Assessing the indoor temperature and relative humidity through a passive cooling system adaptive from the Dromedary Came'ls Nasal Mecahnism (DCNM) / Katya Claude E. Gojar; Mark Ndsy L. Puso, adviser
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TextPublication details: 2020Description: 230 leavesSubject(s): Abstract: With the increase of energy demands in using active cooling devices,
the heat index of the country continues to increase. The cycle repeats and
aggravates the drastic change in the country’s climate. Through
understanding the biomimetic potential of the Dromedary Camel’s Nasal
Mechanism, its processes can be adapted to a passive cooling system that
addresses the heat index issue. The study aims to analyze the adaptation of the Dromedary Camel’s
Nasal Mechanism to a passive cooling system and its comparison with a
non passive cooling system through experimental research for both
qualitative and quantitative approach. The analogies formulated from
extensive research is then translated to architectural measures, particularly
the utilization of the bamboo material in the passive cooling system. The
data collected from the experiment The systems design guideline was
derived from the results given the controlled circumstances and real time
conditions. The outputs shows that the adapted passive cooling system
improves the indoor room temperature to 2.19°C and 3.86% for relative
humidity resulting to a decrease in heat index to 5.38°C.
| Item type | Current library | Collection | Call number | Status | Date due | Barcode |
|---|---|---|---|---|---|---|
Thesis
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University Library General Reference | Room-Use Only | LG993.5 2020 A7 G65 (Browse shelf(Opens below)) | Available | 3UPML00026640 | |
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Thesis
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University Library Archives and Records | Non-Circulating | LG993.5 2020 A7 G65 (Browse shelf(Opens below)) | Available | 3UPML00041244 |
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With the increase of energy demands in using active cooling devices,
the heat index of the country continues to increase. The cycle repeats and
aggravates the drastic change in the country’s climate. Through
understanding the biomimetic potential of the Dromedary Camel’s Nasal
Mechanism, its processes can be adapted to a passive cooling system that
addresses the heat index issue. The study aims to analyze the adaptation of the Dromedary Camel’s
Nasal Mechanism to a passive cooling system and its comparison with a
non passive cooling system through experimental research for both
qualitative and quantitative approach. The analogies formulated from
extensive research is then translated to architectural measures, particularly
the utilization of the bamboo material in the passive cooling system. The
data collected from the experiment The systems design guideline was
derived from the results given the controlled circumstances and real time
conditions. The outputs shows that the adapted passive cooling system
improves the indoor room temperature to 2.19°C and 3.86% for relative
humidity resulting to a decrease in heat index to 5.38°C.
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