Optimización de la eficiencia térmica de un motor robinson aplicando el modelo senft-schmidt-petrescu

Ignacio Carvajal; Georgiy Polupan; Guillermo Jarquin; Jorge Vázquez

doi:10.4067/S0718-07642013000300010

Optimización de la eficiencia térmica de un motor robinson aplicando el modelo senft-schmidt-petrescu

Translated title of the contribution: Optimization of the thermal efficiency of a robinson engine applying the senft-schmidt-petrescu model

Ignacio Carvajal, Georgiy Polupan, Guillermo Jarquin, Jorge Vázquez

Escuela Superior de Ingeniería Mecánica y Eléctrica (ESIME), Unidad Zacatenco

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

The results of the optimization of the thermal efficiency of a Robinson engine applying the Senft-Petrescu-Schmidt model are presented. This is based on the coupling of the Senft-Schmidt and the Petrescu models, used for the calculation of power in Stirling cycle engines. The proposed model involves both thermodynamic and geometric parameters and allows estimating the overall pressure losses by friction and by flow throttling. Based on data from a prototype of a Robinson engine of about 2 W of power, a theoretical analysis of its main parameters and the optimization of thermal efficiency, based on the minimum entropy generation, were performed. After the optimization was done, the thermal efficiency of the engine increased to more than the double. It is concluded that the proposed Senft-Schmidt-Petrescu model may be useful in the analysis and redesign of Robinson engines.

Translated title of the contribution	Optimization of the thermal efficiency of a robinson engine applying the senft-schmidt-petrescu model
Original language	Spanish
Pages (from-to)	85-94
Number of pages	10
Journal	Informacion Tecnologica
Volume	24
Issue number	3
DOIs	https://doi.org/10.4067/S0718-07642013000300010
State	Published - 2013

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title = "Optimizaci{\'o}n de la eficiencia t{\'e}rmica de un motor robinson aplicando el modelo senft-schmidt-petrescu",

abstract = "The results of the optimization of the thermal efficiency of a Robinson engine applying the Senft-Petrescu-Schmidt model are presented. This is based on the coupling of the Senft-Schmidt and the Petrescu models, used for the calculation of power in Stirling cycle engines. The proposed model involves both thermodynamic and geometric parameters and allows estimating the overall pressure losses by friction and by flow throttling. Based on data from a prototype of a Robinson engine of about 2 W of power, a theoretical analysis of its main parameters and the optimization of thermal efficiency, based on the minimum entropy generation, were performed. After the optimization was done, the thermal efficiency of the engine increased to more than the double. It is concluded that the proposed Senft-Schmidt-Petrescu model may be useful in the analysis and redesign of Robinson engines.",

keywords = "Mathematical model, Optimization, Robinson engine, Thermal efficiency",

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AU - Polupan, Georgiy

AU - Jarquin, Guillermo

AU - Vázquez, Jorge

PY - 2013

Y1 - 2013

N2 - The results of the optimization of the thermal efficiency of a Robinson engine applying the Senft-Petrescu-Schmidt model are presented. This is based on the coupling of the Senft-Schmidt and the Petrescu models, used for the calculation of power in Stirling cycle engines. The proposed model involves both thermodynamic and geometric parameters and allows estimating the overall pressure losses by friction and by flow throttling. Based on data from a prototype of a Robinson engine of about 2 W of power, a theoretical analysis of its main parameters and the optimization of thermal efficiency, based on the minimum entropy generation, were performed. After the optimization was done, the thermal efficiency of the engine increased to more than the double. It is concluded that the proposed Senft-Schmidt-Petrescu model may be useful in the analysis and redesign of Robinson engines.

AB - The results of the optimization of the thermal efficiency of a Robinson engine applying the Senft-Petrescu-Schmidt model are presented. This is based on the coupling of the Senft-Schmidt and the Petrescu models, used for the calculation of power in Stirling cycle engines. The proposed model involves both thermodynamic and geometric parameters and allows estimating the overall pressure losses by friction and by flow throttling. Based on data from a prototype of a Robinson engine of about 2 W of power, a theoretical analysis of its main parameters and the optimization of thermal efficiency, based on the minimum entropy generation, were performed. After the optimization was done, the thermal efficiency of the engine increased to more than the double. It is concluded that the proposed Senft-Schmidt-Petrescu model may be useful in the analysis and redesign of Robinson engines.

KW - Mathematical model

KW - Optimization

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DO - 10.4067/S0718-07642013000300010

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Optimización de la eficiencia térmica de un motor robinson aplicando el modelo senft-schmidt-petrescu

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