Air-conditioning & mechanical ventilation systems in construction industry
Buildings consume 30–40% of the total electric energy. Implementing a recreation based on central air framework operation, better interior natural components design, and tenant behavior can reduce indoor pollution. These measures can be employed with multiscale simulations to track the central...
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2023
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sg-ntu-dr.10356-1690412023-07-01T16:51:41Z Air-conditioning & mechanical ventilation systems in construction industry Maung,Thura Aung Xiao Zhongmin School of Mechanical and Aerospace Engineering MZXIAO@ntu.edu.sg Engineering::Mechanical engineering Buildings consume 30–40% of the total electric energy. Implementing a recreation based on central air framework operation, better interior natural components design, and tenant behavior can reduce indoor pollution. These measures can be employed with multiscale simulations to track the central air-frame long-term viability and energy demands. Intelligent building development and management require a sensing system. To achieve this goal, a clear and strict legislative framework for carbon emission reduction, sustainability promotion, and the use of renewable energy is required. Data and communication technology connected to building structures (so- called "smart structures") improve energy management. Modern hygiene and health considerations have elevated building occupant safety. In the current study, several ventilation methods are evaluated and compared for energy efficiency and environmental impact using the life cycle assessment method. Certain ventilation system designs, implementation law and policy are examined. The mechanical ventilation requirements are analyzed. We aim at solving the complex energy efficiency-indoor air quality conundrum. Eco-friendly power structures have heating and cooling ventilation frameworks. This ensures energy reform and reduces ozone-depleting chemicals. The mechanical ventilation systems of Singapore's public are under investigation. When PVs are added, the framework provides a new viewpoint on the building's environmental effect and energy savings. Environmental assessment software OpenLca supports Life Cycle Evaluation is used to help our study. In hot, humid Singapore, cutting-edge building projects require ACMV systems. The design, installation, and maintenance of ACMV are discussed. Its importance to Singapore's building industry is analyzed. We then delves into ACMV system development variables such climate, building purpose, energy efficiency, etc. ACMV systems need frequent maintenance to work well and endure as long as possible. The predictive, corrective, and preventive maintenance benefits of ACMV are discussed. The dissertation provides an overview of ACMV systems and how they are employed in Singapore's building industry, which helps solve commonly encountered industry problems such as increasing electricity costs and the need fto meet environmentally-friend design requirements. Master of Science (Mechanical Engineering) 2023-06-27T07:32:24Z 2023-06-27T07:32:24Z 2023 Thesis-Master by Coursework Maung, T. A. (2023). Air-conditioning & mechanical ventilation systems in construction industry. Master's thesis, Nanyang Technological University, Singapore. https://hdl.handle.net/10356/169041 https://hdl.handle.net/10356/169041 en application/pdf Nanyang Technological University |
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Engineering::Mechanical engineering Maung,Thura Aung Air-conditioning & mechanical ventilation systems in construction industry |
| description |
Buildings consume 30–40% of the total electric energy. Implementing a recreation
based on central air framework operation, better interior natural components design,
and tenant behavior can reduce indoor pollution. These measures can be employed
with multiscale simulations to track the central air-frame long-term viability and
energy demands. Intelligent building development and management require a sensing
system. To achieve this goal, a clear and strict legislative framework for carbon
emission reduction, sustainability promotion, and the use of renewable energy is
required. Data and communication technology connected to building structures (so-
called "smart structures") improve energy management. Modern hygiene and health
considerations have elevated building occupant safety.
In the current study, several ventilation methods are evaluated and compared for
energy efficiency and environmental impact using the life cycle assessment method.
Certain ventilation system designs, implementation law and policy are examined. The
mechanical ventilation requirements are analyzed. We aim at solving the complex
energy efficiency-indoor air quality conundrum. Eco-friendly power structures have
heating and cooling ventilation frameworks. This ensures energy reform and reduces
ozone-depleting chemicals. The mechanical ventilation systems of Singapore's public
are under investigation. When PVs are added, the framework provides a new
viewpoint on the building's environmental effect and energy savings. Environmental
assessment software OpenLca supports Life Cycle Evaluation is used to help our
study. In hot, humid Singapore, cutting-edge building projects require ACMV
systems. The design, installation, and maintenance of ACMV are discussed. Its
importance to Singapore's building industry is analyzed. We then delves into ACMV
system development variables such climate, building purpose, energy efficiency, etc.
ACMV systems need frequent maintenance to work well and endure as long as
possible. The predictive, corrective, and preventive maintenance benefits of ACMV
are discussed. The dissertation provides an overview of ACMV systems and how they
are employed in Singapore's building industry, which helps solve commonly
encountered industry problems such as increasing electricity costs and the need fto
meet environmentally-friend design requirements. |
| author2 |
Xiao Zhongmin |
| author_facet |
Xiao Zhongmin Maung,Thura Aung |
| format |
Thesis-Master by Coursework |
| author |
Maung,Thura Aung |
| author_sort |
Maung,Thura Aung |
| title |
Air-conditioning & mechanical ventilation systems in construction industry |
| title_short |
Air-conditioning & mechanical ventilation systems in construction industry |
| title_full |
Air-conditioning & mechanical ventilation systems in construction industry |
| title_fullStr |
Air-conditioning & mechanical ventilation systems in construction industry |
| title_full_unstemmed |
Air-conditioning & mechanical ventilation systems in construction industry |
| title_sort |
air-conditioning & mechanical ventilation systems in construction industry |
| publisher |
Nanyang Technological University |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/169041 |
| _version_ |
1772825943434330112 |