analysis of a web based social network (initiated by study project).
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The premium hydraulic model includes the capability to plot flood mapping, showing the extents of water running along overflow routes. This works for street gutters or channels and open channels of various shapes.
WelcomeKypipe
Welcome to Watercom's customer support service. Watercom Pty Ltd is a Consulting Engineering and software development company based in Wooli, Australia specialising in water supply and distribution and drainage. This web site is intended to provide information and support for our programs PIPES, PIPES++ and DRAINS.
About the Programs
The PIPES program calculates flows and pressures in a pressure pipe network. Typical uses of PIPES include watermain design for subdivisions, fire mains, irrigation systems, cooling water systems, pipework and plumbing systems in buildings.
Pipe Analysis Software
The PIPES++ program is an extended version of the PIPES program and is intended for analysis of larger town water supply systems where the user is interested in monitoring reservoir levels, pump operating times etc over an extended time period (eg 24 hours) with system demands varying with time. It also includes water quality simulation which can be used to predict how chlorine and fluoride concentrations vary with time throughout the network.
DRAINS is a Stormwater Drainage System design and analysis program. It provides a much enhanced successor to the ILSAX program which has been widely used for urban stormwater system design and analysis in Australia and New Zealand. It is co-developed by Watercom and Dr. Geoffrey O'Loughlin, developer of the ILSAX program.
The demo versions of the programs are limited to a maximum of 5 pipes. There is no limit to the size of network which the full programs will analyse. The only limit might be imposed by the amount of RAM in your computer. However, as a machine with 4 MB of RAM can handle thousands of pipes it is most unlikely that your network will be too large for your machine.
Like the PIPES programs, DRAINS provides a Windows graphical interface. Users can draw drainage system components such as sub-catchments, pits, pipes and overflow routes. Right clicking on a component will display a pop-up menu from which you can choose to enter data or view results in various formats. Design rainfall patterns can be entered separately. Results such as runoff hydrographs are displayed graphically and can be pasted into other Windows programs such as spread sheets and word processors. A demo version of the DRAINS program is available for download.
The DRAINS program will perform hydraulic grade line analyses, design stormwater drainage systems and produce summary graphs and tables, and pipe long section drawings. The movie shown above is an animation produced by DRAINS after an analysis using the unsteady flow engine.
Upcoming Workshops
Workshops and training courses on DRAINS are presented by Kustom Engineering. Public workshops are delivered throughout the year at various locations around Australia. Alternatively, a private workshop can be tailored and delivered at a location suitable for your business. Please see www.kustomengineering.com.au for more details.
Questions or problems regarding this web site should be directed to [email protected]
or Phone 612 6649 8005 (International), or (02) 6649 8005 (within Australia) Objective :
The need for the fire water network analysis is to determine the water flow in each line and pressure in each node as per the standards.
About the Study :
The pipe distribution networks are the essential part of the fire water hydrant system. The optimal designing of the pipe network has a vital part in delivering water at required flow and pressure for fire fighting. However, there are some scenarios where outlet pressure is not sufficient for supplying the required demand. These cases may include unplanned system maintenance, fire pump failure, sudden leak or failure of any part of a large pipe distribution networks. The consequences can be severe if any fire accident happens during such failures. Hence, a robust and efficient fire water distribution network is a must to mitigate such failures. This can be accomplished by doing a pipeline network analysis using hydraulic network modelling software like KYPIPE 2008. Also, these failure scenarios can be simulated in the software model to assess the impact and suggest solutions to mitigate the same.
The NFPA, OISD and TAC standards requires that the hydraulic design of the pipe distribution network meet the required flow and pressure for a hydrant or a sprinkler system. The network analysis is done during the design stages of the system and before envisaging any alteration/ modifications of the pipe network. There are many accident case histories wherein the fire could not be put under control due to lack of the fire water supply because of failure of pipelines in the network. In addition, factors like pipeline corrosion and ageing of the water pipelines add to the cause of pressure loss and hence it is necessary to have robust and efficient fire water network.
Methodology :Our clientele includes
[ What's New | FAQ | Download
He then created a document with all the design ideas he wanted in the game, including gadgets, weapons, characters to use, story digression from the film, and an (AI) that would react to the player's actions.' Goldeneye 007 n64 controls. In November 1994, after and Rare discussed the possibility of developing a game based on the then-future film, Hollis told, Rare's managing director, that he was interested in the project. Due to the success of Rare's 1994 title, GoldenEye 007 was originally suggested as a 2D for the. S 1994 was the primary influence on the game, although 's seminal 1993 and the Nintendo 64 launch title were also credited. However, Hollis proposed 'a 3D shooting game' for the console, then still in development and known as 'Ultra 64'.
The premium hydraulic model includes the capability to plot flood mapping, showing the extents of water running along overflow routes. This works for street gutters or channels and open channels of various shapes.
Welcome
Welcome to Watercom's customer support service. Watercom Pty Ltd is a Consulting Engineering and software development company based in Wooli, Australia specialising in water supply and distribution and drainage. This web site is intended to provide information and support for our programs PIPES, PIPES++ and DRAINS.
About the Programs
The PIPES program calculates flows and pressures in a pressure pipe network. Typical uses of PIPES include watermain design for subdivisions, fire mains, irrigation systems, cooling water systems, pipework and plumbing systems in buildings.
The PIPES++ program is an extended version of the PIPES program and is intended for analysis of larger town water supply systems where the user is interested in monitoring reservoir levels, pump operating times etc over an extended time period (eg 24 hours) with system demands varying with time. It also includes water quality simulation which can be used to predict how chlorine and fluoride concentrations vary with time throughout the network.
DRAINS is a Stormwater Drainage System design and analysis program. It provides a much enhanced successor to the ILSAX program which has been widely used for urban stormwater system design and analysis in Australia and New Zealand. It is co-developed by Watercom and Dr. Geoffrey O'Loughlin, developer of the ILSAX program.
The demo versions of the programs are limited to a maximum of 5 pipes. There is no limit to the size of network which the full programs will analyse. The only limit might be imposed by the amount of RAM in your computer. However, as a machine with 4 MB of RAM can handle thousands of pipes it is most unlikely that your network will be too large for your machine.
Like the PIPES programs, DRAINS provides a Windows graphical interface. Users can draw drainage system components such as sub-catchments, pits, pipes and overflow routes. Right clicking on a component will display a pop-up menu from which you can choose to enter data or view results in various formats. Design rainfall patterns can be entered separately. Results such as runoff hydrographs are displayed graphically and can be pasted into other Windows programs such as spread sheets and word processors. A demo version of the DRAINS program is available for download.
The DRAINS program will perform hydraulic grade line analyses, design stormwater drainage systems and produce summary graphs and tables, and pipe long section drawings. The movie shown above is an animation produced by DRAINS after an analysis using the unsteady flow engine.
Upcoming Workshops
Workshops and training courses on DRAINS are presented by Kustom Engineering. Public workshops are delivered throughout the year at various locations around Australia. Alternatively, a private workshop can be tailored and delivered at a location suitable for your business. Please see www.kustomengineering.com.au for more details.
Questions or problems regarding this web site should be directed to [email protected]
or Phone 612 6649 8005 (International), or (02) 6649 8005 (within Australia)
Pipe network analysis is a calculation of fluid flows and pressure drops in complex piping systems. Analysis of piping systems is important for public utilities supplying water to consumers, natural gas distribution planning, or any system of piping where consistent delivery pressures and flow rates are important. It is unlikely that a supplier knows specific demands and flow rates throughout the network, so pipe network analysis provides a method where system loops are chosen and calculations are performed.
Calculations needed for pipe network analysis are available in commercial software packages, but the fundamental equations can also be calculated manually. The analysis uses a relaxation method where piping loops are chosen, pressure drops and delivery points are estimated. The amount of material passing through the system is then determined, and a series of calculations are performed.
At this point, corrections are made to the estimates and calculations are repeated when necessary. This is known as an iterative method. The process continues with smaller and smaller changes in the assumptions, until conservation of mass and energy is satisfied. Conservation of mass and energy means the inlet pressures and flows at the supply point equal the system pressure losses and required customer delivery flow rates and pressures.
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