A Modelica-Based Model for Pneumatic Circuits with a Focus on Energy Efficiency

A Modelica-Based Model for Pneumatic Circuits with a Focus on Energy Efficiency

This paper presents a new computational library for pneumatic circuits, written in the specialized circuit-oriented language “Modelica”, and executed within an open-source IDE, “OpenModelica”, freely available for downloading on the Internet. The library focuses on the problem of energy efficiency a...

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Bibliographic Details
Main Author: Gustavo Koury Costa
Format: Article
Language:English
Published: MDPI AG 2025-04-01
Series:Journal of Experimental and Theoretical Analyses
Subjects:
pneumatic circuits
fluid power efficiency
energy management in pneumatic circuits
compressed-air reutilization
Online Access:https://www.mdpi.com/2813-4648/3/2/11
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Summary:This paper presents a new computational library for pneumatic circuits, written in the specialized circuit-oriented language “Modelica”, and executed within an open-source IDE, “OpenModelica”, freely available for downloading on the Internet. The library focuses on the problem of energy efficiency and energy savings (two different concepts, that we intend to clarify in the text). The idea is to use the Modelica scripts to simulate typical circuits, known by their energy-efficient designs. We reason that air throttling within valves is one of the great challenges when it comes to energy losses. Also, we argue that compressed air reuse can be seen as a means of increasing efficiency, basically through replacing air throttling with counter-pressure velocity control. A simplified version of the developed Modelica library is made available to the reader in the <sup>Appendix A</sup>, to be used with new scripts and adapted to different realities. In our view, in many situations, open-code Modelica programs may constitute an alternative to proprietary software, where the mathematical models of components are mostly hidden from the end user. Theoretical experiments are carried out, focusing on energy management. The results show that the Modelica library hereby presented is solid, with great prospects of future development. They also show that energy efficiency in pneumatic circuits, at times, comes with the cost of poorly controlled velocity and pressure at the actuator, which requires a careful analysis by the designer, before an actual implementation.
ISSN:2813-4648

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