Publikationer av Tianhao Xu
Refereegranskade
Artiklar
[1]
Santos, A., Duarte, W., Barbieri, P., Machado, L., Xu, T. & Paulino, T. (2024). Air Conditioning System Integrated with Thermal Energy Storage for Buildings in Tropical Climates. Processes, 12(11).
[2]
Konig-Haagen, A., Hoehlein, S., Lazaro, A., Delgado, M., Diarce, G., Groulx, D. ... Gamisch, S. (2023). Analysis of the discharging process of latent heat thermal energy storage units by means of normalized power parameters. Journal of Energy Storage, 72.
[3]
Xu, T., Nyholm Humire, E., Trevisan, S., Ignatowicz, M., Sawalha, S. & Chiu, J. NW. (2022). Experimental and numerical investigation of a latent heat thermal energy storage unit with ellipsoidal macro-encapsulation. Energy, 238.
[4]
Xu, T., Nyholm Humire, E., Chiu, J. N. & Sawalha, S. (2021). Latent heat storage integration into heat pump based heating systems forenergy-efficient load shifting. Energy Conversion and Management, 236(114042).
[5]
Xu, T., Gkoutzamanis, V. G., Dong, H., Muhammad, Y., Efstathiadis, T. G., Kalfas, A. I. ... Chiu, J. N. (2021). Performance evaluation of three latent heat storage designs for cogeneration applications. Solar Energy, 225, 444-462.
[6]
Xu, T., Nyholm Humire, E., Chiu, N.-W. & Sawalha, S. (2020). Numerical thermal performance investigation of a latent heat storage prototype toward effective use in residential heating systems. Applied Energy, 278.
[7]
Xu, T., Gunasekara, S. N., Chiu, J. N., Palm, B. & Sawalha, S. (2020). Thermal behavior of a sodium acetate trihydrate-based PCM : T-history and full-scale tests. Applied Energy, 261.
[8]
Khan, M., Zhao, N. & Xu, T. (2019). Assessment of PECM as an efficient numerical analysis tool for investigating convective heat transfer phenomena during PCM melting. Journal of Energy Storage, 24, 100743.
[9]
Xu, T., Chiu, J. N., Palm, B. & Sawalha, S. (2019). Experimental investigation on cylindrically macro-encapsulated latent heat storage for space heating applications. Energy Conversion and Management, 182, 166-177.
Konferensbidrag
[10]
Xu, T., Hao, Y., Sawalha, S. (2019). Comparing integrating configurations of latent heat storage in heat pump heating systems. I Proceedings of the 25th IIR International Congress of Refrigeration. (s. 4883-4890). International Institute of Refrigeration.
[11]
Xu, T., Gkoutzamanis, V. G., Muhammad, Y., Efstathiadis, T. G., Gunasekara, S. N., Kalfas, A. I., Laumert, B., Chiu, J. N. (2019). Design Aspects of a Latent Heat Storage Unit for Heat Production Shifting at a Cogeneration Plant. I SWC2019 Proceedings..
[12]
Xu, T., Navarro-Peris, E., Piscopiello, S., Sawalha, S., Corberán, J. M., Palm, B. (2018). Large-Capacity Propane Heat Pumps for DHW Production in Residential Buildings. I Refrigeration Science and Technology. (s. 1222-1230). Valencia, Spain.
[13]
Xu, T., Sawalha, S., Mazzotti, W., Björn, P. (2016). Performance Evaluation of a Large Capacity Air-Water Heat Pump Using Propane as Refrigerant. Presenterad vid 12th IIR-Gustav Lorentzen Conference on Natural Refrigerants - GL2016, 21/08/2016 - 24/08/2016, UK. International Institute of Refrigeration.
Icke refereegranskade
Avhandlingar
[14]
Xu, T. (2021). Integrating Latent Heat Storage into Residential Heating Systems : A study from material and component characterization to system analysis (Doktorsavhandling , KTH Royal Institute of Technology, Stockholm Sweden, TRITA-ITM-AVL 2021:15). Hämtad från http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-293768.
Övriga
[15]
Xu, T., Nyholm Humire, E., Trevisan, S., Ignatowicz, M., Sawalha, S., Chiu, J. N. (). Experimental and Numerical Investigation of a Latent Heat Thermal Energy Storage Unit with Ellipsoidal Macro-encapsulation. (Manuskript).
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2025-06-29 00:45:40 UTC