You are currently reviewing an older revision of this page.
When performing a transient simulation in HAMMER, looking only at the minimum and maximum transient pressures (properties, flextables, color coding, etc) does not provide the complete picture of how those pressures occurred. In some cases you may be surprised by a particular result and without further details, you may wonder if that result is correct or how it could occur.
Animating the transient simulation in a profile path can be a much better way to visualize exactly what is happening during the transient event. This allows you to see how transient waves interact and reflect and the formation and collapse of vapor or air pockets.
First, create profiles for your model, covering major pathways that you need to analyze. You may also want to add one or more shorter "detail" profiles, for analyzing what happens at a specific location. For example for a pump station, a "detail" profile could cover from the upstream source (typically a reservoir), through the pump, and the next pipe or two.
Then, in your transient solver Calculation Options, make sure you have selected "True" for "Generate Animation data":
Next, after computing the transient simulation, open the Profile of "Hydraulic Grade and Air/Vapor Volume" for a profile covering the area of interest. Click the play button at the top or move the time bar to animate the transient simulation and get a better understanding of exactly what's happening. You may notice an air or vapor pocket forming (top graph) and later collapsing with subsequent severe surges forming, reflecting and interacting with each other.
Note: to ensure finer granularity of results in the animation, consider the tips here: Recommended HAMMER Calculation Option Reporting Settings
What do the different colored lines in a Transient Results Viewer profile represent?
Surge mitigation for systems with intermediate high points experiencing negative pressure or spikes in pressure