will allow you to enter e Length e Pipe type eg uPVC class 9 e Diameter e Whether to use the default value of roughness or some other value e Details of minor head losses valves and fittings to be included with the pipe e Water Quality Data Press the Quality Data button to open a dialog box in which you can specify these data Hint It is simpler to lump valve and fitting losses in with a pipe rather than to model them as a separate minor head loss When you first open the dialog box for a new pipe you will see a value suggested for diameter You can change this value if necessary The suggested value is the same as for the most recently entered pipe If the pipe type and size you wish to use are not available in the pipe data base you can edit the data base and add the pipe details Click on Edit Pipe Data Base to add more pipes Kinked Pipes You may wish to draw a pipe as a series of straight lines eg when drawing a second pipe between two nodes Selecting Pipe with Kinks allows you to do this You
14. preset maximum value e Valve with position specified as a function of time e Valve which is opened closed by remote signal s The valve can be opened and or closed by signals from flow meters pressure sensors and level indicators located anywhere in the system Combined Inlet Control and PSV A combined Inlet Control and Pressure Sustaining Valve combines the functionality of a Reservoir Inlet Control Valve and a Pressure Sustaining Valve in the one valve Rate of Flow Control Valve A rate of flow control valve should be drawn between two nodes This valve will automatically throttle flow to limit the maximum flow to a preset value The data required is flow setting the nominal diameter and K for a fully open valve where Headloss KV 2g You can draw a Rate of Flow Control valve enter data for it and inspect the results of an analysis as you would for any network component Valve with Open vs Time Specified This valve should be drawn between two nodes The data required is the nominal diameter and K for the valve in the fully open position where Headloss KV 2g You must also provide details for controls ie a table showing the valve open for various times during the day You can draw this valve enter data for it and inspect the results of an analysis as you would for any network component Valve Opened Closed by Remote Signal s This is a general purpose valve which can be used to model m
15. to be affected eg Undo might change to Undo Edit Data Find a Node allows you to easily locate a node in the network This is useful on large drawings especially if you are not very familiar with the network data is incomplete This is useful on large drawings if PIPES cannot calculate results because there is some shape for which data is incomplete but you don t know which shape it is Copy Data to Spreadsheet will copy the current pipe and node data to the clipboard You can then paste this data into a spreadsheet by placing the cursor in cell Al of the spreadsheet and selecting Edit Paste You can then format the data to make it more readable You might make the headings bold center the text in cells containing numbers etc Copy Results to Spreadsheet will copy the current pipe and node results to the clipboard You can then paste these results into a spreadsheet This is useful for large networks where it can be difficult to identify nodes with low pressures pipes with high friction losses or velocities With the results shown in a spreadsheet you can use the spreadsheet s capabilities to quickly identify problem areas For example you can sort the node results based on pressure to see all the problem pressures You can also sort the results based on pipe friction slope to identify the best candidates for augmentation to overcome low pressure problems Paste Data from Spreadsheet can be used to edit the data in a s
16. 0 to 2 2200 6 pm to 10 pm on day 2 of the simulation only A set point controller can also be specified for a variable speed pump This controller will automatically adjust the pump speed from 1 to 100 of full speed to maintain the HGL at a specified node at a set value If a speed greater than 100 would be required to maintain the HGL at the set level it will not be maintained Variable speed pump control is the highest priority signal In other words all other signals will be ignored This is why the other pump controls will be greyed out when you check the Speed Control box for a pump A variable speed pump cannot be controlled from a node with a reservoir This is because at any time during the simulation PIPES calculations will vary the pump speed until the correct HGL at the control node is achieved If there was a reservoir at the control node the HGL would be fixed at the current water level regardless of the pump speed and PIPES would be unable to determine a suitable pump speed If you wish to control a variable speed pump from a node which has a reservoir simply leave out the reservoir With a fixed level in a reservoir there is clearly no inflow to or outflow from the reservoir This means that the reservoir storage is not used during the simulation and it might as well not be there By leaving it out you allow PIPES to assess the effect of varying speeds on the HGL and hence determine the correct pump spe
17. If you have not already carried out an hydraulic analysis this will be done automatically before the quality analysis commences Help Menu Table of Contents is like the Table of Contents of a book It shows topics covered by the help system Index is like the index at the back of a book It shows a dialog box in which you can search for key words which are listed in alphabetical order Using Help is an introduction to the help system About PIPES shows copyright information and the version number of PIPES 6 Results After calculating results for a simulation you will be able to inspect the results at any time during the simulation You will also be able to view trace graphs Results At a Particular Time To inspect detailed results at a particular time select the time in the Time Window at the top left of the drawing area Results will be displayed on the network diagram for every pipe and every node By default the flow in each pipe and the HGL at each node will be shown You can control what results are shown by selecting Pipe Text and Colors or Node Text and Colors from the View menu You can right click on any network component and select Edit Data to see the complete results for that component at the selected time Eii smal pop PIES Fe Edt Dray ep E Ele 12 Trace Graphs Trace graphs provide a very powerful tool to
18. PIPES USER MANUAL Watercom Pty Ltd 15 Little River Close Wooli NSW 2462 Australia Phone 612 6649 8005 BobStack O watercom net TABLE OF CONTENTS TABLE OF CONTENTS 1 OVERVIEW 2 HARDWARE 3 GETTING STARTED 4 USING THE MOUSE 5 MENU COMMANDS File Menu Edit Menu Draw Menu Rules for Drawing a Pipe Network Nodes Reservoirs Pipes Kinked Pipes Minor Head Loss Pumping Station Check Valve Reservoir Inlet Control Valve Pressure Reducing Valve Pressure Sustaining Valve Specialised Control Valve Combined Inlet Control and PSV Rate of Flow Control Valve Valve with Open vs Time Specified Valve Opened Closed by Remote Signal s Sprinkler View Menu Drawing Area Pipe and Node Text and Colors Options Menu Run Menu Help Menu 6 RESULTS WN Www 00 00 00 00 00 0 NNN ADANA No 10 11 11 12 Results At a Particular Time Trace Graphs HGL Graphs APPENDIX A WATER QUALITY MODELLING APPENDIX B CONVERTING WATSYS DATA FILES Step 1 Check the Watsys Data File Step 2 Prepare the Network Diagram Step 3 Merge the Watsys Data File Step 4 Enter Other Data APPENDIX C TECHNIQUES FOR LARGE NETWORKS 12 12 12 13 15 16 16 17 17 18 1 Overview PIPES is a program that does Single Balance or Extended Period Simulations of flow and water quality in a town water supply system Components that can be modelled include e Reservoirs e Pipes e Pumping Stations e
19. abels and pipe diameters e the current diagram as shown on screen You can adjust the information shown on screen eg pipe flow or velocity or diameter or length etc node label or HGL or pressure etc from the View Pipe Text and Colours menu e a summary of the current data This together with a current network diagram is useful for documenting your work e a summary of results at the current time as shown in the box at top left of network diagram e a network diagram showing the minimum HGL which occurred at each node at any time during the simulation e a network diagram showing the minimum pressure which occurred at each node at any time during the simulation e a network diagram showing the maximum pressure which occurred at each node at any time during the simulation Before printing you will have the opportunity to change printer settings eg Landscape or Portrait mode which printer to use etc Exit will close PIPES If you have made changes to the current network you will be asked whether you wish to save them Below Exit is a list of up to 4 of the most recently opened files Clicking on one of these files is the easiest way to open a file you were recently using Edit Menu Undo and Redo can be used to change recent actions such as drawing new shapes moving shapes deleting shapes and editing data for a shape When these menu items become active the text will change to indicate the type of action
20. any different situations The valve is either fully open or fully closed It can receive signals from pressure sensors and water level indicators located anywhere in the system You assign a priority of 1 highest to 5 lowest to each signal If the valve receives conflicting signals from two sensors one telling it to open the other telling 1t close it will obey the higher priority signal If both signals have the same priority it will close This valve should be drawn between two nodes The data required is the nominal diameter and K for the valve in the fully open position where Headloss KV 2g You must also provide details for controls These vary depending on which control signals you use The data entry dialog boxes are self explanatory You can draw this valve enter data for it and inspect the results of an analysis as you would for any network component Sprinkler A sprinkler should be drawn touching one node The data required is the elevation RL of the nozzle and the flow at some pressure You can draw a sprinkler enter data for it and inspect the results of an analysis as you would for any network component View Menu _ Br Drawing Area You have probably realised by now that you cannot hope to fit a large pipe network on a single screen When you start a new drawing PIPES allocates a drawing area the size of 4 screens 2 vertically by 2 horizontally In other words when you sta
21. are starting a new job you should leave this field blank If you are working on a job previously exported from PIPES there will be numbers in this field You should not change or delete these numbers Merge Watsys Data File allows you to extract pipe and node data from an existing Watsys data file and merge it with the current diagram See Appendix B for more details Export DXF allows you to create a new DXF file of the pipes and nodes or to update an existing file You might wish to update an existing drawing 1f you have changed the number or location of pipes while working in PIPES If you update an existing DXF file the information on other layers will be retained unchanged DXF files produced by PIPES do not contain blocks In these files pipes are represented by lines and nodes are represented by circles These can be on different layers if you wish One text value can be written for pipes diameter or length or flow etc and one text value can be written for nodes label or HGL or pressure etc If you need more than one text value you can write a second DXF file and later merge them in your CAD program Export Mapinfo files allows you to export data and results to Mapinfo MID MIF files This capability is part of the GIS Interface Module that is sold separately from the main PIPES software The procedure is straightforward A set of 4 files will be created 2 files for pipe data and 2 files for node data If a bac
22. as Each area can have a different e multiplying factor which is applied to all demands in that area e day to day variation in demand The day to day demand pattern is a set of numbers There is one number for each day for up to 32 days The first number is applied as multiplying factor to demands for day 1 in the simulation the 2 to day 2 etc e diurnal demand variation pattern This is a set of 48 numbers giving the ratio of demand to average demand at half hourly intervals over a full day The total of all the numbers should be 48 0 e fire demand For a residential area you might specify a fire demand of 11L s For an industrial area you might specify 22 L s The fire demand is used only when you choose Fire Flow Analysis from the Run menu The fire flow analysis is described in more detail in that section In the main data dialog box for a node you can press the Area details button to edit these values You can click on the Quality Details button to edit data for a water quality analysis Water quality modeling is discussed in more detail in Appendix A Hint You can keep your drawing looking tidy by moving the node label simply drag it with the mouse When results have been calculated the label will be replaced by the HGL value which may require a little more space If necessary you can drag the HGL value to suit Reservoirs Selecting Reservoir or clicking the Reservoir button in the Toolbar allows you to draw
23. block inserted on the node layer If you want PIPES to read node labels from the DXF file the node must be represented by a block The block should be set up as follows e the block should contain a circle and a text attribute only e the centre of the circle should be at 0 0 If you insert a block to represent a node in the DXF file you will be prompted for a text value You should enter the node label here The file NODE_SYM DXF provided with PIPES can be used to define the block Pipes are represented by lines drawn on the pipe layer of the DXF file If you draw a series of lines with their ends touching PIPES will interpret them as a kinked pipe A circle or circle in a block at the end of a line will fix the end point of the pipe If you are working with a file where pipes and nodes are present this menu item will appear instead as Import DXF or DWG background file As from June 2003 you will have the option of either adding this background to an existing background or replacing it Import Mapinfo files allows you to import data from Mapinfo MID MIF files This capability is part of the GIS Interface Module that is sold separately from the main PIPES software Two sets of MID MIF files are required one for nodes the other for pipes A DXF file containing the background layer can be imported at the same time There are file naming conventions and field name conventions that you must follow The easiest way
24. d in this analysis the fact that this analysis uses Peak Day Demands for Year 2000 etc Title Block allows you to edit the text which appears in the bottom right of the drawing This text may not always be visible on the screen If you pan to the bottom right of the drawing using the arrows or sliders on the bottom and right of the drawing you will see the text If you do not want to show a title block you can simply delete all three lines of text Pipe Data Base allows you to edit the pipe data base The data base contains internal diameters for a range of common pipe materials and classes You can add or remove pipe types and pipes The pipe data base was introduced with Version 95 20 If you are using data files prepared with an earlier version of PIPES the data base feature will be temporarily disabled EN Untitled PIPES E laj x File Edit Draw View Options Run Help Dj e E Eeee l Reservoir Constant Level Reservoir z Hed voir Levels specified Ber with Kinks O O OO o Minor Head Loss Pumping Station Check Valve Reservoir Inlet Control Valve Pressure Reducing Valve Pressure an Valve Combined Inlet Control and Psv Rate of Flow Control Valve Open vs Time specified Open Closed by remote signal Fu se Rules for Drawing a Pipe Network The Draw menu is used to enter the details of your pipe network A glance at this menu will show that you can include nodes reservoirs pip
25. ed The variable speed pump controller will not work well if the control node is very close to a reservoir The pump is likely to hunt between full speed and zero speed because variations in reservoir water level eg from 6am to 6 30am have a more significant effect on HGL at the control node than variation in the pump speed can exert at one instant eg 6 30am In this case you might consider controlling from the reservoir node and leaving the reservoir out of the network model Electricity tariffs can be specified for a pumping station The cost of energy and KVA charges will then be calculated during a simulation You can draw a pumping station enter data for it and inspect the results of an analysis as you would for any network component Check Valve A check valve should be drawn between two nodes Check valves will allow flow in the forward direction only They will close to prevent reverse flow if necessary The data required is the nominal diameter and K where Headloss KV 2g You can draw a check valve enter data for it and inspect the results of an analysis as you would for any network component Reservoir Inlet Control Valve A reservoir inlet control valve should be drawn between two nodes A reservoir inlet control valve is used to prevent a reservoir overflowing during an Extended Period Simulation EPS The data required is the nominal diameter and K where Headloss KV 2g You must also provide deta
26. er Quality Analysis allows you to select either Chlorine Fluoride or some other substance to be modelled A dialog box appears in which you can also specify the default initial concentrations for all nodes and reservoirs and the default bulk and pipe wall decay rates Water quality modeling is discussed in more detail in Appendix A Run Menu Hydraulic Analysis starts an hydraulic analysis This menu item will be grey until all data is complete and only then will you be able to select it to start an analysis network component it indicates that the data for that component is incomplete It could also indicate that a reservoir or sprinkler is not located at a node or that one or both ends of a pipe are not touching a node A detailed description of how to inspect the results of an analysis is given in Section 6 11 Fire Flow Analysis starts a fire flow analysis The non fire demands are those appropriate for the starting time specified under the Options Simulation Period menu item Reservoir levels and pump and valve status are the initial values specified in the data or those appropriate at the simulation starting time In a network with 1000 nodes there will be 1000 separate analyses done with a fire at a each node in turn In each node data dialog box the default radio button under For Fire Flows is Use dominant area Consider a node with some residential demand area 1 and some industrial demand area 2 and let us assume we
27. es minor head losses pumping stations check valves reservoir inlet control valves pressure reducing valves pressure sustaining valves and sprinklers as well as various specialised control valves in your network Alternatively you can draw the more common components nodes pipes reservoirs pumps and check valves using the Toolbar Before discussing these items in detail there are some rules which you must follow in drawing a pipe network These are e reservoirs and sprinklers are located at a node That is the base or corner of these items should just touch one node If there is too big a space between the item and its node PIPES will not associate the item with that node e pipes are located between two nodes That is each end of a pipe should just touch one node If there is too big a space between the end of a pipe and its node PIPES will not associate the pipe with that node e minor head losses pumping stations and all types of valves are located between two nodes That is you should draw two nodes one on each side of these items The space between the item and its nodes is not important but about 5 mm is recommended for appearances sake You will be prompted to supply the name of the upstream and downstream node in a dialog box EN Small ppp PIPES 15 x Fle Edt Draw view opuors Run Hep Djs abe gt Ags i leed ll NG Na 000 4
28. g a network and entering pipe data You will be prompted to select the Pipe layer name and the Node layer name PIPES will interpret all straight lines and circles on these layers of the DXF file as pipes and nodes respectively This means that no other straight lines or circles can be drawn on these layers It is not necessary to draw all pipes and nodes on the DXF file You can add pipes and nodes later from within PIPES You will also have the option of specifying a background layer This would normally contain street and property boundaries street names etc This layer can be shown or hidden from within PIPES Its colour can also be changed The default colour of light grey allows it to be seen while keeping the pipes and nodes visually dominant If you have previously imported a DXF file without a background layer you can import the background layer only at a later time This operation requires that the drawing area has not been extended or cropped since the DXF file was imported If it has been you will need to temporarily crop or extend it to return to the original borders while you import the background layer You can then extend or crop it without losing pipes and nodes You will be asked if the DXF drawing is drawn to scale If you answer yes PIPES will assign a length to all pipes based on the length you enter for one pipe Nodes can be represented in the DXF file by a simple circle drawn on the node layer or by a
29. he XY file The XY file format must be Label xCoord yCoord where xCoord and yCoord must match the values in the DXF file The XY file must be an ASCII file e If you have a DXF file where the nodes are drawn as circles and you have no XY file you can simply read the DXF file PIPES will automatically create node labels but these will not match those in the Watsys data file and you will need to manually change each node label within PIPES or in a spreadsheet Unfortunately the node labels in a Watsys map file are floating text and are not tied in any way to their node This means they cannot be used to define node labels in PIPES 17 Step 3 Merge the Watsys Data File When the network diagram is on screen with correct node labels you can select File Merge Watsys data file If each node and pipe in the Watsys data file match a node and pipe in the network diagram as they should this should proceed smoothly If there are discrepancies eg a pipe in the Watsys data file and no matching pipe in the network diagram error messages will be displayed You should make a note of these error messages and adjust either the network diagram or the Watsys data file until they match Step 4 Enter Other Data At this stage the data for pipes nodes and demands should be correct This represents the vast majority of data in a typical network To complete the data you now need to manually enter ie within PIPES data fo
30. hemical injection points can be specified with the chemical concentration specified as data for the duration of the analysis Trace graphs are available for these results also The various graphs can be sent to a printer or plotter or file or copied via the Clipboard directly to a word processor eg Word for Windows for inclusion in a report 2 Hardware You will need a machine with Windows 95 98 NT 2000 or XP You will also need the dongle supplied with PIPES 3 Getting Started A CD containing the software and a software lock are provided The software lock should be attached to a USB port on your computer You should start Windows Explorer select the drive containing the PIPES CD go to the PIPES subdirectory and double click SETUP EXE This will install the software on your hard disk PIPES incorporates an extensive online help system and we encourage you to use it You can access the help system from the Help menu or by pressing Fl or using the Toolbar help button Clicking the Toolbar help button puts PIPES into help mode You can then click on any object eg a menu item another symbol in the toolbar a pipe a node etc to get specific help on that object You might like to experiment with the sample data file SMALL DAT which is supplied with PIPES 4 Using the Mouse Clicking on a shape such as a node or pipe will highlight it You can perform various operations on a highlighted shape such
31. ht down to the size of one screen full Extending or Cropping the drawing area adds or subtracts one half a screen width and height each time you do it If you inadvertently lose some of your network when you Crop the drawing it will reappear if you Extend the drawing Trim Drawing Edges is useful if you find there is too much white space around a network when you print it Snap Pipes to Nodes causes the pipe ends to be moved to the centre of the node Node Text and Colours allows you to change the text displayed beside each node You can show labels HGL pressure etc You can also colour code the nodes to show different pressure ranges in different colours Pipe Text and Colours allows you to change the text displayed beside each node and to colour code the pipes You might choose to colour code the pipes based on their diameters This will give a good indication of the location of major pipes in the network Background can be selected or deselected to show or hide the background layer A check mark indicates when the background is selected Background Colour allows you to change the colour of the background layer Toolbar can be used to show or hide the Toolbar The check mark indicates that the Toolbar is currently visible Status Bar can be used to show or hide the Status Bar The check mark indicates that the Status Bar is currently visible Pipe and Node Text and Colors When you draw a network there is some tex
32. ils for controls ie the location of the controlling reservoir and reservoir levels which cause the valve to open and close You can draw a reservoir inlet control valve enter data for it and inspect the results of an analysis as you would for any network component Pressure Reducing Valve A pressure reducing valve should be drawn between two nodes A pressure reducing valve will automatically throttle flow to limit the maximum downstream pressure to a preset value The data required is the downstream HGL setting the nominal diameter and K where Headloss KV 2g You can draw a pressure reducing valve enter data for it and inspect the results of an analysis as you would for any network component Pressure Sustaining Valve A pressure sustaining valve should be drawn between two nodes A pressure sustaining valve will automatically throttle flow to sustain the upstream pressure at a preset minimum value The data required is the upstream HGL setting the nominal diameter and K where Headloss KV 2g You can draw a pressure sustaining valve enter data for it and inspect the results of an analysis as you would for any network component Specialised Control Valve Various specialised control valves are supported by PIPES These valves are occasionally used in modelling of water supply distribution systems They include e Combined Inlet Control and Pressure Sustaining Valve e Valve which restricts the flow to a
33. kground layer is present a DXF file will also be created If results are available in the PIPES model these will be included in the files and you will be asked for a brief title eg you might use 20 to indicate results are for the year 2020 This allows you to build up sets of results minimum pressure and HGL maximum pipe flows for various years in your GIS You can do several runs in PIPES and export them to the same MID MIF files Depending on the title you supply PIPES will either add new fields or update existing fields Export ESRI Shapefiles allows you to export data and results to ESRI shapefiles This capability is part of the GIS Interface Module that is sold separately from the main PIPES software The procedure is straightforward A set of 6 files will be created 3 files for pipe data and 3 files for node data If a background layer is present a DXF file will also be created If results are available in the PIPES model these will be included in the files and you will be asked for a brief title eg you might use 20 to indicate results are for the year 2020 This allows you to build up sets of results minimum pressure and HGL maximum pipe flows for various years in your GIS You can do several runs in PIPES and export them to the same MID MIF files Depending on the title you supply PIPES will either add new fields or update existing fields Print allows you to print e the network diagram showing node l
34. ork diagram to suit the following convention for merging node labels e all node labels in the main system ie S Y MAIN are merged without alteration ie node 101 is merged with node 101 on the network diagram e all node labels in other subsystems are merged with a letter prefixed to the label The letter is the first letter of the sub system name eg G for SY GRAVITATION ZONE So node 101 in the Gravitation Zone would be merged with node G101 on the network diagram ie you need to label the node on the network diagram as G101 If you have been using WATSYS you should be familiar with the terms Demand Area and Demand Multiplying Factor and Daily Curve Sequence and Daily Demand Factor Sequence and Demand Variation Curve In PIPES the term Diurnal Pattern is used instead of Demand Variation Curve The terms Daily Curve Sequence and Daily Demand Factor Sequence are not normally used They are used here only to explain how to convert old data for use by PIPES PIPES allows up to 10 demand areas Each demand area has its own Demand Multiplying Factor its own Daily Curve Sequence Number and 16 its own Daily Demand Factor Sequence Number For example Area No 3 e can use any one Demand Multiplying Factor eg 0 15 e must use Daily Curve Sequence Number 3 and no other e must use Daily Demand Factor Sequence Number 3 and no other You will likely need to renumber Demand Areas and or Daily Curve
35. preadsheet add new pipes and nodes or even to create a new network directly from data entered into a spreadsheet It is recommended that you first paste data into a spreadsheet You can then edit the data For example you might change some pipe diameters and add levels and demands to nodes When you are satisfied with the changes you select highlight all the rows from row 1 to the last row of pipe data Then you select Edit Copy to copy the data to the clipboard then use Alt tab to switch to PIPES and select Edit Paste Data from Spreadsheet Any changes that you have made in the spreadsheet will then be made within PIPES and any new pipes or nodes that you added in the spreadsheet will be created in PIPES If you add a new node in the spreadsheet you will need to provide an x y coordinate for it If you change a pipe type the text must exactly match a pipe type in PIPES data base The safest way to do this is to copy a pipe type from another cell and paste it into the cell to be changed Copy Current Diagram will copy the network diagram to the Clipboard You can then paste it into your Windows Word Processor or Windows Drawing Program for inclusion in a report Delete allows you to delete a pipe pump valve etc First you click on the item to highlight 1t You can then press the Del key or select this menu item to delete it Job Description allows you to document this job in detail You can enter notes such as new pipes include
36. r pumps valves reservoirs sprinklers electricity tariffs and water quality if you are using these features Appendix C TECHNIQUES FOR LARGE NETWORKS While using PIPES to with large networks we have developed certain methods of setting up and checking a model There are other ways of doing the same thing but these are the methods we prefer Using DXF Files The first step in setting up a model is to prepare the network diagram While this can be done within PIPES for large networks we prefer to import a DXF file which is produced from a CAD package If the DXF file is drawn to scale PIPES can determine the lengths for all pipes after you specify the length for one pipe Often the pipes are already included in a CAD drawing While this appears to save some time there are hidden traps in using such a file Because every line on a certain layer will be interpreted as a pipe or part of a kinked pipe it is important that each line is drawn once and only once and that there are no stray short lines accidentally drawn These errors are easily made and difficult to detect Unless the original draftsperson was aware of these requirements we have found it safer and often faster in the long run to redraw trace over all the pipes on a new layer Nodes are added on a separate layer to define the extents of kinked pipes and the interconnection details We prefer to let PIPES number the nodes automatically Using a Spreadsheet for
37. rt PIPES you are looking at the top left hand quarter of the available drawing area Selecting Index Sheet allows you to quickly locate the viewing window precisely where you want it If you find yourself getting lost looking at a small part of a large drawing this will be helpful When you select Index Sheet you will see the entire drawing on one screen and a dashed rectangular box This box indicates the position of the normal view window You can drag this box wherever you want to position the normal view window Releasing the left mouse button will return you to the normal view window HGL Graph will show a graph of HGL along one or more pipes at the current time 1 0500 ie Sam on day 1 in the figure You can nominate the nodes along each pipe route Zoom is useful if you find your drawing is too cluttered or too spread out This can happen when you read a DXF file or if you are inexperienced in drawing a network diagram in PIPES You will be prompted for a magnification factor Extend Drawing Area This is like sticking more paper to your drawing The size of your entire drawing area increases but you can see no more on one screen ie the size of the view window does not change If you work with large networks sooner or later you will find that the 4 screens of drawing area are insufficient and you will need to extend the drawing area Crop Drawing Area allows you to trim the edges of the drawing area You can crop rig
38. se simply draw the diagram within PIPES If you wish to keep the network diagram in perspective you will need to draw the network using a digitiser If your digitiser has a Windows driver you can do this directly If you have an older digitiser with no Windows driver you can digitise the network into a CAD system and then create a DXF file which can be read into PIPES using File Read DXF If you already have a Watsys map of the network or if you have the pipes drawn in a CAD system we recommend that you create a DXF file of the network diagram and import that into PIPES using File Read DXF Before you can merge a Watsys data file you must ensure that the node labels on your network diagram match those in the Watsys data file There are several possibilities e If you are drawing the network diagram within PIPES you can simply type in the correct label as you create each node e If you are creating a DXF file within a CAD program you can draw each node as a block with an associated text value for which you enter the node label ref page 6 e If you have a DXF file where the nodes are drawn as circles and you have or can create from a data base an XY file defining the label and x y coordinates for each node PIPES can read both files and assign the correct label to each node When PIPES reads a DXF file it checks for the existence of an XY file of the same name and if it finds one it reads node labels from t
39. t associated with each node and pipe When you first 10 draw a network this text shows the node labels and the pipe diameters After you calculate results the text shows the node HGLs and the pipe flows Using Node Text and Colors and Pipe Text and Colors you can change this text to show other data or results You can also use these menu items to colour code the results For example selecting Node Text and Colors shows the dialog box in the figure below The user has then specified that the HGL should be displayed at each node and that the nodes should be colour coded based on the value of pressure In this example the user has specified pressures up to 12m should be red 12 to 20 should be cyan 20 to 125 should be yellow and greater than 1250 should be green Colours and Displayed Text for Nodes amp Pipes For Show OK Nodes C Label C Pipes HGL e Pressure C Demand Ground Level Hel C C Nothing Pressure Range m Node Color w TT ol E SSS oT BOSE thenupto 9999 Hint You can use colors to group results eg You might use red for low pressures less than say 15 yellow for medium pressures up to 80 and blue for higher pressures Ifyou don t wish to use colors you can select white for nodes and black for pipes Options Menu Flow Units allows you to choose between various units You should select your preferred option before entering data for pumps valves demands e
40. tc Headloss Formula allows you to choose between the Hazen Williams and Colebrook White formulae for headloss in pipes The data entry dialog box for pipes will ask for either C or k depending on which equation you have specified You should choose the formula you prefer before entering data for pipes The Hazen Williams equation is described in most standard hydraulic texts The Colebrook White equation is k 25lv v 2 2gDSlo 2 ir DJ2eDS where V velocity of flow g acceleration due to gravity m s D pipe internal diameter m S slope of Hydraulic Grade Line k pipe wall roughness m v kinematic viscosity of fluid m s The Colebrook White equation is considered to be more accurate than the Hazen Williams equation and has the added advantage that roughness values k do not vary with pipe diameter In the days of slide rules the Hazen Williams equation was preferred because it was easier to use Computers have no problem using the Colebrook White equation and it is recommended over the Hazen Williams equation Simulation Period allows you to specify either a single balance run or an Extended Period Simulation EPS If you select a single balance run you need to specify only the staring time eg 0500 for 5am The starting time is significant because demands can be different at different times of the day If you select EPS you will also need to specify the duration of the simulation eg 1 day Wat
41. to see these is to export a set of Mapinfo files from a small example and inspect the files generated There will be 4 files called eg MyJob_Nodes mid MyJob_Nodes mif MyJob_Pipes mid and MyJob_Pipes mif If a background layer is present there will be a 5 file called MyJob dxf Most of the fields in the MID MIF files are self explanatory You should not edit or change the PIPESid field If you are starting a new job you should leave this field blank If you are working on a job previously exported from PIPES there will be numbers in this field You should not change or delete these numbers Import ESRI Shapefiles allows you to import data from sets of SHP SHX DBF files This capability is part of the GIS Interface Module that is sold separately from the main PIPES software Two sets of shapefiles are required one for nodes the other for pipes A DXF file containing the background layer can be imported at the same time There are file naming conventions and field name conventions that you must follow The easiest way to see these is to export a set of shapefiles from a small example and inspect the files generated There will be 6 files called eg MyJob_Nodes shp MyJob_Nodes shx MyJob_Nodes dbf MyJob_Pipes shp MyJob_Pipes shx and MyJob_Pipes dbf If a background layer is present there will be a 5 file called MyJob dxf Most of the fields in the DBF files are self explanatory You should not edit or change the PIPESid field If you
42. transfer coefficient calculated by PIPES PIPES can also be used to trace the source of water in multi source systems You can specify an initial Fluoride concentration of zero at all nodes except for one source node say S1 where Fluoride will be injected to maintain the Fluoride concentration at 100 mg L After allowing time for the system to come to equilibrium which may be some days depending on the size of network and the demand level the Fluoride concentration can be 14 taken as an indication of the amount of water coming from the source where Fluoride was injected For example a Fluoride concentration of 40 mg L at node X would indicate that 40 of the water at node X came from S1 For this analysis a non decaying chemical is required and Fluoride is convenient It is stressed that Water Quality modeling is not an exact science The process of chlorine decay and TTHM total trihalomethanes growth in water distribution systems is not well understood and much research in this area is taking place around the world We expect that the water quality model described above will be modified as this research proceeds At present there are no guidelines available for selecting reasonable values of bulk and wall decay parameters for a particular water distribution system and field testing is generally required However as a starting point values around 0 03 to 0 5 day and 0 3 to 1 5 m day for Chlorine bulk and wall decay

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