ÖZKAYA, B. Et Al. 2008. Biologically Fe2+ oxidizing fluidized bed reactor performance and controlling of Fe3+ recycle during heap bioleaching: an artificial neural network-based model. BIOPROCESS AND BIOSYSTEMS ENGINEERING , vol.31, no.2 , 111-117.

ÖZKAYA, B., Şahinkaya, E., Nurmi, P., Kaksonen, A., & Puhakka, J., (2008). Biologically Fe2+ oxidizing fluidized bed reactor performance and controlling of Fe3+ recycle during heap bioleaching: an artificial neural network-based model. BIOPROCESS AND BIOSYSTEMS ENGINEERING , vol.31, no.2, 111-117.

ÖZKAYA, Bestami Et Al. "Biologically Fe2+ oxidizing fluidized bed reactor performance and controlling of Fe3+ recycle during heap bioleaching: an artificial neural network-based model," BIOPROCESS AND BIOSYSTEMS ENGINEERING , vol.31, no.2, 111-117, 2008

ÖZKAYA, Bestami Et Al. "Biologically Fe2+ oxidizing fluidized bed reactor performance and controlling of Fe3+ recycle during heap bioleaching: an artificial neural network-based model." BIOPROCESS AND BIOSYSTEMS ENGINEERING , vol.31, no.2, pp.111-117, 2008

ÖZKAYA, B. Et Al. (2008) . "Biologically Fe2+ oxidizing fluidized bed reactor performance and controlling of Fe3+ recycle during heap bioleaching: an artificial neural network-based model." BIOPROCESS AND BIOSYSTEMS ENGINEERING , vol.31, no.2, pp.111-117.

@article{article, author={Bestami ÖZKAYA Et Al. }, title={Biologically Fe2+ oxidizing fluidized bed reactor performance and controlling of Fe3+ recycle during heap bioleaching: an artificial neural network-based model}, journal={BIOPROCESS AND BIOSYSTEMS ENGINEERING}, year=2008, pages={111-117} }