Study on the Optimum Roof Type with 30° Roof Angle to Enhance Natural Ventilation and Air Circulation of a Passive Design
One of the major problems in modern housing design is overheating. Occupants suffer higher indoor temperatures due to a lack of natural ventilation. This issue arises because of poor passive design. A good passive design promotes natural ventilation and provides better indoor air temperatures withou...
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IJTech
2018
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| Online Access: | http://repo.uum.edu.my/25410/1/IJT%208%202018%201692%201701.pdf http://repo.uum.edu.my/25410/ http://doi.org/10.14716/ijtech.v9i8.2759 |
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my.uum.repo.254102019-01-14T01:18:59Z http://repo.uum.edu.my/25410/ Study on the Optimum Roof Type with 30° Roof Angle to Enhance Natural Ventilation and Air Circulation of a Passive Design Ibrahim, Siti Halipah Roslan, Qairuniza Affandi, Rohaida Razali, Abdul Wafi Samat, Yon Syafni Mohd Nawi, Mohd Nasrun QA75 Electronic computers. Computer science One of the major problems in modern housing design is overheating. Occupants suffer higher indoor temperatures due to a lack of natural ventilation. This issue arises because of poor passive design. A good passive design promotes natural ventilation and provides better indoor air temperatures without reliance on mechanical cooling systems. The roofing system plays an important role in a house’s design. Since the roof contributes to 70% of the total heat gain, it is important to investigate its design to reduce the impact of overheating. It has been found that many roofs lack a ventilation system in the top part of the house. These openings in the roof provide areas for trapped hot air to exit into the environment. The openings also enhance natural ventilation and allow for effective air circulation inside the house. The optimum roof is designed to tackle this matter by reducing the overheating inside the house, especially during the hottest hours of the day. The hot air exits based on the differences in air density and due to prevailing wind. In this study, the optimum roof was tested on a small-scale model and verified by simulation using computational fluid dynamic (CFD) software, namely ANSYS 18.0. From the data obtained, it was proven that the opening in the roof reduced the indoor temperature. In conclusion, the optimum roof could improve the passive design and help to reduce overheating inside a house. IJTech 2018 Article PeerReviewed application/pdf en http://repo.uum.edu.my/25410/1/IJT%208%202018%201692%201701.pdf Ibrahim, Siti Halipah and Roslan, Qairuniza and Affandi, Rohaida and Razali, Abdul Wafi and Samat, Yon Syafni and Mohd Nawi, Mohd Nasrun (2018) Study on the Optimum Roof Type with 30° Roof Angle to Enhance Natural Ventilation and Air Circulation of a Passive Design. International Journal of Technology, 9 (8). p. 1692. ISSN 2086-9614 http://doi.org/10.14716/ijtech.v9i8.2759 doi:10.14716/ijtech.v9i8.2759 |
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QA75 Electronic computers. Computer science Ibrahim, Siti Halipah Roslan, Qairuniza Affandi, Rohaida Razali, Abdul Wafi Samat, Yon Syafni Mohd Nawi, Mohd Nasrun Study on the Optimum Roof Type with 30° Roof Angle to Enhance Natural Ventilation and Air Circulation of a Passive Design |
| description |
One of the major problems in modern housing design is overheating. Occupants suffer higher indoor temperatures due to a lack of natural ventilation. This issue arises because of poor passive design. A good passive design promotes natural ventilation and provides better indoor air temperatures without reliance on mechanical cooling systems. The roofing system plays an important role in a house’s design. Since the roof contributes to 70% of the total heat gain, it is important to investigate its design to reduce the impact of overheating. It has been found that many roofs lack a ventilation system in the top part of the house. These openings in the roof provide areas for trapped hot air to exit into the environment. The openings also enhance natural ventilation and allow for effective air circulation inside the house. The optimum roof is designed to tackle this matter by reducing the overheating inside the house, especially during the hottest hours of the day. The hot air exits based on the differences in air density and due to prevailing wind. In this study, the optimum roof was tested on a small-scale model and verified by simulation using computational fluid dynamic (CFD) software, namely ANSYS 18.0. From the data obtained, it was proven that the opening in the roof reduced the indoor temperature. In conclusion, the optimum roof could improve the passive design and help to reduce overheating inside a house. |
| format |
Article |
| author |
Ibrahim, Siti Halipah Roslan, Qairuniza Affandi, Rohaida Razali, Abdul Wafi Samat, Yon Syafni Mohd Nawi, Mohd Nasrun |
| author_facet |
Ibrahim, Siti Halipah Roslan, Qairuniza Affandi, Rohaida Razali, Abdul Wafi Samat, Yon Syafni Mohd Nawi, Mohd Nasrun |
| author_sort |
Ibrahim, Siti Halipah |
| title |
Study on the Optimum Roof Type with 30° Roof Angle to Enhance Natural Ventilation and Air Circulation of a Passive Design |
| title_short |
Study on the Optimum Roof Type with 30° Roof Angle to Enhance Natural Ventilation and Air Circulation of a Passive Design |
| title_full |
Study on the Optimum Roof Type with 30° Roof Angle to Enhance Natural Ventilation and Air Circulation of a Passive Design |
| title_fullStr |
Study on the Optimum Roof Type with 30° Roof Angle to Enhance Natural Ventilation and Air Circulation of a Passive Design |
| title_full_unstemmed |
Study on the Optimum Roof Type with 30° Roof Angle to Enhance Natural Ventilation and Air Circulation of a Passive Design |
| title_sort |
study on the optimum roof type with 30° roof angle to enhance natural ventilation and air circulation of a passive design |
| publisher |
IJTech |
| publishDate |
2018 |
| url |
http://repo.uum.edu.my/25410/1/IJT%208%202018%201692%201701.pdf http://repo.uum.edu.my/25410/ http://doi.org/10.14716/ijtech.v9i8.2759 |
| _version_ |
1644284316631433216 |
| score |
13.211869 |