TÜRETGEN, İ. 2020. Reduction of Biofilm Formation on Cooling Tower Heat Exchangers using Nano-silica Coating Environmentally sustainable antifouling coating demonstrated on stainless steel heat exchanger tubes. JOHNSON MATTHEY TECHNOLOGY REVIEW , vol.64, no.4 , 419-424.

TÜRETGEN, İ., (2020). Reduction of Biofilm Formation on Cooling Tower Heat Exchangers using Nano-silica Coating Environmentally sustainable antifouling coating demonstrated on stainless steel heat exchanger tubes. JOHNSON MATTHEY TECHNOLOGY REVIEW , vol.64, no.4, 419-424.

TÜRETGEN, İrfan. "Reduction of Biofilm Formation on Cooling Tower Heat Exchangers using Nano-silica Coating Environmentally sustainable antifouling coating demonstrated on stainless steel heat exchanger tubes," JOHNSON MATTHEY TECHNOLOGY REVIEW , vol.64, no.4, 419-424, 2020

TÜRETGEN, İrfan. "Reduction of Biofilm Formation on Cooling Tower Heat Exchangers using Nano-silica Coating Environmentally sustainable antifouling coating demonstrated on stainless steel heat exchanger tubes." JOHNSON MATTHEY TECHNOLOGY REVIEW , vol.64, no.4, pp.419-424, 2020

TÜRETGEN, İ. (2020) . "Reduction of Biofilm Formation on Cooling Tower Heat Exchangers using Nano-silica Coating Environmentally sustainable antifouling coating demonstrated on stainless steel heat exchanger tubes." JOHNSON MATTHEY TECHNOLOGY REVIEW , vol.64, no.4, pp.419-424.

@article{article, author={İrfan TÜRETGEN}, title={Reduction of Biofilm Formation on Cooling Tower Heat Exchangers using Nano-silica Coating Environmentally sustainable antifouling coating demonstrated on stainless steel heat exchanger tubes}, journal={JOHNSON MATTHEY TECHNOLOGY REVIEW}, year=2020, pages={419-424} }