.Modelica.Fluid.Pipes.BaseClasses.WallFriction.Detailed

Information

This component defines the complete regime of wall friction. The details are described in the UsersGuide. The functional relationship of the friction loss factor λ is displayed in the next figure. Function massFlowRate_dp() defines the "red curve" ("Swamee and Jain"), where as function pressureLoss_m_flow() defines the "blue curve" ("Colebrook-White"). The two functions are inverses from each other and give slightly different results in the transition region between Re = 1500 .. 4000, in order to get explicit equations without solving a non-linear equation.

PipeFriction1.png

Additionally to wall friction, this component properly implements static head. With respect to the latter, two cases can be distinguished. In the case shown next, the change of elevation with the path from a to b has the opposite sign of the change of density.

PipeFrictionStaticHead_case-a.png

In the case illustrated second, the change of elevation with the path from a to b has the same sign of the change of density.

PipeFrictionStaticHead_case-b.png

Contents

Name Description
 massFlowRate_dp Return mass flow rate m_flow as function of pressure loss dp, i.e., m_flow = f(dp), due to wall friction
 pressureLoss_m_flow Return pressure loss dp as function of mass flow rate m_flow, i.e., dp = f(m_flow), due to wall friction
 massFlowRate_dp_staticHead Return mass flow rate m_flow as function of pressure loss dp, i.e., m_flow = f(dp), due to wall friction and static head
 pressureLoss_m_flow_staticHead Return pressure loss dp as function of mass flow rate m_flow, i.e., dp = f(m_flow), due to wall friction and static head
 Internal Functions to calculate mass flow rate from friction pressure drop and vice versa

Generated at 2020-06-05T07:38:22Z by OpenModelica 1.16.0~dev-420-gc007a39