David Kukulka
David Kukulka
Professor, State University of New York College at Buffalo
Verified email at buffalostate.edu
TitleCited byYear
Thermodynamic and transport properties of pure and saline water
DJ Kukulka, B Gebhart, JC Mollendorf
Advances in Heat Transfer 18, 325-363, 1987
64*1987
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
632015
Fluid temperature and velocity effect on fouling
DJ Kukulka, M Devgun
Applied Thermal Engineering 27 (16), 2732-2744, 2007
562007
Development and evaluation of enhanced heat transfer tubes
DJ Kukulka, R Smith, KG Fuller
Applied Thermal Engineering 31 (13), 2141-2145, 2011
452011
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
322017
Factors Associated with Fouling in the Process Industry
PD Kukulka, D.J., Czechowski, H. and Kukulka
Heat Transfer Engineering 31 (9), 782-787, 2010
24*2010
Thermal-hydraulic performance of Vipertex 1EHT enhanced heat transfer tubes
DJ Kukulka, R Smith
Applied Thermal Engineering 61 (1), 60-66, 2013
232013
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
222015
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
192016
Factors associated with fouling in the process industry
DJ Kukulka, RE Baier, JC Mollendorf
Heat transfer engineering 25 (5), 23-29, 2004
192004
Evaluation of heat exchanger surface coatings
DJ Kukulka, P Leising
Applied Thermal Engineering 30 (16), 2333-2338, 2010
172010
An evaluation of heat transfer surface materials used in fouling applications
DJ Kukulka
Heat transfer engineering 26 (5), 42-46, 2005
152005
An Evaluation of Heat Transfer Surface Materials Used in Fouling Applications
DJ Kukulka
Heat Transfer Engineering 26 (5), 42-46, 2005
152005
An Evaluation of Heat Transfer Surface Materials Used in Fouling Applications
DJ Kukulka
Heat Transfer Engineering 26 (5), 42-46, 2005
152005
Fouling surface finish evaluation
DJ Kukulka, M Devgun
Applied Thermal Engineering 27 (7), 1165-1172, 2007
122007
Evaluation of the Effect of Ambient Fluid Temperature and Velocity on the Fouling of Process Surfaces
Kukulka, D.J. and Devgun, M.S.
Applied Thermal Engineering 27 (7), 1165-1172, 2007
12*2007
Fouling surface finish evaluation
MS Kukulka, D.J. and Devgun
Applied Thermal Engineering 27 (7), 1165-1172, 2007
122007
Development and evaluation of vipertex enhanced heat transfer tubes for use in fouling conditions
DJ Kukulka, R Smith, J Zaepfel
Theoretical foundations of chemical engineering 46 (6), 627-633, 2012
112012
New chill-block melt spinning relations to predict ribbon thickness
DJ Kukulka, A Poopisut, JC Mollendorf
Journal of thermophysics and heat transfer 10 (3), 545-547, 1996
111996
Evaluation of Vipertex enhanced heat transfer tubes under fouling conditions
DJ Kukulka, R Smith, J Zaepfel
Chemical Engineering Transactions 25 (1), 665-670, 2011
92011
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