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Quizzed article | REF: BE8048 V1

Organic Rankine Cycles ORC

Author: Renaud GICQUEL

Publication date: September 10, 2016, Review date: June 23, 2021 | Lire en français

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    ABSTRACT

    Organic Rankine cycles are variants of water steam cycles, which are used when the heat source available to produce mechanical power is at low- or medium-temperature, generally to exploit low- or medium-temperature effluents. This article is in three parts. The first begins by showing the most widely used cycle architectures, and then examines technological aspects, including the selection criteria for the working fluids they use. The second part presents the main applications of ORC cycles. The third part deals with the optimisation of these cycles.

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    AUTHOR

    • Renaud GICQUEL: Professor - PSL – Research University, PERSEE – Centre procédés, énergies renouvelables et systèmes énergétiques, Mines ParisTech, Sophia Antipolis, France

     INTRODUCTION

    Organic Rankine Cycles (ORC) are variants of steam-water cycles, which are used when the hot source from which mechanical power is to be generated is at low or medium temperature.

    In such conditions, the performance of steam cycles deteriorates, and it becomes preferable to use other thermodynamic fluids.

    As many of these are organic in nature, we usually refer to these cycles as organic, but other types of fluid, such as ammonia or carbon dioxide, can also be used.

    These cycles have been attracting growing interest since the 1980s, and are the subject of numerous projects, particularly in the English-speaking world. They are well-suited to small power plants, as steam power plants are only economically viable for high power plants, typically above ten MW.

    This article presents the various cycle architectures encountered, then develops their main applications:

    • geothermal power plants ;

    • biomass combustion plants ;

    • effluent heat recovery plants ;

    • electro-solar thermal power plants.

    It then looks at the choice of thermodynamic fluids and the optimization of ORC cycles.

    It gives a number of examples of cycles simulated and calculated with the Thermoptim software package.

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    KEYWORDS

    Modelling   |   technologies   |   applied thermodynamics   |   energy conversion   |   thermodynamic cycles

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