Abstract
Most Malaysian rural houses are categorized as non-engineered buildings and vulnerable to damage during events such as windstorms due to the fact that these houses lack engineering considerations. These houses are characterized by having an attached kitchen house, and many of these houses were previously damaged by thunderstorms. The current research investigated the air flow characteristics changes surrounding these houses as a result of the presence of the kitchen. The roof pitch, position, gap height, and overhang were investigated using computational fluid dynamics (CFD) simulations. The results showed that the kitchen position at the center resulted in a slight increase in the suction on the ridge of the roof; however, it significantly altered the flow pattern in the windward and leeward directions. The results also showed that the roof overhang, roof pitch, and kitchen position contributed severely to the damage of the rural house. Moreover, the highest suction occurred at the roof ridge when the kitchen was located at the center of the rural house (Cp = −2.28). Therefore, the authors believe that it is more advantageous to have a kitchen connected to the core as it reduces the pressure on the roof of the core during thunderstorm events.
Highlights
IntroductionNatural events such as hurricanes (tropical cyclones), tornadoes, thunderstorm, downburst, monsoon, and gale are always the main causes of extreme winds [1,2,3,4]
Natural events such as hurricanes, tornadoes, thunderstorm, downburst, monsoon, and gale are always the main causes of extreme winds [1,2,3,4]
The slight variations observed in the results can be associated to the total number of meshed elements used in this study, which were more than those used in the computational fluid dynamics (CFD) of Tominaga et al [9]
Summary
Natural events such as hurricanes (tropical cyclones), tornadoes, thunderstorm, downburst, monsoon, and gale are always the main causes of extreme winds [1,2,3,4]. According to Aly [4], it is the wind velocity and the structure properties that influence the behavior of any structure during a wind event. Aly [4] stated that tropical cyclones are the most destructive and powerful storm systems on the face of the earth mentioning the catastrophe caused by hurricane. Katrina in 2005, which caused property damage worth more than $75 billion. Cyclones have the potential to uproot buildings, trees, and rooftops and cause casualties
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