S. Ozarslan Et Al. , "Modeling and simulation of co-digestion performance with artificial neural network for prediction of methane production from tea factory waste with co-substrate of spent tea waste," FUEL , vol.306, 2021
Ozarslan, S. Et Al. 2021. Modeling and simulation of co-digestion performance with artificial neural network for prediction of methane production from tea factory waste with co-substrate of spent tea waste. FUEL , vol.306 .
Ozarslan, S., Abut, S., Atelge, M. R., Kaya, M., & ÜNALAN, S., (2021). Modeling and simulation of co-digestion performance with artificial neural network for prediction of methane production from tea factory waste with co-substrate of spent tea waste. FUEL , vol.306.
Ozarslan, Saliha Et Al. "Modeling and simulation of co-digestion performance with artificial neural network for prediction of methane production from tea factory waste with co-substrate of spent tea waste," FUEL , vol.306, 2021
Ozarslan, Saliha Et Al. "Modeling and simulation of co-digestion performance with artificial neural network for prediction of methane production from tea factory waste with co-substrate of spent tea waste." FUEL , vol.306, 2021
Ozarslan, S. Et Al. (2021) . "Modeling and simulation of co-digestion performance with artificial neural network for prediction of methane production from tea factory waste with co-substrate of spent tea waste." FUEL , vol.306.
@article{article, author={Saliha Ozarslan Et Al. }, title={Modeling and simulation of co-digestion performance with artificial neural network for prediction of methane production from tea factory waste with co-substrate of spent tea waste}, journal={FUEL}, year=2021}