Investigation of radiant panel cooling systems for sensible cooling in air conditioning
The report describes an investigation on the possible implementation of the radiant panel cooling systems in the hot and humid Singapore climate. The project is based on the simulation modeling of a conventional chilled water cooling system and the radiant panel cooling system, in the form...
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| Other Authors: | |
| Format: | Final Year Project |
| Language: | English |
| Published: |
2009
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| Subjects: | |
| Online Access: | http://hdl.handle.net/10356/17080 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | The report describes an investigation on the possible implementation of the radiant
panel cooling systems in the hot and humid Singapore climate. The project is based
on the simulation modeling of a conventional chilled water cooling system and the
radiant panel cooling system, in the form of the active chilled beam systems, in
cooling a single storey office space comprising a total area of 1225 m2. The wellknown
TRNSYS program was used to simulate the radiant panels and cooling
systems in the project. In creating the active chilled beam systems, two air handling
units were considered, namely Dedicated Outdoor Air System (DOAS) and the active
desiccant dehumidification system. Based on hour-by-hour simulation approach, the
project presents the energy consumption as well as the thermal comfort levels
achieved by the active chilled beam systems in comparison with conventional cooling
system.
For the office space examined in the simulation, employing the active chilled beam
systems instead of the conventional system can save between 9.1% and 29.1% of the
total energy consumption. These results are based on several assumptions and
references made on the power ratings of the components used throughout the
simulation. It is observed that majority of the energy savings occur at the chiller, due
largely to the higher chilled water supplied to the radiant panels and air handling units
of the active chilled beam systems. In addition, no risks of condensation on the panels
were present since the supply temperature of the chilled water to these panels is set
higher than the dew point temperatures of the zones.
Using comfort criterion adopted by Singapore Standards and International Standards
Organization, results from simulation show that thermal comfort levels are better with
the application of the active chilled beam systems. With reference to the Predicted
Mean Vote index recorded by TRNSYS, the occupants are comfortable in 80.5%,
89.3% and 90.1% of the simulated hours for the conventional and the active chilled
beam systems (i.e. Desiccant and DOAS) respectively.
Further improvements must be carried out on the existing simulation models in order
to get better and more reliable data for actual implementation of the radiant panel
cooling system in Singapore. It is suggested that collaboration with a local supplier of
desiccant dehumidification systems be considered. One recommendation is Munters
with which electronic correspondence has been made between the author and the
company representative. |
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