Thermodynamic Modelling, Technical and Operational Issues of Supercritical Carbon Dioxide Power Generation Cycles for Industrial Applications: A Literature Review

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1.	Title	Title of document	Thermodynamic Modelling, Technical and Operational Issues of Supercritical Carbon Dioxide Power Generation Cycles for Industrial Applications: A Literature Review
2.	Creator	Author's name, affiliation, country	Louis Olorounto Aredokou; Beninese Center for Scientific Research and Innovation, Cotonou, Benin. & Laboratory of Processes and Technological Innovations of Lokossa, UNSTIM, Benin.
2.	Creator	Author's name, affiliation, country	Victorin Kouamy Chegnimonhan; Beninese Center for Scientific Research and Innovation, Cotonou, Benin. & Thermal and Energy Laboratory of Nantes (LTeN), UMR 6607 CNRS Nantes, France.
2.	Creator	Author's name, affiliation, country	Kapen Pascalin Tiam; Industrial Systems and Environmental Engineering Research Unit (URISIE), Bandjoun, Cameroon.
2.	Creator	Author's name, affiliation, country	Clotilde Guidi T.; Thermal and Energy Laboratory of Nantes (LTeN), UMR 6607 CNRS Nantes, France.
2.	Creator	Author's name, affiliation, country	Basile Kounouhewa; Beninese Center for Scientific Research and Innovation, Cotonou, Benin.
3.	Subject	Discipline(s)	Applied Sciences
3.	Subject	Keyword(s)	S-CO2; Carbon dioxide; Electricity cycle; Sustainable development, Power plants
3.	Subject	Subject classification	Energy Sciences
4.	Description	Abstract	Future electricity production systems will be able to harness the power of supercritical carbon dioxide (S-CO2) as it moves through thermal cycles. It serves the same goal as sources of energy such as fossil fuels, nuclear power, solar power, and the recovery of waste heat (or surplus heat from industrial processes). When the heat source temperature is between 350°C and 800°C, CO2 as a working fluid exhibits excellent thermal efficiency. Its novel technological benefits over conventional steam Rankine cycles, such as the use of small turbo gear and compact heat exchangers, have captured the attention of scientists. It has excellent operational flexibility and may induce significantly cheaper energy costs. Aligned with these goals, this paper presents a panoramic work, exploring the current state of the art of S-CO2 power generation, with a particular emphasis on the technical and operational perplexities. After providing a comprehensive overview of the thermodynamic principles that underpin this study, the foundation is established for an engaging discourse on the continuous research and development of supercritical carbon dioxide (S-CO2) cycles in power generation. Upon delving into the thermodynamic facets of CO2 that propel this investigation, the spotlight is cast upon dissecting the existing state of research and development of S-CO2 cycles in power generation before transitioning into encapsulating the principal domains of application and noteworthy thermodynamic modelling inquiries of S-CO2 cycles. The present advancements and hurdles within the primary application areas are succinctly summarized, while future research trends are identified.
5.	Publisher	Organizing agency, location	IRA Academico Research
6.	Contributor	Sponsor(s)
7.	Date	(YYYY-MM-DD)	2023-12-29
8.	Type	Status & genre	Peer-reviewed Article
8.	Type	Type
9.	Format	File format	PDF
10.	Identifier	Uniform Resource Identifier	https://research-advances.org/index.php/IRAJAS/article/view/1820
10.	Identifier	Digital Object Identifier	http://dx.doi.org/10.21013/jas.v18.n4.p3
11.	Source	Title; vol., no. (year)	IRA-International Journal of Applied Sciences (ISSN 2455-4499); Vol 18, No 4: Q4: 2023
12.	Language	English=en	en
14.	Coverage	Geo-spatial location, chronological period, research sample (gender, age, etc.)
15.	Rights	Copyright and permissions	Copyright (c) 2023 IRA-International Journal of Applied Sciences (ISSN 2455-4499)