Add to ORKGSmall amounts of useful power may be generated in polar or subpolar regions during the winter period by placing a heat engine between a large body of water (near 0 degrees C), acting as a heat source, and the atmosphere (near -25 degrees C), acting as a heat sink. The scheme consists of a fuelless modular system operating on the Carnot cycle. Power is extracted by a reciprocating vapour engine drawing saturated vapour from a water-heated evaporator and exhausting to an air-cooled condenser from which nearly saturated liquid is returned to the evaporator using a reciprocating feed pump. The thermal performance model incorporates both the engine cycle power and the parasitic losses, the latter being incurred as a result of circulating the wor...
ENGLISH ABSTRACT: The global demand for energy has risen dramatically in recent years and the cost o...
Adaptations of the Rankine cycle to new applications are described. The first move has been to incre...
The cost-effective utilisation of low-grade thermal energy with temperatures below 150 C for electri...
The growth of renewable energy requires flexible, low-cost and efficient electrical storage systems ...
Today, most of the electricity produced throughout the world is from steam power plants. However, el...
peer reviewedThe growth of renewable energy requires flexible, low-cost and efficient electrical sto...
Production of electricity from heat requires a heat engine working between two heat reservoirs, a he...
Combined heat and power (CHP or cogeneration) describes the simultaneous generation of electrical po...
Carnot established in 1824 that the efficiency of cyclic engines operating between a hot bath at abs...
Providing reliable power services to remote Arctic and Antarctic locations presents a formidable tas...
As a part of the change towards a higher usage of renewable energy sources, which naturally deliver ...
Currently, in publications, there is some controversy about the efficiency of various powersupply sy...
thermodynamic efficiency The first low-temperature difference Stirling engine was presented at the I...
Low grade thermal energy with low temperatures of up to 150° C occurs e.g. as waste heat or waste st...
Low grade thermal energy with low temperatures of up to 150° C occurs e.g. as waste heat or waste st...
ENGLISH ABSTRACT: The global demand for energy has risen dramatically in recent years and the cost o...
Adaptations of the Rankine cycle to new applications are described. The first move has been to incre...
The cost-effective utilisation of low-grade thermal energy with temperatures below 150 C for electri...
The growth of renewable energy requires flexible, low-cost and efficient electrical storage systems ...
Today, most of the electricity produced throughout the world is from steam power plants. However, el...
peer reviewedThe growth of renewable energy requires flexible, low-cost and efficient electrical sto...
Production of electricity from heat requires a heat engine working between two heat reservoirs, a he...
Combined heat and power (CHP or cogeneration) describes the simultaneous generation of electrical po...
Carnot established in 1824 that the efficiency of cyclic engines operating between a hot bath at abs...
Providing reliable power services to remote Arctic and Antarctic locations presents a formidable tas...
As a part of the change towards a higher usage of renewable energy sources, which naturally deliver ...
Currently, in publications, there is some controversy about the efficiency of various powersupply sy...
thermodynamic efficiency The first low-temperature difference Stirling engine was presented at the I...
Low grade thermal energy with low temperatures of up to 150° C occurs e.g. as waste heat or waste st...
Low grade thermal energy with low temperatures of up to 150° C occurs e.g. as waste heat or waste st...
ENGLISH ABSTRACT: The global demand for energy has risen dramatically in recent years and the cost o...
Adaptations of the Rankine cycle to new applications are described. The first move has been to incre...
The cost-effective utilisation of low-grade thermal energy with temperatures below 150 C for electri...