Mr. Hasan Jubaer

Mr. Hasan Jubaer

Doctor of Philosophy Student
Department of Chemical Engineering
Room 225, Building 36, 18 Alliance Lane, Clayton Campus

Hasan Jubaer obtained his Bachelor Degree as well as Masters in Process Engineering and Energy Technology from Bremerhaven University of Applied Sciences in Germany. In 2012, he started working as a researcher at the Leibniz Institute for Agricultural Engineering and Bioeconomy (ATB-Potsdam), on the advancement of industrial drying methods. His research focus was on the development and optimization of efficient drying techniques with and without the application of heat pumps based on process modelling. He joined Monash University on 31 October 2016 as a PhD candidate in the department of Chemical Engineering. His project focuses on modelling of spray drying processes using computational fluid dynamics (CFD) and is a part of the Australia-China Joint Research Centre in Future Dairy Manufacturing. His main supervisor is Assoc. Prof. Meng Wai Woo.

  • Jubaer, H., Afshar, S., Mejean, S., Jeantet, R., Xiao, J., Chen, X. D., Selomulya, C., & Woo, M. W. (2020). Computationally inexpensive simulation of agglomeration in spray drying while preserving structure related information using CFD. Powder Technology, 372, 372-393. DOI: 10.1016/j.powtec.2020.05.111
  • Jubaer, H., Afshar, S., Le Maout, G., Mejean, S., Selomulya, C., Xiao, J., Chen, X. D., Jeantet, R. & Woo, M. W. (2020). The impact of self-sustained oscillations on particle residence time in a commercial scale spray dryer. Powder Technology, 360, 1177-1191. doi:10.1016/j.powtec.2019.11.023
  • Jubaer, H., Dai, R., Ruslim, E., Mansouri, S., Shan, Z., & Woo, M. W. (2019). New perspectives on capturing particle agglomerates in CFD modeling of spray dryers. Drying Technology, 1-10. doi:10.1080/07373937.2019.1691585
  • Xia, Y., Hou, Q., Jubaer, H., Li, Y., Kang, Y., Yuan, S., Liu, H., Woo, M. W., Zhang, L., Gao, L., Wang, H., & Zhang, X. (2019). Spatially isolating salt crystallisation from water evaporation for continuous solar steam generation and salt harvesting. Energy & Environmental Science, 12(6), 1840-1847. doi:10.1039/C9EE00692C
  • Jubaer, H., Xiao, J., Chen, X. D., Selomulya, C., & Woo, M. W. (2019). Identification of regions in a spray dryer susceptible to forced agglomeration by CFD simulations. Powder Technology, 346, 23-37. doi:10.1016/j.powtec.2019.01.088
  • Eghlimi, A., Jubaer, H., Surmiak, A., & Bach, U. (2019). Developing a Safe and Versatile Chemiluminescence Demonstration for Studying Reaction Kinetics. Journal of Chemical Education, 96(3), 522-527. doi:10.1021/acs.jchemed.8b00614
  • Jubaer, H., Afshar, S., Xiao, J., Chen, X. D., Selomulya, C., & Woo, M. W. (2019). On the effect of turbulence models on CFD simulations of a counter-current spray drying process. Chemical Engineering Research and Design, 141: 592-607. DOI: 10.1016/j.cherd.2018.11.024.
  • Jubaer, H., Afshar, S., Xiao, J., Chen, X. D., Selomulya, C., & Woo, M. W. (2018). On the importance of droplet shrinkage in CFD-modeling of spray drying. Drying Technology, 36(15), 1785-1801. doi:10.1080/07373937.2017.1349791
  • Ziegler, T., Jubaer, H., & Schütz, M. (2016). Increasing the Energy Efficiency of Batch-Type Drying with Partial Air Recirculation. Chemie Ingenieur Technik, 88(1‐2), 208-214. doi:10.1002/cite.201400150.
  • Ziegler, T., Jubaer, H., & Mellmann, J. (2013). Simulation of a Heat Pump Dryer for Medicinal Plants. Chemie Ingenieur Technik, 85(3), 353-363. doi:10.1002/cite.201200123.
Last modified: 09/10/2020