The gap analysis quantification towards smart cooling system of attic ventilation in improving and developing
Interim sem 2020 / 2021
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2023
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my.uniten.dspace-203772023-05-04T21:58:04Z The gap analysis quantification towards smart cooling system of attic ventilation in improving and developing Muhammad Rifaei bin Ali Warno Smart attic cooling system Interim sem 2020 / 2021 Sealed attic design, by excluding external vents, can be a good way to exclude moistened external air from the attic and offer a more easily built alternative to control air leakage. At the top of the buildings. The attic ventilation strategy is one technique for reducing indoor heat build-up. Its advantage contributes to high energy consumption and improves the indoor environment. This approach, on the other hand, will not completely stop the heat transfer mechanism from the roof to the attic. It is nevertheless able to reduce its impact in accordance with the method adopted and the current conditions in the environment. Although different cooling approaches were proposed to eliminate the thermal discomfort in residential buildings, tropical developing countries still lack affordable and efficient methods of retrofitting. The widespread use of air conditioning to cool residential buildings indoors has led to an increase in electricity consumption. For reducing energy consumption, effective passive cooling strategies such as natural ventilation are important. The aim of this project is to explore the fundamental principle and the principle of attic ventilation to overcome thermal discomfort through evaluation and exploration of the current systems of technologies, which results in the proposed and improvised engineering design for ventilation and cooling systems available. With a systematic introduction and literature review based on the available data, this project will go through several methodological methods including Quality Functional Deployment (QFD), House of Quality (HOQ), Survey, Computer-Aided Design (CAD), Computational-Fluid Dynamics (CFD) and lastly followed by Morphological Analysis (MA). The methodologies will yield in a systematic results and discussion to obtain the best outcome in selecting the final verdict of the project. Ultimately, this project will conclude the objectives with recommendation for future improvements in The Gap Analysis Quantification Towards Smart Cooling System of Attic Ventilation In Improving and Developing its Attributes. 2023-05-03T14:59:20Z 2023-05-03T14:59:20Z 2020-09 https://irepository.uniten.edu.my/handle/123456789/20377 application/pdf |
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Malaysia |
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Smart attic cooling system |
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Smart attic cooling system Muhammad Rifaei bin Ali Warno The gap analysis quantification towards smart cooling system of attic ventilation in improving and developing |
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Interim sem 2020 / 2021 |
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| author |
Muhammad Rifaei bin Ali Warno |
| author_facet |
Muhammad Rifaei bin Ali Warno |
| author_sort |
Muhammad Rifaei bin Ali Warno |
| title |
The gap analysis quantification towards smart cooling system of attic ventilation in improving and developing |
| title_short |
The gap analysis quantification towards smart cooling system of attic ventilation in improving and developing |
| title_full |
The gap analysis quantification towards smart cooling system of attic ventilation in improving and developing |
| title_fullStr |
The gap analysis quantification towards smart cooling system of attic ventilation in improving and developing |
| title_full_unstemmed |
The gap analysis quantification towards smart cooling system of attic ventilation in improving and developing |
| title_sort |
gap analysis quantification towards smart cooling system of attic ventilation in improving and developing |
| publishDate |
2023 |
| _version_ |
1806426326111879168 |
| score |
13.188404 |