Master of Science in High Performance Buildings
Entrance Year Sept 2024
Programme Code 33087
Stream Code
HFM (Full-time)
HPM (Part-time)
Mode of Study Mixed Mode
Normal Duration
1 year (Full-time)
2.5 years (Part-time)
Fund Type Self-Financed
Credits Required for Graduation
30
Initial Registration Credits
12 (Full-time)
6 (Part-time)
Local Application Deadline 30 Apr 2024
Non-Local Application Deadline 30 Apr 2024
Tuition Fees
HK$6,440 per credit for local and non-local students Entry Scholarships are available. For details, please click HERE. PolyU reserves the right to change or withdraw the scholarship at any time. In case of any dispute/disagreement, PolyU’s decision is final.
Programme Leaders
Prof. Du Yaping Patrick
BSc, MSc, PhD
Remarks
This is a mixed-mode programme. Students can pursue their studies in either the full-time or part-time mode. Depending on their pace of study, students should normally be able to complete the programme full time in 1 year or part time in 2.5 years. Students are required to attend classes in the daytime and evening if they choose the full-time mode of study.
There is a provision for a Postgraduate Diploma (PgD) exit award.
Aims and Characteristics
Programme Aims
The mission of the High Performance Buildings (HPB) programme is to engage in education and research for the advancement of high performance buildings. In particular, the HPB programme provides an opportunity for students to broaden and deepen their knowledge on assessment of High Performance Buildings, which impose minimal impacts on global carbon footprints (global impacts), and facilitate optimised performance of building systems (building impacts), as well as the best indoor environments for the health and well-being of occupants.
To fulfil this mission, the High Performance Buildings programme adopts an interdisciplinary approach by linking sustainable development and high-rise building construction together with socio-economic development, focusing on climate changes, carbon footprint assessment, building services system management and optimisation, and indoor environmental quality evaluation. It is designed to cut across traditional boundaries of management, engineering and environmental sciences to take a broad view of sustainability issues. Integrating knowledge of high performance buildings and urban construction, this programme provides the most up-to-date knowledge based upon contemporary research findings.
Characteristics
The multidisciplinary nature of the programme not only offers students advanced knowledge in their specialist areas, but also expands their perspective of the broader field of building services engineering. Students can take a combination of subjects to suit their careers, and can also choose an appropriate dissertation project.
