Experiment study on the performance of the tri-mode thermosiphon beam
Thermosiphon beams is part of the integrated system of Air conditioning and Mechanical Ventila tion (ACMV) The main objective of an ACMV thermosiphon beam is to provide environmental comfort without having to consume a lot of energy in a cl osed spaced environment. In the past, one o f technolog...
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| Format: | Final Year Project |
| Language: | English |
| Published: |
Nanyang Technological University
2021
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| Online Access: | https://hdl.handle.net/10356/148960 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | Thermosiphon beams is
part of the integrated system of Air conditioning and Mechanical
Ventila tion (ACMV) The main objective of an ACMV thermosiphon beam is to provide
environmental comfort without having to consume a lot of energy in a cl osed spaced
environment. In the past, one o f technologies of ACMV system include the active chilled
beam to pr ovide thermal comfort, however the major drawback of such system was the
huge number of energy requirement of the building and such technology has limited
pe rformance in hot and humid regio n countries. Hence in order to overcome such
drawback, group of eng ineer and scientist from the top University at Nanyang
Technological University has developed new technology which potentially able to
provide the rmal comfor t while maintaining the cos t and energy building consumption.
The new technology is known as Tri Mo de Thermosiphon Beam (TMTB) and this thesis
describes the basic phenomena, experimental setup and detailed working principal of
TMTB. It consists of the test that were conducted at Ene rgy R esearch Institute Lab at
NTU , and the raw data were measured by hig h accuracy sensis devices and logged and
represented in BSTAR. The result are validated with appropriate graphical
representation |
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