Add to ORKGThe paper presents an efficiency analysis of two transcritical CO2 power cycles with regenerative heaters. For the proposed cycles, calculations of thermal efficiency are given for selected values of operating parameters. It was assumed that the highest working temperature and pressure are in the range from 600 to 700°C and 40 to 50 MPa, respectively. The purpose of the calculations was optimization of the pressure and mass flows in the regenerative heaters to achieve maximum cycle efficiency. It follows that for the assumed upper CO2 parameters, efficiency of 51-54% can be reached, which is comparable to the efficiency of a supercritical advanced power cycle considered by Dostal
Compared with the conventional Rankine cycle, the CO2 transcritical power cycle gives a higher therm...
Transcritical carbon dioxide Rankine cycle (TCRC) has a potential to convert low grade heat source i...
It is estimated that in the United States alone, enough energy is wasted in industrial applications ...
The paper presents an efficiency analysis of two transcritical CO2 power cycles with regenerative he...
Efficiency is a key parameter used to assess the quality of operation of power generation systems an...
Several authors have reported in the literature the benefits of transcritical carbon dioxide regener...
This paper deals with thermodynamic optimization of supercritical CO2 recompression and partial cool...
The supercritical carbon dioxide (S-CO2) power cycle is a promising development for waste heat recov...
The supercritical CO2 power cycle (s-CO2) is receiving much interest in the utilization of waste hea...
This study aims to provide a thermodynamic comparison between supercritical CO2 cycles and ORC cycle...
Abstract Bottoming thermodynamic systems based on supercritical carbon dioxide as working fluid (sCO...
CO2, which is a stable power cycle working fluid, is used in the power cycle system, with the advant...
In CO2 cycles with high-temperature heat sources that are used in applications such as nuclear power...
Bottoming thermodynamic systems based on supercritical carbon dioxide as working fluid (sCO(2)) are ...
The supercritical CO2 is used as working fluid for power system cycle. This paper presents thermodyn...
Compared with the conventional Rankine cycle, the CO2 transcritical power cycle gives a higher therm...
Transcritical carbon dioxide Rankine cycle (TCRC) has a potential to convert low grade heat source i...
It is estimated that in the United States alone, enough energy is wasted in industrial applications ...
The paper presents an efficiency analysis of two transcritical CO2 power cycles with regenerative he...
Efficiency is a key parameter used to assess the quality of operation of power generation systems an...
Several authors have reported in the literature the benefits of transcritical carbon dioxide regener...
This paper deals with thermodynamic optimization of supercritical CO2 recompression and partial cool...
The supercritical carbon dioxide (S-CO2) power cycle is a promising development for waste heat recov...
The supercritical CO2 power cycle (s-CO2) is receiving much interest in the utilization of waste hea...
This study aims to provide a thermodynamic comparison between supercritical CO2 cycles and ORC cycle...
Abstract Bottoming thermodynamic systems based on supercritical carbon dioxide as working fluid (sCO...
CO2, which is a stable power cycle working fluid, is used in the power cycle system, with the advant...
In CO2 cycles with high-temperature heat sources that are used in applications such as nuclear power...
Bottoming thermodynamic systems based on supercritical carbon dioxide as working fluid (sCO(2)) are ...
The supercritical CO2 is used as working fluid for power system cycle. This paper presents thermodyn...
Compared with the conventional Rankine cycle, the CO2 transcritical power cycle gives a higher therm...
Transcritical carbon dioxide Rankine cycle (TCRC) has a potential to convert low grade heat source i...
It is estimated that in the United States alone, enough energy is wasted in industrial applications ...