One of those who delivered his oration was Prof. Dr. Ir. Surjamanto Wonorahardjo, MT, from the ITB School of Architecture, Planning and Policy Development (SAPPK). The topics presented by Prof. Surjamanto is “Development of Thermal Environmental Control Technology for Buildings and Urban Areas.”
He explained that the materials used in building construction are one aspect that has quite a high influence on the thermal environment in an urban area. This can happen because the construction material will function as a envelope that covers the entire building.
Later, this sheath will receive energy from the sun and store it in the form of heat to then be emitted into the environment in the form of long waves or infrared. This phenomenon will later form the thermal environment around urban buildings.
At the beginning of his presentation, Prof. Surjamanto said that buildings made from heavy materials such as brick, concrete, asphalt and so on have a tendency to emit higher heat emissions than light materials such as glass. This can be seen from an infrared camera or thermal imager which shows that heavy materials emit a dominant red color when checked.
“The fact that construction materials, especially heavy materials such as concrete and asphalt, can emit heat emissions into the environment makes the urban heat island phenomenon inevitable.
The impact is quite serious. “Hail, local flooding and several other issues related to global warming are among the problems that can arise if these issues are not controlled,” he said.
Urban heat island is a phenomenon of increasing urban air temperature compared to the surrounding area. According to Prof. Surjamanto, this phenomenon is not a new problem because it has appeared since 1818 and 1820. However, the formulation of effective solutions to overcome this problem is still being carried out to this day.
One technology formulated to solve this problem is the use of thermal insulation in buildings. In principle, this solution is done by changing the brick building wall into a sandwich wall. The application of this solution will affect the heat flow process that occurs in the wall.
“Basically, this sandwich wall will prevent the flow of heat from entering the room. As a result, the room inside will feel cool because it is able to separate the heat from outside. “However, this separation is too extreme because this will indirectly increase the thermal conditions outside, so for tropical environments this solution is not satisfactory for us,” he explained.
Another solution that Prof. Surjamanto said that it is a reflection technology whose principle of solution is to utilize the reflection of sunlight on building materials. Coating some parts exposed to sunlight with white is one effort that can be done to make the reflection process occur.
“The results of this reflection technology are impressive. This solution can directly reduce the urban heat island effect during hot sun hours. “Apart from that, even when the sun is not too high, this solution is able to reduce thermal heating in urban areas,” he explained.
At the end of his presentation session, Prof. Surjamanto mentioned several other alternative solutions to overcome the urban heat island problem, including shading and light envelopes, internal thermal mass, and energy conversion. These technologies continue to be developed so that the best solution to this thermal environmental issue can be resolved.
Reporter: Nur Rama Adamas (Civil Engineering, 2020)
2024-02-01 02:06:08
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