I. Aytac Et Al. , "Improvement of Thermal Performance using Spineloxides/Water Nanofluids in the Heat Recovery Unit with Air-to-Air Thermosiphone Mechanism," INTERNATIONAL JOURNAL OF THERMOPHYSICS , vol.41, no.11, 2020
Aytac, I. Et Al. 2020. Improvement of Thermal Performance using Spineloxides/Water Nanofluids in the Heat Recovery Unit with Air-to-Air Thermosiphone Mechanism. INTERNATIONAL JOURNAL OF THERMOPHYSICS , vol.41, no.11 .
Aytac, I., SÖZEN, A., Martin, K., Filiz, C., & Ali, H. M., (2020). Improvement of Thermal Performance using Spineloxides/Water Nanofluids in the Heat Recovery Unit with Air-to-Air Thermosiphone Mechanism. INTERNATIONAL JOURNAL OF THERMOPHYSICS , vol.41, no.11.
Aytac, Ipek Et Al. "Improvement of Thermal Performance using Spineloxides/Water Nanofluids in the Heat Recovery Unit with Air-to-Air Thermosiphone Mechanism," INTERNATIONAL JOURNAL OF THERMOPHYSICS , vol.41, no.11, 2020
Aytac, Ipek Et Al. "Improvement of Thermal Performance using Spineloxides/Water Nanofluids in the Heat Recovery Unit with Air-to-Air Thermosiphone Mechanism." INTERNATIONAL JOURNAL OF THERMOPHYSICS , vol.41, no.11, 2020
Aytac, I. Et Al. (2020) . "Improvement of Thermal Performance using Spineloxides/Water Nanofluids in the Heat Recovery Unit with Air-to-Air Thermosiphone Mechanism." INTERNATIONAL JOURNAL OF THERMOPHYSICS , vol.41, no.11.
@article{article, author={Ipek Aytac Et Al. }, title={Improvement of Thermal Performance using Spineloxides/Water Nanofluids in the Heat Recovery Unit with Air-to-Air Thermosiphone Mechanism}, journal={INTERNATIONAL JOURNAL OF THERMOPHYSICS}, year=2020}