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Experimental and numerical study of the effect of integrating plus-shaped perforated baffles to solar air collector in drying application
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A. Khanlari Et Al. , "Experimental and numerical study of the effect of integrating plus-shaped perforated baffles to solar air collector in drying application," RENEWABLE ENERGY , vol.145, pp.1677-1692, 2020

Khanlari, A. Et Al. 2020. Experimental and numerical study of the effect of integrating plus-shaped perforated baffles to solar air collector in drying application. RENEWABLE ENERGY , vol.145 , 1677-1692.

Khanlari, A., Guler, H. O., Tuncer, A. D., Sirin, C., Bilge, Y. C., YILMAZ, Y., ... GÜNGÖR, A.(2020). Experimental and numerical study of the effect of integrating plus-shaped perforated baffles to solar air collector in drying application. RENEWABLE ENERGY , vol.145, 1677-1692.

Khanlari, Ataollah Et Al. "Experimental and numerical study of the effect of integrating plus-shaped perforated baffles to solar air collector in drying application," RENEWABLE ENERGY , vol.145, 1677-1692, 2020

Khanlari, Ataollah Et Al. "Experimental and numerical study of the effect of integrating plus-shaped perforated baffles to solar air collector in drying application." RENEWABLE ENERGY , vol.145, pp.1677-1692, 2020

Khanlari, A. Et Al. (2020) . "Experimental and numerical study of the effect of integrating plus-shaped perforated baffles to solar air collector in drying application." RENEWABLE ENERGY , vol.145, pp.1677-1692.

@article{article, author={Ataollah Khanlari Et Al. }, title={Experimental and numerical study of the effect of integrating plus-shaped perforated baffles to solar air collector in drying application}, journal={RENEWABLE ENERGY}, year=2020, pages={1677-1692} }