![pipenet vs fluidflow pipenet vs fluidflow](https://images.slideplayer.com/23/6622436/slides/slide_74.jpg)
![pipenet vs fluidflow pipenet vs fluidflow](https://images.slideplayer.com/23/6622436/slides/slide_62.jpg)
Now the user only needs to specify their type (smooth or sudden) and the type of transition is automatically determined by the program. Below is the part of resulting file.įigure 5 : Example of.
![pipenet vs fluidflow pipenet vs fluidflow](https://images.slideplayer.com/23/6622436/slides/slide_65.jpg)
The user can also specify the time range. The resulting force values are exported to the file in every water hammer calculation step or in certain number of steps. The forces in start and end nodes may be included in this sum or not. The scalar sum of all forces between the specified start and end points are calculated.
#Pipenet vs fluidflow windows#
They contain the start point and the end point in the pipeline with both points belonging to the same branch and without direction change elements between them.įigure 4 : Export windows for CEASAR Force File
![pipenet vs fluidflow pipenet vs fluidflow](https://s2.studylib.net/store/data/005535382_1-4ccf0d34e27720bf0d35bbea0f712b47.png)
To do this the so-called force sets must be firstly defined. frc files already supported by AFT Impulse, PipeNET and the other water hammer calculating programs. To export the loads to CAESAR II we use the. This file is then imported to START-PROF and the latter determines what happens with pipeline in the imported moments of time. Then both types of analysis are performed and the calculated force values in specifically chosen moments of time are saved as a START force file (.ctpf). When exporting to START-PROF all the loads are multiplied by the dynamic load factor DLF (2 by default) that reflects the fact that deformations caused by dynamic loads can be up to 2 times greater than the ones caused by static loads and START-PROF calculates the loads using the static method.Ī pipeline initially created in START-PROF is then imported by HYDROSYSTEM, and the additional data for both stationary and dynamic analysis are entered (for example, pressures in source and target nodes and the elements causing water hammer – valves, pumps, etc.). The value of each vector in this sum is defined by the formula F = PS, where P is the water hammer pressure (the excessive value over the one obtained during stationary analysis) and S is the cross-sectional area of the pipe considered. The resulting force in each node is calculated as a vector sum of all the forces applied along the input and output pipes. Direct export for unbalanced forces between START-PROF and HYDROSYSTEMįor export to START-PROF, the stress analysis tool of the PASS suite, the forces (or loads) are computed for all the nodes of the pipeline. For each region different physics is used.įigure 2 : Spatial volumetric solid fraction, flow patterns (fixed bed, sliding bed, heterogeneous, homogeneous), head losses along the pipelineįigure 3 : An example of computation with slurry module. The Limit Deposit Velocity divides particles into 5 regions. This DHLLDV Framework is based on the spatial volumetric concentration in the pipe and uniform sands or gravels and consists of a framework containing 12 sub-models. The slurry flow module is based on an up-to-date model, the Delft Head Loss & Limit Deposit Velocity Framework. PASS/HYDROSYSTEM version 4.2 includes a new module for slurry flow that provides liquid phase calculation with solid particles (sand, suspensions, pulps, slimes, etc.).įigure 1 : Easy date input for solid particles (diameter, density, volumetric fraction) The values can be forwarded into PASS/START-PROF and CEASAR II.Ī few other improvements are also included. PASS/HYDROSYSTEM version 4.2 includes namely new module for slurry fluid flow analysis and water hammer unbalanced forces calculation. The customer base is growing in North America though Fluids & Co.
#Pipenet vs fluidflow software#
This software allows piping pressure drop analysis and transient simulations with or without heat transfer. HYDROSYSTEM is the piping hydraulic and thermal system of the PASS Suite.