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Publications

 

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Transient free and submerged impinging jets

 

Oved, A., & Haustein, H. D. (2024). Analytical solution for the submerged free jet. Physics of Fluids, 36(3).

 

Oved, A., Kashi, B., & Haustein, H. D. (2024). New Jet impingement flow-scale sets wall approach, Proximity limits & wall-jet heat transfer. International Journal of Heat and Mass Transfer, 225, 125361.

Kashi B., Haustein H. D., "The Stagnation Point Heat Transfer Under Partially-Developed Submerged Jets", Int. J. Heat Mass Transfer, 146, 118804, 2020

Haustein H. D., Gany A., Elias E., "Multiphase Marine Ramjet Using Liquefied Gas as a Source of Bubbles", J. Marine Science Engineering, 8, 710, 2020  

Haustein H. D., Kashi B., "Distortion of Pipe-Flow Development by Boundary Layer Growth and Unconstrained Inlet Conditions", Physics of Fluids 31, 063602, 2019

 

Kashi B., Haustein H. D., "Microscale sets a Fundamental Limit to Heat Transfer", Int. Comm. in Heat and Mass Trans., 104, pp.1-7, 2019

Nimmagadda, R., Haustein, H. D., Asirvatham, L. G., & Wongwises, S. (2019). Effect of uniform/non-uniform magnetic field and jet impingement on the hydrodynamic and heat transfer performance of nanofluids. Journal of Magnetism and Magnetic Materials, 479, 268-281.‏

Kashi B.,  Haustein H. D., "Dependence of Submerged Jet Heat Transfer on Nozzle Length", International J. of Heat and Mass Transfer, 121, pp. 137–152, 2018

Kashi B*, Weinberg E *, Haustein H. D., Analytical Reexamination of the Submerged Laminar Jet’s Velocity Evolution, Physics of Fluids, 30(6), 063604, 2018

 

Kashi B., Weiberg E. and Haustein H. D. "Analytical re-examination of the submerged laminar jet’s velocity evolution", Physics of Fluids 30, 063604, 2018

Haustein H. D., Harnik R. *, Rohlfs W., "A simple hydrodynamic model of a laminar free-surface jet in horizontal or vertical flight", Physics of Fluids, 29(8):082015,1-17, 2017

Rohlfs W., Ehrenpreis C., Haustein H. D., Kneer R., "Influence of viscous flow relaxation time on self-similarity in free-surface jet impingement", International Journal of Heat and Mass Transfer 78, 435-446, 2014

Haustein H. D., Tebrügge G., Rohlfs W. and Kneer R., “Local heat transfer coefficient measurement through a visibly-transparent heater under jet-impingement cooling”, International J. of Heat and Mass Transfer, Volume 55, Issues 23–24, November 2012, Pages 6410–6424 

 

Rohlfs W., Haustein H.D., Garbrecht O., Kneer R.,  "Insights into the local heat transfer of a submerged impinging jet: Influence of local flow acceleration and vortex-wall interaction, International J. of Heat and Mass Transfer", Volume 55, Issues 25–26, December 2012, Pages 7728–7736

Microscale Cooling 

 

Gorodesky A., Rozenfeld T., Haustein H. D., Ziskind G., Flow and heat transfer analysis of hybrid cooling schemes: Adding micro-jets to a micro-gap, Int. J. of Thermal Sciences 138, pp. 367–383, 2019

Dahan M.  Komarala E.P., Fadeev L., Chinnam A.K, Shlomovich A., Lipstman S., Haustein H. D., Gozin M., and Rosen B.A., Methane Dry Reforming Catalyst Prepared by the Co-deflagration of High-nitrogen Energetic Complexes J. of Materials Chemistry A, 7 (1), pp. 141–149, 2019 (Impact Factor: 10.73, Q1, GS

Nucleate pool boiling

Lankry, A., Koyfman, A., Haustein, H. D., Nir, Y., Ziskind, G., & Bar-Kohany, T. (2024). Onset of heterogeneous nucleation in pool boiling of HFE-7100 following rapid heating on a microscale heater. Experimental Thermal and Fluid Science, 152, 111125.

 

Haustein, H. D. (2021). Corrigendum to article "A kinetics-based universal model for single bubble growth and departure in nucleate pool boiling (vol 105, pg 15, 2018)". INTERNATIONAL JOURNAL OF MULTIPHASE FLOW, 141.‏

Haustein H. D., A Kinetics-Based Universal Model for Single Bubble Growth and Departure in Nucleate Pool Boiling, International J. of Multiphase flow, 105, pp. 15-31, 2018

Haustein, H. D., Gany, A., Dietze, G. F., Elias, E., & Kneer, R. (2013). The dynamics of bubble growth at medium-high superheat: boiling in an infinite medium and on a wall. Journal of heat transfer, 135(7), 071501.‏

Falling wavy films

 

Rohlfs W., Dietze G.F., Haustein H. D. and Kneer R., “Experimental Investigations of 3-dimensional Wavy Liquid Films Under the Influence of Electrostatic Forces”, Experiments in Fluids, March 2013, Volume 219, Issue 1, pp 111-119

 

Rohlfs W., Dietze G.F., Haustein H. D., Kneer R., "Experimental Investigation of 3-Dimensional Wavy Liquid Films under the Coupled Influence of Thermo-Capillary and Electrostatic Forces", European Physics Journal – Special Topics, 219, pp. 111-119, 2013 

 

Rohlfs, W., Dietze, G. F., Haustein, H. D., Tsvelodub, O. Y., & Kneer, R. (2012). Experimental investigation into three-dimensional wavy liquid films under the influence of electrostatic forces. Experiments in fluids, 53, 1045-1056.

Rohlfs, W., Haustein, H. D., Dietze, G. F., & Kneer, R. (2011, November). Experimental and numerical investigation of falling liquid films influenced by the presence of electric fields. In Proceedings of the 6th International Berlin Workshop–IBW3 on Transport Phenomena with Moving Boundaries.

Multiphase flows & Rapid phase transfer

 

Rohlfs, W., Dietze, G. F., Haustein, H. D., & Kneer, R. (2012). Two-phase electrohydrodynamic simulations using a volume-of-fluid approach: A comment. Journal of computational physics, 231(12), 4454-4463.

Rohlfs W., Dietze G.F., Houstein H.D. and Kneer R., “Two-Phase Simulations of Electrohydrodynamics Using a Volume of Fluids Approach: A Comment”, J. of Computational physics, paper 11-00803, 2011

 

Haustein, H. D., Gany, A., & Elias, E. (2011). Study of a two-phase underwater ramjet propulsor employing liquified gas boiling. In Proceedings of the 2nd International Symposium on Marine Propulsors (pp. 50-57).

Haustein, H. D. (2009). Investigation of Bubbly Flow Creation Through Phase Change, for Application in Marine Ramjet (Doctoral dissertation, Ph. D. thesis, Technion IIT, Haifa, Israel).

Clean Energy

 

Haustein H.D., Kreitzberg T., Gövert B., Kneer R. "Investigation of gasification reaction of pulverized char under N2/CO2 atmosphere in a small-scale fluidized bed reactor", 

Journal of Energy Resources Technology 138 (4), DOI: 10.1115/1.4032791, 2016

Mueller, A., Haustein, H. D., Stoesser, P., Kreitzberg, T., Kneer, R., & Kolb, T. (2015). Gasification kinetics of biomass-and fossil-based fuels: comparison study using fluidized bed and thermogravimetric analysis. Energy & Fuels, 29(10), 6717-6723.

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