A. B. GÜRÜK Et Al. , "Predicting process and regeneration air conditions in LT3 molecular sieve desiccant wheels using machine learning and regression methods," International Communications in Heat and Mass Transfer , vol.164, 2025
GÜRÜK, A. B. Et Al. 2025. Predicting process and regeneration air conditions in LT3 molecular sieve desiccant wheels using machine learning and regression methods. International Communications in Heat and Mass Transfer , vol.164 .
GÜRÜK, A. B., GÜZELEL, Y. E., OLMUŞ, U., Çerçi, K. N., & BÜYÜKALACA, O., (2025). Predicting process and regeneration air conditions in LT3 molecular sieve desiccant wheels using machine learning and regression methods. International Communications in Heat and Mass Transfer , vol.164.
GÜRÜK, ALPEREN Et Al. "Predicting process and regeneration air conditions in LT3 molecular sieve desiccant wheels using machine learning and regression methods," International Communications in Heat and Mass Transfer , vol.164, 2025
GÜRÜK, ALPEREN B. Et Al. "Predicting process and regeneration air conditions in LT3 molecular sieve desiccant wheels using machine learning and regression methods." International Communications in Heat and Mass Transfer , vol.164, 2025
GÜRÜK, A. B. Et Al. (2025) . "Predicting process and regeneration air conditions in LT3 molecular sieve desiccant wheels using machine learning and regression methods." International Communications in Heat and Mass Transfer , vol.164.
@article{article, author={ALPEREN BURAK GÜRÜK Et Al. }, title={Predicting process and regeneration air conditions in LT3 molecular sieve desiccant wheels using machine learning and regression methods}, journal={International Communications in Heat and Mass Transfer}, year=2025}