A. A. Ozalp, "Laminar-transitional micropipe flows: energy and exergy mechanisms based on Reynolds number, pipe diameter, surface roughness and wall heat flux," HEAT AND MASS TRANSFER , vol.48, no.1, pp.17-34, 2012
Ozalp, A. A. 2012. Laminar-transitional micropipe flows: energy and exergy mechanisms based on Reynolds number, pipe diameter, surface roughness and wall heat flux. HEAT AND MASS TRANSFER , vol.48, no.1 , 17-34.
Ozalp, A. A., (2012). Laminar-transitional micropipe flows: energy and exergy mechanisms based on Reynolds number, pipe diameter, surface roughness and wall heat flux. HEAT AND MASS TRANSFER , vol.48, no.1, 17-34.
Ozalp, ABDURRAHMAN. "Laminar-transitional micropipe flows: energy and exergy mechanisms based on Reynolds number, pipe diameter, surface roughness and wall heat flux," HEAT AND MASS TRANSFER , vol.48, no.1, 17-34, 2012
Ozalp, ABDURRAHMAN A. . "Laminar-transitional micropipe flows: energy and exergy mechanisms based on Reynolds number, pipe diameter, surface roughness and wall heat flux." HEAT AND MASS TRANSFER , vol.48, no.1, pp.17-34, 2012
Ozalp, A. A. (2012) . "Laminar-transitional micropipe flows: energy and exergy mechanisms based on Reynolds number, pipe diameter, surface roughness and wall heat flux." HEAT AND MASS TRANSFER , vol.48, no.1, pp.17-34.
@article{article, author={ABDURRAHMAN ALPER ÖZALP}, title={Laminar-transitional micropipe flows: energy and exergy mechanisms based on Reynolds number, pipe diameter, surface roughness and wall heat flux}, journal={HEAT AND MASS TRANSFER}, year=2012, pages={17-34} }