SÖZEN, A. Et Al. 2020. UPGRADING THE PERFORMANCE OF HEAT RECOVERY UNIT CONTAINING HEAT PIPES BY USING A HYBRID (CuO plus ZnO)/WATER NANOFLUID. HEAT TRANSFER RESEARCH , vol.51, no.14 , 1289-1300.

SÖZEN, A., Martin, K., Aytac, I., & Filiz, C., (2020). UPGRADING THE PERFORMANCE OF HEAT RECOVERY UNIT CONTAINING HEAT PIPES BY USING A HYBRID (CuO plus ZnO)/WATER NANOFLUID. HEAT TRANSFER RESEARCH , vol.51, no.14, 1289-1300.

SÖZEN, ADNAN Et Al. "UPGRADING THE PERFORMANCE OF HEAT RECOVERY UNIT CONTAINING HEAT PIPES BY USING A HYBRID (CuO plus ZnO)/WATER NANOFLUID," HEAT TRANSFER RESEARCH , vol.51, no.14, 1289-1300, 2020

SÖZEN, ADNAN Et Al. "UPGRADING THE PERFORMANCE OF HEAT RECOVERY UNIT CONTAINING HEAT PIPES BY USING A HYBRID (CuO plus ZnO)/WATER NANOFLUID." HEAT TRANSFER RESEARCH , vol.51, no.14, pp.1289-1300, 2020

SÖZEN, A. Et Al. (2020) . "UPGRADING THE PERFORMANCE OF HEAT RECOVERY UNIT CONTAINING HEAT PIPES BY USING A HYBRID (CuO plus ZnO)/WATER NANOFLUID." HEAT TRANSFER RESEARCH , vol.51, no.14, pp.1289-1300.

@article{article, author={ADNAN SÖZEN Et Al. }, title={UPGRADING THE PERFORMANCE OF HEAT RECOVERY UNIT CONTAINING HEAT PIPES BY USING A HYBRID (CuO plus ZnO)/WATER NANOFLUID}, journal={HEAT TRANSFER RESEARCH}, year=2020, pages={1289-1300} }