Thermal efficiency gains enabled by using CO2 mixtures in supercritical power cycles-Reference-Cited by-同舟云学术

Thermal efficiency gains enabled by using CO2 mixtures in supercritical power cycles

Published:2022-01 Issue: Volume:238 Page:121899
ISSN:0360-5442
Container-title:Energy
language:en
Short-container-title:Energy

Author:

Crespi F.^ORCID,Rodríguez de Arriba P.,Sánchez D.,Ayub A.^ORCID,Di Marcoberardino G.^ORCID,Invernizzi C.M.^ORCID,Martínez G.S.,Iora P.,Di Bona D.^ORCID,Binotti M.,Manzolini G.

Funder

University of Brescia

Universidad de Sevilla

Horizon 2020 Framework Programme

Politecnico di Milano

Publisher

Elsevier BV

Subject

General Energy,Pollution,Mechanical Engineering,Building and Construction,Electrical and Electronic Engineering,Industrial and Manufacturing Engineering,Civil and Structural Engineering

Reference28 articles.

1. Real gas effects in carbon dioxide cycles 79832;Angelino,1969

2. The supercritical thermodynamic power cycle;Feher;Energy Convers,1968

3. A supercritical carbon dioxide cycle for next generation nuclear reactors;Dostal,2004

4. C. S. Turchi, Z. Ma, J. Dyreby, Supercritical carbon dioxide power cycle configurations for use in concentrating solar power systems, in: Turbo Expo: Power for Land, Sea, and Air, volume 44,717, American Society of Mechanical Engineers, pp. 967–973.

5. T. Neises, C. S. Turchi, Supercritical co2 power cycles: design considerations for concentrating solar power, in: 4th international symposium—supercritical CO2 power cycles, Pittsburgh, PA, Sept, Citeseer, pp. 9–10.

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