![]() Make data changes in one scenario can be passed down to dependent scenarios.Evaluate “What-if” cases by comparing several scenarios.Heat transfer with energy balance, multiple fluids - modeling heat transfer between multiple hydraulic circuits thermally linked through heat exchangers.Heat transfer with energy balance, single fluid - modeling heat transfer through pipe boundaries and heat exchangers along with fluid property variations with temperature.Variable fluid properties - you can specify differing fluid properties on a pipe by pipe basis.Identify control valve position to ensure stable valve operation.Display effective Cv and K factor values for all valves in the system.Simulate pressure and flow control valves to test system interaction in the design stage.Determine control valve capacity and insure adequate pressure drop.Model relief valves, check valves, three-way valves.Automatically correct for viscous fluid behavior.Model VFDs and pump control to maintain a set flow rate or head/pressure.Select between fixed specified flow or modeling with a pump curve.Evaluate a large range of potential pump selections by importing external databases or linking to Intelliquip™ powered pump selectors.Model pump power and associated energy costs.Explore the interaction of pumps and your system.Use embedded fittings to reduce workspace complexity.Model heat transfer and add insulation layers – predict insulation surface temperatures to ensure compliance with workplace safety regulations.Friction modeling includes pulp & paper and non- Newtonian fluids.Miller Turbulent Method for light hydrocarbons.Select friction modeling from an extensive list including:.Specify diameter, length and roughness or select by material type and schedule from the built-in database. ![]()
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