Water Hammer

Transient Analysis Software

 
Every time a pump or valve is operated, potentially dangerous transients are introduced in your water distribution or wastewater system. Unchecked, transients can have catastrophic consequences on your pipes and equipment, operators, and customers.

 

Water utilities, municipalities, and engineering firms around the world trust HAMMER’s computationally rigorous engine and easy-to-use interface to efficiently identify, manage, and mitigate the risks associated with transients.

 

Identify critical points in the system that need protection and facilitate sound system design with HAMMER modeling tools:

 

  • Focus on mitigating surge, not on the modeling process: Streamlined model building and management enables you to jump-start the model building process and manage your model effectively, so that you can focus on developing the most appropriate strategy for controlling and limiting hydraulic transients.  
     
  • Simulate transient precisely to improve the quality of your decisions: Decrease the risk of approximating the behavior of protective devices and rotating equipment. Rough estimation of transients can be too costly. HAMMER helps you accurately simulate the impact of a wide range of surge protection devices and rotating equipment (pumps and turbines). 
     
  • Leverage existing CAD and GIS data for improved design productivity and to enrich the system or model that utility personnel rely on.

Water Hammer Capabilities

 

Analyze transients
  • Control transients by performing a transient analysis to locate trouble spots and determine appropriate surge control strategies. Precise transient simulation in HAMMER enables you to decrease the risk of approximating the behavior of protective devices and rotating equipment (pumps and turbines) ​.​
Build and manage hydraulic models
  • Jumpstart the model-building process and manage your model effectively, so that you can focus on making the best engineering decisions. Leverage and import virtually any external data format, which maximizes ROI on geospatial and engineering data, and automate terrain extraction and node allocation. ​