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David Kukulka
David Kukulka
Professor, State University of New York College at Buffalo
Verified email at buffalostate.edu
Title
Cited by
Cited by
Year
Condensation and evaporation heat transfer characteristics in horizontal smooth, herringbone and enhanced surface EHT tubes
S Guo, Z Wu, W Li, D Kukulka, B Sundén, X Zhou, J Wei, T Simon
International Journal of Heat and Mass Transfer 85, 281-291, 2015
1282015
Development and evaluation of enhanced heat transfer tubes
DJ Kukulka, R Smith, KG Fuller
Applied Thermal Engineering 31 (13), 2141-2145, 2011
922011
Fluid temperature and velocity effect on fouling
DJ Kukulka, M Devgun
Applied Thermal Engineering 27 (16), 2732-2744, 2007
872007
Experimental study on condensation and evaporation flow inside horizontal three dimensional enhanced tubes
W Li, JX Chen, H Zhu, DJ Kukulka, WJ Minkowycz
International Communications in Heat and Mass Transfer 80, 30-40, 2017
602017
Thermodynamic and transport properties of pure and saline water
DJ Kukulka, B Gebhart, JC Mollendorf
Advances in Heat Transfer 18, 325-363, 1987
491987
Thermodynamic and transport properties of pure and saline water
DJ Kukulka, B Gebhart, JC Mollendorf
Advances in Heat Transfer 18, 325-363, 1987
491987
Comparison of tubeside condensation and evaporation characteristics of smooth and enhanced heat transfer 1EHT tubes
DJ Kukulka, R Smith, W Li
Applied Thermal Engineering 89, 1079-1086, 2015
462015
Thermal-hydraulic performance of Vipertex 1EHT enhanced heat transfer tubes
DJ Kukulka, R Smith
Applied Thermal Engineering 61 (1), 60-66, 2013
452013
Comparison of condensation and evaporation heat transfer on the outside of smooth and enhanced 1EHT tubes
DJ Kukulka, R Smith, W Li
Applied Thermal Engineering 105, 913-922, 2016
342016
Convective condensation in three enhanced tubes with different surface modifications
W Li, W Tang, J Chen, H Zhu, DJ Kukulka, Y He, Z Sun, J Du, B Zhang
Experimental Thermal and Fluid Science 97, 79-88, 2018
322018
Thermodynamic and transport properties of pure and saline water
DJ Kukulka
State University of New York at Buffalo, 1981
251981
An Evaluation of Heat Transfer Surface Materials Used in Fouling Applications
DJ Kukulka
Heat Transfer Engineering 26 (5), 42-46, 2005
232005
Evaluation of heat exchanger surface coatings
DJ Kukulka, P Leising
Applied thermal engineering 30 (16), 2333-2338, 2010
222010
Flow boiling heat transfer characteristics in horizontal, three-dimensional enhanced tubes
ZC Sun, X Ma, LX Ma, W Li, DJ Kukulka
Energies 12 (5), 927, 2019
212019
Condensation heat transfer in horizontal three dimensional two-layer two-side enhanced tubes
Z Sun, W Li, R Guo, Y He, DJ Kukulka
International Journal of Heat and Mass Transfer 127, 141-145, 2018
212018
R410A flow condensation inside two dimensional micro-fin tubes and three dimensional dimple tubes
W Li, J Wang, Y Guo, Q Shi, Y He, DJ Kukulka, X Luo, S Kabelac
International Journal of Heat and Mass Transfer 182, 121910, 2022
202022
Intensification of Heat Transfer Processes
OPA Petro O.Kapustenko, David J. Kukulka
Chemical Engineering Transactions 45, 1729-1734, 2015
20*2015
Factors associated with fouling in the process industry
DJ Kukulka, RE Baier, JC Mollendorf
Heat transfer engineering 25 (5), 23-29, 2004
202004
Two-phase heat transfer of R410A in annuli outside enhanced tubes with micro-fin and dimple
W Li, J Wang, Y Guo, Z Gu, X Wang, Z Sun, W Tang, DJ Kukulka
International Journal of Heat and Mass Transfer 175, 121370, 2021
192021
Heat transfer evaluation of an enhanced heat transfer tube bundle
DJ Kukulka, R Smith
Energy 75, 97-103, 2014
192014
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