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A symmetry analysis methodology for general energy conversion systems

Huan Guo, Yujie Xu, Yifu Li, Lujing Huang, Haisheng Chen

2023Communications Engineering10 citationsDOIOpen Access PDF

Abstract

Abstract Symmetry is a useful concept that has guided many scientific developments in fields such as structural engineering, data, and materials science. Here we apply a symmetry analysis method to explore the relationship between symmetry, output work and efficiency in macroscopic energy conversion systems. Brayton cycle is used as an example. A specific potential-displacement-energy (PDE) diagram was established for system symmetry analysis. Results prove that the symmetry of thermodynamic cycles could predict the output work and the efficiency. Stronger rotational symmetry generates more work while reflection symmetry leads to higher efficiency at constant specific heat capacity ( c p ). The condition for varied c p to keep intermediate maximum-work temperature constant is greatly broaden. A more symmetrical cycle with higher efficiency and larger output work is designed based on the symmetry analysis results. The results could also be applied to other thermodynamic cycles, such as Carnot cycle, which provides insights to design more efficient energy conversion cycles.

Topics & Concepts

Carnot cycleSymmetry (geometry)Work (physics)Work outputBrayton cycleReflection symmetryConstant (computer programming)Thermodynamic cycleRotational symmetryEnergy (signal processing)Theoretical physicsPhysicsStatistical physicsThermodynamicsMathematicsMechanicsComputer scienceQuantum mechanicsGeometryHeat exchangerProgramming languageAdvanced Thermodynamics and Statistical MechanicsAdvanced Thermoelectric Materials and DevicesThermal Radiation and Cooling Technologies