• Engineering

    • Heat Transfer
    • Fluid
  • Physics

    • Liquids
    • Simulation
    • Impingement
    • Cooling
    • Model
    • Region



  • Self-employedConsultancy service
  • Self-employedConsultant and dealer for PV components and renewable energy systems


Integration of booster heat pumps in ultra-low temperature district heating network: Prototype demonstration and refrigerant charge investigationEnergy and buildings, 298, Article 113516. Zhu, T., Du, Y., Liang, J., Rohlfs, W., Eric Thorsen, J. & Elmegaard, B. of protuberant structure on coalescence-induced jumping of droplets on superhydrophobic surfacesPhysics of fluids, 35(8), Article 082105. Wang, Y., Rohlfs, W. & Kneer, R. Heat Transfer Mechanisms in Laminar Flows: From JetImpingement to Micro-scale PhenomenaIn Proceedings of the 17th International Heat Transfer Conference, IHTC-17. Rohlfs, W.HeatQuiz: Combining Flipped-Classroom, Game-Based Learning, and Systematic Problem Analysis in Heat Transfer EducationIn Proceedings of the 17th International Heat Transfer Conference, IHTC-17. Rohlfs, W., Venner, C. H., Alarouri, M., Kuiphuis, D. J. G. & Kneer, R.A heat pump system for simultaneous comfort floor cooling and domestic hot waterIn 14th IEA Heat Pump Conference 2023. Zhu, T., Liang, J., Thorsen, J. E., Gudmundsson, O., Rohlfs, W. & Elmegaard, B.Game-based learning apps in engineering education: requirements, design and reception among studentsEuropean journal of engineering education, 48(3), 448-481. Jacobs, E., Garbrecht, O., Kneer, R. & Rohlfs, W. thermal conductivity simulations of suspensions containing non-spherical particles in shear flowInternational journal of heat and mass transfer, 204, Article 123808. Shu, Q., Pan, L., Kneer, R., Rietz, M. & Rohlfs, W.



Universiteit Twente

Horst Complex (gebouwnr. 20), kamer N234
De Horst 2
7522 LW Enschede

Navigeer naar locatie


Scan de QR-code of
Download vCard