Dr Ji Wang

Dr Ji Wang

Teaching Assistant

School of Electrical and Mechanical Engineering

Faculty of Sciences, Engineering and Technology

  • Journals
    Year Citation
    2023 Zhao, C., Opolot, M., Keane, P., Wang, J., Liu, M., Bruno, F., . . . Hooman, K. (2023). Thermal characteristics of melting of a phase change material enhanced by a stainless-steel 304 periodic structure. Energy Storage and Saving, 2(2), 442-448.
    DOI
    2023 Wang, J., Evans, M., Belusko, M., Zhao, C., Liu, M., & Bruno, F. (2023). Subcooling effect on the optimal performance for a transcritical CO<inf>2</inf> heat pump with cold thermal energy storage. Heat and Mass Transfer/Waerme- und Stoffuebertragung, 59(7), 1257-1275.
    DOI WoS1
    2022 Zhao, C., Sun, Y., Wang, J., & Hooman, K. (2022). The applicability of volume-averaging method to simulate melting in a multi-scaled periodic structure. Energy, 248, 13 pages.
    DOI Scopus5 WoS4
    2022 Zhao, C., Opolot, M., Liu, M., Wang, J., Bruno, F., Mancin, S., & Hooman, K. (2022). Periodic structures for melting enhancement: observation of critical cell size and localized melting. International Journal of Heat and Mass Transfer, 195, 14 pages.
    DOI Scopus1 WoS1
    2022 Wang, J., Belusko, M., Semsarilar, H., Evans, M., Liu, M., & Bruno, F. (2022). An optimisation study on a real-world transcritical CO<inf>2</inf> heat pump system with a flash gas bypass. Energy Conversion and Management, 251, 14 pages.
    DOI Scopus5 WoS3
    2022 Zhao, C., Opolot, M., Liu, M., Wang, J., Bruno, F., Mancin, S., & Hooman, K. (2022). Review of analytical studies of melting rate enhancement with fin and/or foam inserts. APPLIED THERMAL ENGINEERING, 207, 24 pages.
    DOI Scopus20 WoS18
    2022 Wang, J., Belusko, M., Evans, M., Liu, M., Zhao, C., & Bruno, F. (2022). A comprehensive review and analysis on CO<inf>2</inf> heat pump water heaters. Energy Conversion and Management: X, 15, 100277.
    DOI Scopus4
    2021 Wang, J., Belusko, M., Liu, M., Semsarilar, H., Liddle, R., Alemu, A., . . . Bruno, F. (2021). A comprehensive study on a novel transcritical CO<inf>2</inf> heat pump for simultaneous space heating and cooling – Concepts and initial performance. Energy Conversion and Management, 243, 12 pages.
    DOI Scopus16 WoS12
    2020 Wang, J., Eric, H., Antoni, B., & Akram, E. (2020). Investigation on the long-term performance of solar thermal powered adsorption refrigeration system based on hourly accumulated daily cycles. Heat and mass transfer, 57(2), 361-375.
    DOI Scopus8 WoS4
    2018 Wang, J., Hu, E., Blazewicz, A., & Ezzat, A. (2018). Simulation of accumulated performance of a solar thermal powered adsorption refrigeration system with daily climate conditions. Energy, 165, 487-498.
    DOI Scopus9 WoS7

  • Conference Papers
    Year Citation
    2022 Wang, J., Belusko, M., Semsarilar, H., Evans, M., Liu, M., & Bruno, F. (2022). Investigating the effect of interstage pressure on cooling performance of a real-world CO2 heat pump system. In IOP Conference Series: Earth and Environmental Science Vol. 983 (pp. 012077). Online: IOP Publishing.
    DOI Scopus1
    2021 Wang, J., Belusko, M., Liu, M., Evans, M., Alemu, A., & Bruno, F. (2021). PRELIMINARY STUDY ON A NOVEL TRANSCRITICAL CO2 HIGH-TEMPERATURE HEAT PUMP. In International Seminar on ORC Power Systems.

  • Theses
    Year Citation
    2022 Wang, J. (2022). Study on transcritical CO2 heat pumps for simultaneous heating and cooling. (PhD Thesis, University of South Australia).
    2019 Wang, J. (2019). Study on Accumulated Performance of a Solar Thermal Powered Adsorption Refrigeration System. (Master's Thesis, The University of Adelaide).
  • Position: Teaching Assistant
  • Email: ji.wang@adelaide.edu.au
  • Campus: North Terrace
  • Building: Engineering South, floor Second Floor
  • Room: S216
  • Org Unit: School of Electrical and Mechanical Engineering
Connect With Me
External Profiles