Overview
ABSTRACT
Thermomechanical systems, such as all heat engines, refrigeration plants and heat pumps, convert thermal energy into mechanical energy and vice versa. Their operation is governed by the two laws of thermodynamics: energy conservation, and energy transfer from high to low intensities. This article examines these general notions in the light of the Carnot cycle. The two types of cycle in thermomechanical systems, the one suitable for gas compression machines and the one suitable for steam compression machines, are then presented and analyzed.
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Read the articleAUTHOR
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André LALLEMAND: Engineer, Doctor of Science - Retired University Professor - Former Director of the Energy Engineering Department at INSA Lyon
INTRODUCTION
Thermomechanical converters convert thermal energy into mechanical energy and vice versa. These include, on the one hand, the various heat engines: gasoline and diesel engines, gas or combustion turbines and turbojet engines, steam power plants, etc., and on the other, refrigeration machines and heat pumps that mechanically compress gas or steam. They can be found in all sectors of the economy: transport, industry, agriculture and residential.
The four articles
This first article
Basically, there are two, one adapted to gas-compression machines, the other to steam-compression machines, which are by far the most numerous.
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KEYWORDS
thermodynamic | Carnot cycle | refrigerating machine | heat pump
Thermomechanical converters
Energy conversion
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