AbstractA thermodynamic model for an open inverse Brayton cycle (refrigeration or heat pump cycle) with pressure drop irreversibilities is established. There are seven flow resistances (or pressure drops) encountered by the working fluid stream for the inverse Brayton cycle. Two of these, the friction through the blades and vanes of the compressor and the expander, are related to the isentropic efficiencies. The remaining flow resistances are always present because of the changes in flow cross-section at the compressor inlet and outlet, heat exchanger inlets and outlets and expander inlet and outlet. The analytical formulae about the cooling load of refrigeration cycle, the heating load of heat pump cycle and other coefficients are derived,...
Following increasing demand in energy consumption, there is a need to continue to study energy gener...
AbstractThis paper presents an open reversed Brayton cycle with regeneration (ORBCR) using moist air...
The idea is to find out whether 2nd law efficiency optimization may be a suitable trade-off between ...
AbstractA thermodynamic model for an open inverse Brayton cycle (refrigeration or heat pump cycle) w...
A thermodynamic model of an open combined regenerative Brayton and inverse Brayton cycles with regen...
Abstract: The power and efficiency of the open combined Brayton and two parallel inverse Brayton cyc...
The irreversible cycle model of a regenerative modified complex Brayton cycle has been established f...
A mathematical model is developed for an irreversible Brayton cycle with regeneration, inter-cooling...
A model for a pumped thermal energy storage system is presented. It is based on a Brayton cycle work...
The air-reversed Brayton cycle produces charming, environmentally friendly effects by using air as i...
A general irreversible cycle model is used to investigate the optimal performance of a class of heat...
A regenerative Brayton & Inverse Brayton cycle has been already proposed to improve the thermal ...
A Brayton cycle with, external and internal irreversibilities, is analyzed. Optimization of the dime...
To help the reverse Brayton cycle cool the refrigerant from 100 K to 50 K, an auxiliary generator, w...
Abstract: The study presented in this article examined the thermodynamic performance of a proposed s...
Following increasing demand in energy consumption, there is a need to continue to study energy gener...
AbstractThis paper presents an open reversed Brayton cycle with regeneration (ORBCR) using moist air...
The idea is to find out whether 2nd law efficiency optimization may be a suitable trade-off between ...
AbstractA thermodynamic model for an open inverse Brayton cycle (refrigeration or heat pump cycle) w...
A thermodynamic model of an open combined regenerative Brayton and inverse Brayton cycles with regen...
Abstract: The power and efficiency of the open combined Brayton and two parallel inverse Brayton cyc...
The irreversible cycle model of a regenerative modified complex Brayton cycle has been established f...
A mathematical model is developed for an irreversible Brayton cycle with regeneration, inter-cooling...
A model for a pumped thermal energy storage system is presented. It is based on a Brayton cycle work...
The air-reversed Brayton cycle produces charming, environmentally friendly effects by using air as i...
A general irreversible cycle model is used to investigate the optimal performance of a class of heat...
A regenerative Brayton & Inverse Brayton cycle has been already proposed to improve the thermal ...
A Brayton cycle with, external and internal irreversibilities, is analyzed. Optimization of the dime...
To help the reverse Brayton cycle cool the refrigerant from 100 K to 50 K, an auxiliary generator, w...
Abstract: The study presented in this article examined the thermodynamic performance of a proposed s...
Following increasing demand in energy consumption, there is a need to continue to study energy gener...
AbstractThis paper presents an open reversed Brayton cycle with regeneration (ORBCR) using moist air...
The idea is to find out whether 2nd law efficiency optimization may be a suitable trade-off between ...