Ozel, G. Et Al. 2017. Optimum insulation thickness for piping system using exergy and environmental methods. INTERNATIONAL JOURNAL OF GLOBAL WARMING , vol.11, no.1 , 107-123.

Ozel, G., AÇIKKALP, E., GÖRGÜN, B., YAMIK, H., & CANER, N., (2017). Optimum insulation thickness for piping system using exergy and environmental methods. INTERNATIONAL JOURNAL OF GLOBAL WARMING , vol.11, no.1, 107-123.

Ozel, Gulcan Et Al. "Optimum insulation thickness for piping system using exergy and environmental methods," INTERNATIONAL JOURNAL OF GLOBAL WARMING , vol.11, no.1, 107-123, 2017

Ozel, Gulcan Et Al. "Optimum insulation thickness for piping system using exergy and environmental methods." INTERNATIONAL JOURNAL OF GLOBAL WARMING , vol.11, no.1, pp.107-123, 2017

Ozel, G. Et Al. (2017) . "Optimum insulation thickness for piping system using exergy and environmental methods." INTERNATIONAL JOURNAL OF GLOBAL WARMING , vol.11, no.1, pp.107-123.

@article{article, author={Gulcan Ozel Et Al. }, title={Optimum insulation thickness for piping system using exergy and environmental methods}, journal={INTERNATIONAL JOURNAL OF GLOBAL WARMING}, year=2017, pages={107-123} }