MathWorks Extends Simscape for Modeling and Simulating Fluid Systems

Introduces Simscape Fluids component libraries as part of Release 2016a

Natick, Massachusetts, United States - (9 Aug 2016)

Backhoe with hydraulic actuation model (bottom) in Simscape Fluids. The hydraulic actuation system is connected directly to a control algorithm in Simulink and a 3D mechanical model in Simscape Multibody.

Backhoe with hydraulic actuation model (bottom) in Simscape Fluids. The hydraulic actuation system is connected directly to a control algorithm in Simulink and a 3D mechanical model in Simscape Multibody.

 

MathWorks today announced new capabilities for modeling fluid systems within the Simscape product family. Introduced as part of Release 2016a, Simscape Fluids now provides component libraries for modeling and simulating thermal liquid systems. The new libraries and examples include heat exchangers, pipes, valves, and other components; this enables engineers to develop fluid power, heating and cooling, and fluid transportation systems for applications such as backhoe actuators, engine cooling systems, and water supply networks.

Simscape Fluids enables engineers to build acausal models of fluid systems that integrate directly with block diagrams in Simulink, state machines in Stateflow, and MATLAB functions. Simulating the entire system within a single environment streamlines tasks such as designing control systems and optimizing system-level performance. This also makes it possible to detect integration issues earlier in the development process, when they are less expensive and time-consuming to address.

Simscape Fluids models can also be converted to C code to support testing of embedded software in configurations such as processor-in-the-loop and hardware-in-the-loop testing, which is much safer and more efficient than testing on hardware prototypes.

“Simscape Fluids is a valuable addition to Simscape that allows us to use simulation to solve problems in complex fluid systems such as liquid cooling systems in engines and water heating systems in buildings,” said Jean Brunet, deputy CEO at Sherpa Engineering. “An added advantage is that by working with Simulink, Simscape Fluids is part of a united environment for developing control algorithms and physical systems. This increases the value of Model-Based Design by enabling a more useful and elaborate executable specification.”

“Simscape Fluids is another step in our continued investment in the Simscape platform and libraries for modeling physical systems,” said Paul Barnard, marketing director, MathWorks. “Simscape Fluids is an important component in our solutions for engineers who tune closed-loop actuation systems and evaluate system-level performance of heating and cooling systems. Now, engineers working with automotive, aerospace, and industrial machinery can easily use simulation to verify system behavior without relying on hardware prototypes.”  

 To learn more about Simscape Fluids please visit mathworks.com/products/simhydraulics.  

About MathWorks

MathWorks is the leading developer of mathematical computing software. MATLAB, the language of technical computing, is a programming environment for algorithm development, data analysis, visualization, and numeric computation. Simulink is a graphical environment for simulation and Model-Based Design for multidomain dynamic and embedded systems. Engineers and scientists worldwide rely on these product families to accelerate the pace of discovery, innovation, and development in automotive, aerospace, electronics, financial services, biotech-pharmaceutical, and other industries. MATLAB and Simulink are also fundamental teaching and research tools in the world's universities and learning institutions. Founded in 1984, MathWorks employs more than 3500 people in 15 countries, with headquarters in Natick, Massachusetts, USA. For additional information, visit mathworks.com.

MATLAB and Simulink are registered trademarks of The MathWorks, Inc. See mathworks.com/trademarks for a list of additional trademarks. Other product or brand names may be trademarks or registered trademarks of their respective holders.