A regenerative Brayton & Inverse Brayton cycle has been already proposed to improve the thermal efficiency of the standard Brayton cycle as a Brayton &Inverse Brayton cycle did. All processes in the bottoming cycle take place at sub-atmospheric pressure. A new arrangement of the processes has been introduced in the present study to decrease the flow rate through the bottoming cycle. The new arrangement of the processes also performs an atmospheric exhaust airflow through the regenerator. Thermal performance of the new cycle is compared with that in the original regenerative Brayton & Inverse Brayton cycle. Performances of the two cycles are compared at different pressure-ratios of the compressors. Calculated results show that the th...
Supercritical carbon dioxide (S-CO2) Brayton cycles (BC) are soon to be a competitive and environmen...
The exergy efficiency of three standard thermodynamic cycles, i.e., Brayton, Rankine and Otto cycles...
A mathematical model is developed for an irreversible Brayton cycle with regeneration, inter-cooling...
Following increasing demand in energy consumption, there is a need to continue to study energy gener...
A thermodynamic model of an open combined regenerative Brayton and inverse Brayton cycles with regen...
AbstractThis paper proposes combined regenerative Brayton and two parallel inverse Brayton cycles wi...
Recovery of the low-temperature waste heat for electricity generation has been gaining a significant...
The exergetic investigation of a simple cycle gas turbine process shows that the main losses are fou...
Abstract: The power and efficiency of the open combined Brayton and two parallel inverse Brayton cyc...
Abstract: The study presented in this article examined the thermodynamic performance of a proposed s...
This work presents a configuration of two regenerators in parallel for a power generation Brayton/Ra...
The idea is to find out whether 2nd law efficiency optimization may be a suitable trade-off between ...
In this paper, thermodynamic analysis of a proposed innovative double Brayton cycle with the use of ...
AbstractThis paper presents an open reversed Brayton cycle with regeneration (ORBCR) using moist air...
AbstractA thermodynamic model for an open inverse Brayton cycle (refrigeration or heat pump cycle) w...
Supercritical carbon dioxide (S-CO2) Brayton cycles (BC) are soon to be a competitive and environmen...
The exergy efficiency of three standard thermodynamic cycles, i.e., Brayton, Rankine and Otto cycles...
A mathematical model is developed for an irreversible Brayton cycle with regeneration, inter-cooling...
Following increasing demand in energy consumption, there is a need to continue to study energy gener...
A thermodynamic model of an open combined regenerative Brayton and inverse Brayton cycles with regen...
AbstractThis paper proposes combined regenerative Brayton and two parallel inverse Brayton cycles wi...
Recovery of the low-temperature waste heat for electricity generation has been gaining a significant...
The exergetic investigation of a simple cycle gas turbine process shows that the main losses are fou...
Abstract: The power and efficiency of the open combined Brayton and two parallel inverse Brayton cyc...
Abstract: The study presented in this article examined the thermodynamic performance of a proposed s...
This work presents a configuration of two regenerators in parallel for a power generation Brayton/Ra...
The idea is to find out whether 2nd law efficiency optimization may be a suitable trade-off between ...
In this paper, thermodynamic analysis of a proposed innovative double Brayton cycle with the use of ...
AbstractThis paper presents an open reversed Brayton cycle with regeneration (ORBCR) using moist air...
AbstractA thermodynamic model for an open inverse Brayton cycle (refrigeration or heat pump cycle) w...
Supercritical carbon dioxide (S-CO2) Brayton cycles (BC) are soon to be a competitive and environmen...
The exergy efficiency of three standard thermodynamic cycles, i.e., Brayton, Rankine and Otto cycles...
A mathematical model is developed for an irreversible Brayton cycle with regeneration, inter-cooling...