GONCA, G. 2017. Application of a Novel Thermo-Ecological Performance Criterion: Effective Ecological Power Density (EFECPOD) To a Joule-Brayton Cycle (JBC) Turbine. Journal of Thermal Engineering , vol.3 , 1478-1488.

GONCA, G., (2017). Application of a Novel Thermo-Ecological Performance Criterion: Effective Ecological Power Density (EFECPOD) To a Joule-Brayton Cycle (JBC) Turbine. Journal of Thermal Engineering , vol.3, 1478-1488.

GONCA, Güven. "Application of a Novel Thermo-Ecological Performance Criterion: Effective Ecological Power Density (EFECPOD) To a Joule-Brayton Cycle (JBC) Turbine," Journal of Thermal Engineering , vol.3, 1478-1488, 2017

GONCA, Güven. "Application of a Novel Thermo-Ecological Performance Criterion: Effective Ecological Power Density (EFECPOD) To a Joule-Brayton Cycle (JBC) Turbine." Journal of Thermal Engineering , vol.3, pp.1478-1488, 2017

GONCA, G. (2017) . "Application of a Novel Thermo-Ecological Performance Criterion: Effective Ecological Power Density (EFECPOD) To a Joule-Brayton Cycle (JBC) Turbine." Journal of Thermal Engineering , vol.3, pp.1478-1488.

@article{article, author={Güven GONCA}, title={Application of a Novel Thermo-Ecological Performance Criterion: Effective Ecological Power Density (EFECPOD) To a Joule-Brayton Cycle (JBC) Turbine}, journal={Journal of Thermal Engineering}, year=2017, pages={1478-1488} }