HAMMER is capable of accurately simulating a full range of transient phenomena including some of the most computationally demanding situations like cavitation and column separation.
It incorporates a sophisticated algorithm for calculating the formation of vapor cavities and tracking their movement and collapse, and its robust numerical engine seamlessly switches between rigid column mass oscillation and elastic theory.
This versatility enables you to model events ranging from slow surge flow resulting from the filling of deep sewers to rapid transient events that produce pressure waves moving at sonic speeds.