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Exergy Analysis and Optimization of a Combined Heat and Power Geothermal Plant (2019)

Marty, Fabien ; Serra, Sylvain ; Sochard, Sabine ; [et al.]

Molecular Diversity Preservation International

In: Energies. 2019; 12(6): 1175. Published 2019 Mar 26. doi: 10.3390/en12061175.

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Publication Date: 2019-03-26

Description: This paper presents the optimization of parallel distribution between electricity and heat production for a geothermal plant. The geothermal fluid is split into two streams, one used for an Organic Rankine Cycle (ORC) system, and the other for a District Heating Network (DHN). The superstructure to be used for the optimization problem includes the ORC components and the DHN topology constituted by a definite consumer and optional consumers. A Mixed Integer Non-Linear Programming (MINLP) optimization problem is formulated and solved using the GAMS software. This paper is focused on exergetic aspect. The main lines for formulation of the problem are reminded, yet the exergetic model is fully described. Exergy analysis is performed for two optimal solutions (economic and exergetic objective functions). Results for both optimizations are first compared. The analysis of exergetic efficiency of the ORC and the DHN may suggest that exergetic optimization privileges the system with the highest efficiency: the ORC. The DHN configuration is then the smallest as possible. Finally, a sensitive analysis is performed for the exergetic optimization. This analysis reveals our previous conclusion is not necessarily true. Taller configuration can exist even if ORC efficiency is higher than DHN efficiency. These results highlight the relevance of using an optimization approach for a Combined Heat and Power (CHP) plant.

Electronic ISSN: 1996-1073

Topics: Energy, Environment Protection, Nuclear Power Engineering

Published by Molecular Diversity Preservation International

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Modelling of an Adsorption Heat Storage System and Study of Operating and Design Conditions (2021)

Ferreira, Sónia ; Sochard, Sabine ; Serra, Sylvain ; [et al.]

Molecular Diversity Preservation International

In: Processes. 2021; 9(11): 1885. Published 2021 Oct 21. doi: 10.3390/pr9111885.

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Publication Date: 2021-10-21

Description: An open system based on physical adsorption phenomena with humid air and zeolite 13X is herein discussed for residential heat storage purposes. A model has been developed to describe the conservation of mass and heat in the system. A simplified approach of a complete model describing both mass conservation in the macroporous and microporous domains is used based on the linear driving force (LDF) model. Local mass and heat transfer properties have been used. To describe the equilibrium, the Aranovich–Donohue isotherm model is selected. As an example, the developed model is compared and fitted to experimental data from a pilot scale system. A parametric study on operating and design parameters is given to understand their effect on the amount and/or duration of heat supply, concentration, and temperature profiles. The studied parameters are the inlet adsorbate concentration, fluid temperature, and velocity, as well as particle and zeolite crystal sizes. This analysis shows that an identification of values for the set of parameters tested can possibly suit the energy needs for a case study of domestic heat supply. Future work will focus on the optimization of these parameters.

Electronic ISSN: 2227-9717

Topics: Biology , Chemistry and Pharmacology

Published by Molecular Diversity Preservation International

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