Investigation of supercritical CO2 cycles potential for marine Diesel engine waste heat recovery applications-Reference-Cited by-同舟云学术

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Investigation of supercritical CO2 cycles potential for marine Diesel engine waste heat recovery applications

Published:2021-08 Issue: Volume:195 Page:117201
ISSN:1359-4311
Container-title:Applied Thermal Engineering
language:en
Short-container-title:Applied Thermal Engineering

Author:

Sakalis George

Funder

IKY

European Social Fund

European Commission

Publisher

Elsevier BV

Subject

Industrial and Manufacturing Engineering,Energy Engineering and Power Technology

Reference56 articles.

1. Effects of technical progress on performance and application of supercritical carbon dioxide power cycle: A review;Liao;Energy Convers. Manage.,2019

2. Performance comparison of different supercritical carbon dioxide Brayton cycles integrated with a solar power tower;Al-Sulaiman;Energy,2016

3. A review of research and development of supercritical carbon dioxide Brayton cycle technology in nuclear engineering applications;Wu;Nucl. Eng. Des.,2020

4. Thermodynamic and economic investigation of coal-fired power plant combined with various supercritical CO2 Brayton power cycle;Park;Appl. Therm. Eng.,2018

5. Supercritical Carbon Dioxide(s-CO2) Power Cycle for Waste Heat Recovery: A Review from Thermodynamic Perspective;Liu;Processes,2020

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1. Mitigation effects of lattice structure arrays on heat transfer deterioration of supercritical CO2;Applied Thermal Engineering;2024-12

2. A Comprehensive Study on Hydrogen Production via Waste Heat Recovery of a Natural Gas-Fueled Internal Combustion Engine in Cogeneration Power-Hydrogen Layouts: 4E Study and Optimization;Sustainability;2024-08-09

3. Research on compression process and compressors in supercritical carbon dioxide power cycle systems: A review;Energy;2024-06

4. Theoretical Analysis on Thermodynamic and Economic Performance Improvement in a Supercritical CO2 Cycle by Integrating with Two Novel Double-Effect Absorption Reheat Power Cycles;International Journal of Energy Research;2024-06-01

5. Rapid 2-Dimensional prediction of supercritical CO2 heat transfer behaviors in inclined tubes based on deep learning;Applied Thermal Engineering;2024-03

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