E. AÇIKKALP Et Al. , "Assessment of nano-scale Stirling refrigerator using working fluid as Maxwell–Boltzmann gases by thermo-ecological and sustainability criteria," Chemical Physics Letters , vol.658, pp.303-308, 2016
AÇIKKALP, E. Et Al. 2016. Assessment of nano-scale Stirling refrigerator using working fluid as Maxwell–Boltzmann gases by thermo-ecological and sustainability criteria. Chemical Physics Letters , vol.658 , 303-308.
AÇIKKALP, E., SAVAŞ, A. F., CANER, N., & YAMIK, H., (2016). Assessment of nano-scale Stirling refrigerator using working fluid as Maxwell–Boltzmann gases by thermo-ecological and sustainability criteria. Chemical Physics Letters , vol.658, 303-308.
AÇIKKALP, EMİN Et Al. "Assessment of nano-scale Stirling refrigerator using working fluid as Maxwell–Boltzmann gases by thermo-ecological and sustainability criteria," Chemical Physics Letters , vol.658, 303-308, 2016
AÇIKKALP, EMİN Et Al. "Assessment of nano-scale Stirling refrigerator using working fluid as Maxwell–Boltzmann gases by thermo-ecological and sustainability criteria." Chemical Physics Letters , vol.658, pp.303-308, 2016
AÇIKKALP, E. Et Al. (2016) . "Assessment of nano-scale Stirling refrigerator using working fluid as Maxwell–Boltzmann gases by thermo-ecological and sustainability criteria." Chemical Physics Letters , vol.658, pp.303-308.
@article{article, author={EMİN AÇIKKALP Et Al. }, title={Assessment of nano-scale Stirling refrigerator using working fluid as Maxwell–Boltzmann gases by thermo-ecological and sustainability criteria}, journal={Chemical Physics Letters}, year=2016, pages={303-308} }