Course Overview
Domain
Engineering
Format
Modular Certification Course
Duration
3+ months
Fee Subsidy
Up to 90% SF Funding
Buildings, including industrial and commercial buildings, consume 45% of total electricity generation from the main grid or other local generations, leading to global warming and a significant high CO2 emission to the environment.
Almost 50% of building energy consumption is attributed to air conditioning systems. In a tropical region like Singapore, space cooling is essential for industrial or commercial buildings throughout the year to improve productivity, comfort level and indoor air quality. As chiller plants are essential part of the buildings and consume significant amount of energy, this module focuses on the fundamental of chiller plants and its associated components such as blowers, fans, piping network and ducting networks.
Operation of chiller plant is also paramount to optimize the energy consumption in the buildings, and thus selection of chiller plays a considerable role in such energy efficient operation of the plant. In addition, water system and air system also contribute part of chiller plant’s energy efficiency.
This module focuses on the chiller plants and includes the following sub-topics:
- Fundamental of chiller plants and its associated components
- Selection of chillers
- Water side circulation system
- Fundamental of cooling towers and its operation
- Chiller selection and chiller plant design consideration
- Minimizing the energy consumption of chiller plant
Who Should Attend
- Associate engineers
- Specialist in facility management
- BIM modeller (MEP)
- BIM manager
- Assistant design engineer (HVAC)
- Assistant manager (building sustainability)
- Assistant design manager (environmental sustainability)
Prerequisites
- Candidate should possess a post polytechnic diploma qualification
- Candidate must have at least two years of relevant working experience in the built environment, engineering, information technology industry
What You Will Learn
- Design HVAC water systems for providing effective air conditioning in buildings
- Analyse the components of the vapor compression system
- Demonstrate the performance of a cooling tower
- Analyse the key design concerns in refrigeration
- Analyses the overall performance of a chiller plant
Teaching Team
Aung Myat
Associate Professor, Engineering, Singapore Institute of Technology
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Schedule
| Course Run | Dates |
|---|---|
| May - Aug 2023 Run | 3 May - 6 Aug 2023 (Exact schedule TBC) |
Certificate and Assessment
A Certificate of Participation will be issued to participants who:
- Attend 75% of the course
- Undertake non-credit bearing assessment (during course)
A Certificate of Attainment for each module will be issued to participants who:
- Attend at least 75% of each respective module; and
- Participants who pass the Continuous Assessment
Fee Structure
The full fee for this course is S$2,741.35.
| Category | After SF Funding |
|---|---|
| Singapore Citizen (Below 40) | S$822.40 |
| Singapore Citizen (40 & Above) | S$319.40 |
| Singapore PR / LTVP+ Holder | S$822.40 |
| Non-Singapore Citizen | S$2,741.35 (No Funding) |
Note: All fees above include GST. GST applies to individuals and Singapore-registered companies.
Course Runs
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