A model for a pumped thermal energy storage system is presented. It is based on a Brayton cycle working successively as a heat pump and a heat engine. All the main irreversibility sources expected in real plants are considered: external losses arising from the heat transfer between the working fluid and the thermal reservoirs, internal losses coming from pressure decays, and losses in the turbomachinery. Temperatures considered for the numerical analysis are adequate for solid thermal reservoirs, such as a packed bed. Special emphasis is paid to the combination of parameters and variables that lead to physically acceptable configurations. Maximum values of efficiencies, including round-trip efficiency, are obtained and analyzed, and optimal...
The development of cost-efficient, environmentally friendly, and reliable technologies for utility-s...
Power to heat technologies are a necessary solution for future development of renewable energy syste...
The expected performance of an innovative Pumped Thermal Energy Storage (PTES) system based on a clo...
The increasing use of renewable energy technologies for electricity generation, many of which have a...
The growth of renewable energy source requires reliable, durable and cheap storage technologies. In ...
The irreversible cycle model of a regenerative modified complex Brayton cycle has been established f...
The increasing use of renewable energy technologies for electricity generation, many of which have a...
[EN]A multi-objective and multi-parametric optimization of a Pumped Thermal Electricity Storage syst...
AbstractA thermodynamic model for an open inverse Brayton cycle (refrigeration or heat pump cycle) w...
A general irreversible cycle model is used to investigate the optimal performance of a class of heat...
The thermoeconomic study of an irreversible Ericsson heat engine with finite heat capacities of the ...
A pervasive Renewable Energy Source (RES) exploitation poses a wide range of issues to electric grid...
Several of the emerging technologies for electricity storage are based on some form of thermal energ...
With regard to large-scale electricity storage systems, the concept of Pumped Thermal Energy Storage...
Pumped thermal energy storage (PTES) and liquid air energy storage (LAES) are two technologies that ...
The development of cost-efficient, environmentally friendly, and reliable technologies for utility-s...
Power to heat technologies are a necessary solution for future development of renewable energy syste...
The expected performance of an innovative Pumped Thermal Energy Storage (PTES) system based on a clo...
The increasing use of renewable energy technologies for electricity generation, many of which have a...
The growth of renewable energy source requires reliable, durable and cheap storage technologies. In ...
The irreversible cycle model of a regenerative modified complex Brayton cycle has been established f...
The increasing use of renewable energy technologies for electricity generation, many of which have a...
[EN]A multi-objective and multi-parametric optimization of a Pumped Thermal Electricity Storage syst...
AbstractA thermodynamic model for an open inverse Brayton cycle (refrigeration or heat pump cycle) w...
A general irreversible cycle model is used to investigate the optimal performance of a class of heat...
The thermoeconomic study of an irreversible Ericsson heat engine with finite heat capacities of the ...
A pervasive Renewable Energy Source (RES) exploitation poses a wide range of issues to electric grid...
Several of the emerging technologies for electricity storage are based on some form of thermal energ...
With regard to large-scale electricity storage systems, the concept of Pumped Thermal Energy Storage...
Pumped thermal energy storage (PTES) and liquid air energy storage (LAES) are two technologies that ...
The development of cost-efficient, environmentally friendly, and reliable technologies for utility-s...
Power to heat technologies are a necessary solution for future development of renewable energy syste...
The expected performance of an innovative Pumped Thermal Energy Storage (PTES) system based on a clo...