simscape fluids documentation -凯发k8网页登录
simscape™ fluids™ provides component libraries for modeling and simulating fluid systems. it includes models of hydraulic pumps, valves, actuators, pipelines, and heat exchangers. you can use these components to develop fluid power systems such as front-loader, power steering, and landing gear actuation systems. simscape fluids also enables you to develop engine cooling, gearbox lubrication, and fuel supply systems. you can integrate mechanical, electrical, thermal, and other physical systems into your model using components from the simscape family of products.
simscape fluids helps you develop control systems and test system-level performance. you can create custom component models with the matlab® based simscape language, which enables text-based authoring of physical modeling components, domains, and libraries. you can parameterize your models using matlab variables and expressions, and design control systems for your hydraulic system in simulink®. to deploy models to other simulation environments, including hardware-in-the-loop (hil) systems, simscape fluids supports c-code generation.
get started
learn the basics of simscape fluids
modeling fundamentals and processes
modeling techniques, constraints, and best practices for fluid systems
application examples
application models using the simscape fluids libraries
fluid network interfaces library
components that connect networks and domains, such as heat exchangers and multi-fluid actuators
isothermal liquid library
specialized components for modeling fluid networks in the isothermal liquid domain
thermal liquid library
specialized components for modeling fluid networks in the thermal liquid domain
two-phase fluid library
specialized components for modeling fluid networks in the two-phase fluid domain
gas library
specialized components for modeling fluid networks in the gas domain
moist air library
specialized components for modeling fluid networks in the moist air domain
hydraulics (isothermal) library
specialized components for modeling fluid networks in the hydraulics (isothermal) domain