Icon class icon_class fas fa-quote-left icon_class_computed fas fa-quote-left Related content BDD: Figure 61: Hydraulics model constraint blocks Source SysPhS-1.1 Copyright information About Object Management Group copyright in text extracts quoted from OMG specifications for educational purposes Snippet kind INFO UML keywords Constraint SysML keywords constraint parameter ConstraintBlock Keywords SysPhS pressure hydraulics fluid flow Previous snippet The magnitude of fluid flow rate through the pipe fluidFlow is the same as the magnitude of flow rates opening1FluidFlow and opening2FluidFlow going through the pipe’s openings, though the values differ in sign. Full quote The sum of the fluid flow rates going through the two pipe openings is zero (the fluid is assumed to be incompressible). Next snippet The tank constraints specify that the pressure in the tank, pressure depends on the height of the fluid level in the tank, fluidHeight, as well as properties of the fluid, fluidDensity. Related snippets Equations define mathematical relationships between the values of numeric variables. Equations in SysML, are constraints in constraint blocks that use properties of the blocks (parameters) as variables. In this example, constraint blocks PipeConstraint and TankConstraint define parameters and equations for pipes and tanks, respectively, as shown in Figure 61. The pipe constraints specify that the pressure pressureDiff across it is equal to the difference of fluid pressures opening1Pressure and opening2Pressure at each end of the pipe. The fluid flow rate through the pipe, fluidFlow, is proportional to the pressure difference by the constant resistance, which depends on the geometric properties of the pipe as well as fluidic properties. The magnitude of fluid flow rate through the pipe fluidFlow is the same as the magnitude of flow rates opening1FluidFlow and opening2FluidFlow going through the pipe’s openings, though the values differ in sign. Related snippets (backlinks) The tank constraints specify that the pressure in the tank, pressure depends on the height of the fluid level in the tank, fluidHeight, as well as properties of the fluid, fluidDensity. Also, the fluid flow in the tank, fluidFlow, is related to the change in the fluid height level fluidHeight over time and the cross-sectional surface area of the tank, surfaceArea. Equations in constraint blocks are applied to components using binding connectors in component parametric diagrams. Component parametric diagrams show properties typed by constraint blocks (constraint properties), as well as component and port simulation variables and constants. Binding connectors link constraint parameters to simulation variables and constants, indicating their values must be the same. Figure 62 and Figure 63 show the parametric diagrams of the tank and the pipe, respectively. Visit also Visit also (backlinks) Flags