Micro-cogeneration, specifically the simultaneous generation of thermal and electrical energy in residential buildings below 10 kWe provides an attractive option to reduce the environmental burden. In particular Stirling engines, originally invented in the year 1816, are emerging on the market to challenge conventional oil- or gas-powered heating systems. Characteristic strengths of external combustion engines are their high energy efficiency, low emissions, fuel flexibility, and operation with low noise and vibration. However, viable operation regarding primary energy demand, C02 emissions, and economic costs requires a carefully optimised operational strategy that is sensitive to the energy mix, building type, and climate. A whole-bui...
AbstractMicro-cogeneration Stirling engines are promising for residential applications. This work fo...
Micro-cogeneration Stirling engines are promising for residential applications. This work focuses on...
AbstractMicro-cogeneration Stirling engines are considered promising for residential applications. T...
Micro-cogeneration offers numerous potential advantages for the supply of energy to residential buil...
The interest on decentralized power generation technology has been drastically increasing in the las...
In this paper, we evaluate the viability of a 9.5-kW e wooden pellet-fueled Stirling engine-based mi...
International audienceMicro-Combined Heat and Power (µCHP) is a technology allowing to produce distr...
The provision of heat and power to dwellings from micro-cogeneration systems is gaining credence aro...
Stirling engines (SE) are a market-ready technology suitable for residential cogeneration of heat an...
In order for the constantly increasing demand for electricity to be met, while preserving our natura...
The work deals with an innovative micro-combined heat and power (micro-CHP) unit based on Stirling e...
Addressing the challenge of climate change requires the large-scale development of significant renew...
© 20xx IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
One of the most promising projects in the application of combined heat and power(CHP) lies in energy...
AbstractMicro-cogeneration Stirling engines are promising for residential applications. This work fo...
Micro-cogeneration Stirling engines are promising for residential applications. This work focuses on...
AbstractMicro-cogeneration Stirling engines are considered promising for residential applications. T...
Micro-cogeneration offers numerous potential advantages for the supply of energy to residential buil...
The interest on decentralized power generation technology has been drastically increasing in the las...
In this paper, we evaluate the viability of a 9.5-kW e wooden pellet-fueled Stirling engine-based mi...
International audienceMicro-Combined Heat and Power (µCHP) is a technology allowing to produce distr...
The provision of heat and power to dwellings from micro-cogeneration systems is gaining credence aro...
Stirling engines (SE) are a market-ready technology suitable for residential cogeneration of heat an...
In order for the constantly increasing demand for electricity to be met, while preserving our natura...
The work deals with an innovative micro-combined heat and power (micro-CHP) unit based on Stirling e...
Addressing the challenge of climate change requires the large-scale development of significant renew...
© 20xx IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
One of the most promising projects in the application of combined heat and power(CHP) lies in energy...
AbstractMicro-cogeneration Stirling engines are promising for residential applications. This work fo...
Micro-cogeneration Stirling engines are promising for residential applications. This work focuses on...
AbstractMicro-cogeneration Stirling engines are considered promising for residential applications. T...