Waste heat recovery from medium-temperature heat sources (300°C -700°C) has a great potential to increase the utilization efficiency of primary energy resources. Several configurations of supercritical CO2power systems have been recently proposed as promising alternatives to the more conventional steam Rankine cycle and Organic Rankine Cycle (ORC) systems.The goal of thispaper is to find a common thread in the conceptual developmentof sCO2systems configurations that have been specifically conceived for waste heat recovery (WHR) applications. The analysis of thebest performing WHR configurations in the literature showthat they areall created introducinga splitter after the compression process of the simple Brayton Joul...
Waste heat to power conversion is a promising approach to reduce the carbon intensity in industry an...
In the European Industry, 275 TWh of thermal energy is rejected into the environment at temperatures...
Supercritical CO2 power systems offer significant power density advantages along with high efficienc...
The supercritical CO2 power cycle (s-CO2) is receiving much interest in the utilization of waste hea...
It is estimated that in the United States alone, enough energy is wasted in industrial applications ...
Bottoming thermodynamic systems based on supercritical carbon dioxide as working fluid (sCO(2)) are ...
The supercritical carbon dioxide (S-CO2) power cycle is a promising development for waste heat recov...
Abstract Bottoming thermodynamic systems based on supercritical carbon dioxide as working fluid (sCO...
This paper focuses on the potential of supercritical carbon dioxide closed cycle for waste heat reco...
In this article, the performance improvement of supercritical carbon dioxide (sCO2) Brayton cycles t...
Waste heat recovery (WHR) can represent a good solution to increase overall performance of energy sy...
Nowadays, the search for alternative sources for conversion of heat into power pushes towards the re...
Bottoming thermodynamic power cycles using supercritical carbon dioxide (sCO2) are a promising techn...
This thesis was submitted for the degree of Doctor of Philosophy and awarded by Brunel University Lo...
Industrial facilities release a large amount of heat as a by-product of their processes. To improve ...
Waste heat to power conversion is a promising approach to reduce the carbon intensity in industry an...
In the European Industry, 275 TWh of thermal energy is rejected into the environment at temperatures...
Supercritical CO2 power systems offer significant power density advantages along with high efficienc...
The supercritical CO2 power cycle (s-CO2) is receiving much interest in the utilization of waste hea...
It is estimated that in the United States alone, enough energy is wasted in industrial applications ...
Bottoming thermodynamic systems based on supercritical carbon dioxide as working fluid (sCO(2)) are ...
The supercritical carbon dioxide (S-CO2) power cycle is a promising development for waste heat recov...
Abstract Bottoming thermodynamic systems based on supercritical carbon dioxide as working fluid (sCO...
This paper focuses on the potential of supercritical carbon dioxide closed cycle for waste heat reco...
In this article, the performance improvement of supercritical carbon dioxide (sCO2) Brayton cycles t...
Waste heat recovery (WHR) can represent a good solution to increase overall performance of energy sy...
Nowadays, the search for alternative sources for conversion of heat into power pushes towards the re...
Bottoming thermodynamic power cycles using supercritical carbon dioxide (sCO2) are a promising techn...
This thesis was submitted for the degree of Doctor of Philosophy and awarded by Brunel University Lo...
Industrial facilities release a large amount of heat as a by-product of their processes. To improve ...
Waste heat to power conversion is a promising approach to reduce the carbon intensity in industry an...
In the European Industry, 275 TWh of thermal energy is rejected into the environment at temperatures...
Supercritical CO2 power systems offer significant power density advantages along with high efficienc...