STRUCTURAL SYSTEM RELIABILITY AND THERMAL CONDITIONS OF COMMUNITY-BUILT CONCRETE DOME MOSQUE BUILDINGS IN DEMAK REGENCY
Community-based mosque construction is common in Indonesia, so the technical reliability of such buildings must be assessed because of risks to safety, comfort, health, and convenience affecting many people. These concerns about risk are particularly relevant in Indonesia, where many experience e...
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| Format: | Dissertations |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/43426 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Community-based mosque construction is common in Indonesia, so the technical
reliability of such buildings must be assessed because of risks to safety, comfort,
health, and convenience affecting many people. These concerns about risk are
particularly relevant in Indonesia, where many experience earthquakes and must
cope with the tropical heat during the day. The number of reports of building
damage due to structural system failures after earthquakes and the use of fans and
air conditioners in self-supporting concrete dome mosques affects building
reliability in terms of safety and comfort, which is very relevant for further studies.
This study aims to describe structural system characteristics and thermal
conditions of community-built concrete domed mosques; estimate safety risks in
terms of structural system reliability and thermal conditions of mosques; and
formulate community self-help development strategies based on mosque domes.
The concrete domed mosque is designed for the community because it symbolizes
Islamic architecture. The mosque is designed using building materials such as stone
for the roof and bricks for the building envelope, with the aim of improving building
system quality and the condition of the mosque. In addition, the limited ability of
the community with respect to financial and knowledge aspects of development is
an important research aspect in the study of the technical performance of concrete
domed mosques in Demak Regency.
Data collection was conducted through surveys to determine mosques from which
data could be retrieved. Physical data of buildings were collected by measuring
dimensions and shapes and identifying materials, followed by creating depictions
of the mosque buildings. Thermal performance data were collected using wet and
dry thermometers, a globe thermometer, an infrared thermometer, and an
anemometer to obtain an effective temperature comfort index (ET), while building
process data were collected using a questionnaire with development committee
respondents, including community leaders, clerics, and elders. Analysis of the
distribution, correspondence, comparison, and clusters of the mosque design data
were vaulted for thermal conditions and structural systems. To confirm the
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reliability of the structural system, a digital simulation of frame structure
deformation was added with ETABS version 9.6.
The risks associated with community-built concrete domed mosques are: 1) large
concrete dome spans with dome-retaining structures supported by cantilevered
beams and secondary columns very much at risk of cracking or breaking, causing
the concrete dome to collapse; 2) a lack of open area, or Window to Wall Ratio
(WWR), which impedes the thermal comfort of its users; 3) the distance between
buildings, which blocks the flow of air into the space; and 4) concrete roofs and
brick walls act as thermal masses, which store and release heat into the
environment, affect the reliability of concrete domed mosque buildings in terms of
safety and thermal conditions.
Building reliability risks can be reduced through strategies that include:
1) designing building structures that support dome structures directly with columns,
based on building structure rules; 2) designing cantilever structures with diagonal
elements (bracing); 3) using lightweight structures for domes and roofs;
4) designing ventilation openings using digital simulations; and 5) reducing the
effect of thermal masses by adding sunlight exposure based on vegetation and
thermal insulation.
This research concludes that: 1) the community does not yet have the ability to
apply the rules of earthquake-resistant structural systems to concrete domed
mosques; 2) the community does not understand the environmental conditions of
the tropical region and their influence on mosque design, impacting the thermal
quality of the mosque space; 3) the community has not been able to adapt mosque
architectural form and style to the seismic conditions and tropical environment, 4)
the community, which is in the process of self-help development, needs assistance
with technical aspects of the building structure and knowledge of thermal
environment design; and 5) community-based development is influenced by the
characteristics of the community; therefore, technical assistance must be adjusted
to such characteristics |
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