Anyone developing thermodynamic system faces a multitude of challenging tasks. Not only does a thermodynamic system consist of dozens of components such as pumps, compressors valves, heat exchangers, heaters, chemical reactors etc. It also exhibits highly dynamic and nonlinear behavior making it difficult to find the optimal design and control strategy. Modeling and simulation is a powerful and effective way to address these issues. In addition, thermodynamic balancing supports detailed system evaluation.

Thermolib allows you to design and optimize your complete thermodynamic system in a modular way. Design changes are implemented and tested within minutes. You can test, verify and optimize single components, groups of components or the entire system. You can even simulate component failures to test the robustness of your system design.

Thermolib can be used for all types of energy related areas such as powergeneration, heating and air conditioning, automotive and aerospaceapplications.

Beyond this, Thermolib allows you to make full use of the powerful MathWorks family of software tools and supports modern development strategies like rapid control prototyping (RCP) and hardware-in-the-loop (HiL) simulation.