Add to ORKGInvented in 1816, the hot-air engines have known significant commercial success in the nineteenth century, before falling into disuse. Nowadays they enjoy a renewed interest for some specific applications. The "hot-air engines" family is made up of two groups: Stirling engines and Ericsson engines. The operating principle of Stirling and Ericsson engines, their troubled history, their advantages and their niche applications are briefly presented, especially in the field of micro-combined heat and power, solar energy conversion and biomass energy conversion. The design of an open cycle Ericsson engine for solar application is proposed. A first prototype of the hot part of the engine has been built and tested. Experimental results are p...
Stirling cycle engines have been suggested as an environmentally safe alternative to internal combus...
AbstractThis paper presents and discusses the design and first prototype realization for a brand new...
In this paper the authors compare and contrast open and closed-cycle heat engines. First of all, by ...
In the current energy context, we attend the development of technologies of production of "clean" en...
In the relevant literature there are many types of heat engines. One of those is the group of the so...
One of the solutions without negative consequences for the increasing energy consumption in the worl...
Engines are common devices which are important sources of power to run several devices in modern soc...
Avec l'épuisement des ressources naturelles, notamment les sources d’énergies fossiles, les énergies...
oai:ojs.karya-ilmiah.um.ac.id:article/83482The attractive performance of Stirling engine attains gre...
Copyright © 2014 Peter Durcansky et al. This is an open access article distributed under the Creativ...
Yüksek Lisans TeziGiderek büyümekte olan enerji ihtiyacının daha ucuz ve çevreyi kirletmeyecek yolla...
The Stirling engine is both practically and theoretically a significant device,its practical virtue ...
The Stirling engine is an external combustion engine that uses heat exchangers to enhance the additi...
In this paper, a comparison of exergetic models between two hot air engines (a Gamma type Stirling p...
An Ericsson engine is an external heat supply engine working according to a Joule thermodynamic cycl...
Stirling cycle engines have been suggested as an environmentally safe alternative to internal combus...
AbstractThis paper presents and discusses the design and first prototype realization for a brand new...
In this paper the authors compare and contrast open and closed-cycle heat engines. First of all, by ...
In the current energy context, we attend the development of technologies of production of "clean" en...
In the relevant literature there are many types of heat engines. One of those is the group of the so...
One of the solutions without negative consequences for the increasing energy consumption in the worl...
Engines are common devices which are important sources of power to run several devices in modern soc...
Avec l'épuisement des ressources naturelles, notamment les sources d’énergies fossiles, les énergies...
oai:ojs.karya-ilmiah.um.ac.id:article/83482The attractive performance of Stirling engine attains gre...
Copyright © 2014 Peter Durcansky et al. This is an open access article distributed under the Creativ...
Yüksek Lisans TeziGiderek büyümekte olan enerji ihtiyacının daha ucuz ve çevreyi kirletmeyecek yolla...
The Stirling engine is both practically and theoretically a significant device,its practical virtue ...
The Stirling engine is an external combustion engine that uses heat exchangers to enhance the additi...
In this paper, a comparison of exergetic models between two hot air engines (a Gamma type Stirling p...
An Ericsson engine is an external heat supply engine working according to a Joule thermodynamic cycl...
Stirling cycle engines have been suggested as an environmentally safe alternative to internal combus...
AbstractThis paper presents and discusses the design and first prototype realization for a brand new...
In this paper the authors compare and contrast open and closed-cycle heat engines. First of all, by ...