A. SARI Et Al. , "Capric-stearic acid mixture impregnated carbonized waste sugar beet pulp as leak-resistive composite phase change material with effective thermal conductivity and thermal energy storage performance," ENERGY , vol.247, 2022
SARI, A. Et Al. 2022. Capric-stearic acid mixture impregnated carbonized waste sugar beet pulp as leak-resistive composite phase change material with effective thermal conductivity and thermal energy storage performance. ENERGY , vol.247 .
SARI, A., HEKİMOĞLU, G., Karabayir, Y., Sharma, R. K., ARSLANOĞLU, H., Gencel, O., ... Tyagi, V. V.(2022). Capric-stearic acid mixture impregnated carbonized waste sugar beet pulp as leak-resistive composite phase change material with effective thermal conductivity and thermal energy storage performance. ENERGY , vol.247.
SARI, AHMET Et Al. "Capric-stearic acid mixture impregnated carbonized waste sugar beet pulp as leak-resistive composite phase change material with effective thermal conductivity and thermal energy storage performance," ENERGY , vol.247, 2022
SARI, AHMET Et Al. "Capric-stearic acid mixture impregnated carbonized waste sugar beet pulp as leak-resistive composite phase change material with effective thermal conductivity and thermal energy storage performance." ENERGY , vol.247, 2022
SARI, A. Et Al. (2022) . "Capric-stearic acid mixture impregnated carbonized waste sugar beet pulp as leak-resistive composite phase change material with effective thermal conductivity and thermal energy storage performance." ENERGY , vol.247.
@article{article, author={AHMET SARI Et Al. }, title={Capric-stearic acid mixture impregnated carbonized waste sugar beet pulp as leak-resistive composite phase change material with effective thermal conductivity and thermal energy storage performance}, journal={ENERGY}, year=2022}