OPTIMIZATION OF ROOM WALL COATING DESIGN USING PHASE CHANGE MATERIAL (PCM) FROM THE ASPECT OF INVESTMENT COST AND THERMAL CONDITION OF ROOM

OPTIMIZATION OF ROOM WALL COATING DESIGN USING PHASE CHANGE MATERIAL (PCM) FROM THE ASPECT OF INVESTMENT COST AND THERMAL CONDITION OF ROOM

Room air temperature that is too high is the cause of the need for air conditioning for the room. The choice of using air-cond technology is considered to be an easy and affordable solution that prevents further exploration of passive cooling technology. One of the passive cooling technologies that...

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Main Author: Rahmalia Syafitri, Amanda
Format: Theses
Language:Indonesia
Subjects:
Arsitektur
Online Access:https://digilib.itb.ac.id/gdl/view/69975
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Institution: Institut Teknologi Bandung
Language: Indonesia
id id-itb.:69975
spelling id-itb.:699752022-12-21T15:16:18ZOPTIMIZATION OF ROOM WALL COATING DESIGN USING PHASE CHANGE MATERIAL (PCM) FROM THE ASPECT OF INVESTMENT COST AND THERMAL CONDITION OF ROOM Rahmalia Syafitri, Amanda Arsitektur Indonesia Theses Room thermal condition, investment cost, passive cooling, PCM, TES, radiative cooling. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/69975 Room air temperature that is too high is the cause of the need for air conditioning for the room. The choice of using air-cond technology is considered to be an easy and affordable solution that prevents further exploration of passive cooling technology. One of the passive cooling technologies that has not been widely developed is the use of phase change materials (PCM). This material works as a thermal energy storage (TES) medium that is able to absorb and release heat from and to its environment. The inner side of the wall plays an important role in conditioning the indoor thermal environment because these areas absorb and release heat from and to the air. The performance of brick walls in absorbing and releasing heat can be improved by adding PCM components to the walls. This study discusses the investment costs and thermal conditions of the wall components attached to PCM with various thicknesses (4 cm, 8 cm, and 12 cm) and application positions (top, middle and bottom) on the wall. The results showed that the optimal room wall coating design scenario using phase-changing materials from the aspect of investment costs and quality room thermal conditions was obtained in the PCM application scenario with a thickness of 4 cm at the bottom of the wall. Meanwhile, if you only consider the amount of operational costs, then the PCM application scenario of 8 cm in the middle position is the best scenario. The success of PCM application scenarios is not only due to the large number of PCM volumes, thicknesses, and positions used. Several factors affect the performance and effectiveness of PCM that can be traced apart from volume variables, namely the local climate, the characteristics of the PCM material, the accompanying material that wraps or coats the PCM, inlet wind speed, inlet wind temperature and the extent of exposure of PCM to the indoor space. The findings of passive technology that uses radiative cooling need to be considered by architects and interior designers in designing. text
institution Institut Teknologi Bandung
building Institut Teknologi Bandung Library
continent Asia
country Indonesia
Indonesia
content_provider Institut Teknologi Bandung
collection Digital ITB
language Indonesia
topic Arsitektur
spellingShingle Arsitektur
Rahmalia Syafitri, Amanda
OPTIMIZATION OF ROOM WALL COATING DESIGN USING PHASE CHANGE MATERIAL (PCM) FROM THE ASPECT OF INVESTMENT COST AND THERMAL CONDITION OF ROOM
description Room air temperature that is too high is the cause of the need for air conditioning for the room. The choice of using air-cond technology is considered to be an easy and affordable solution that prevents further exploration of passive cooling technology. One of the passive cooling technologies that has not been widely developed is the use of phase change materials (PCM). This material works as a thermal energy storage (TES) medium that is able to absorb and release heat from and to its environment. The inner side of the wall plays an important role in conditioning the indoor thermal environment because these areas absorb and release heat from and to the air. The performance of brick walls in absorbing and releasing heat can be improved by adding PCM components to the walls. This study discusses the investment costs and thermal conditions of the wall components attached to PCM with various thicknesses (4 cm, 8 cm, and 12 cm) and application positions (top, middle and bottom) on the wall. The results showed that the optimal room wall coating design scenario using phase-changing materials from the aspect of investment costs and quality room thermal conditions was obtained in the PCM application scenario with a thickness of 4 cm at the bottom of the wall. Meanwhile, if you only consider the amount of operational costs, then the PCM application scenario of 8 cm in the middle position is the best scenario. The success of PCM application scenarios is not only due to the large number of PCM volumes, thicknesses, and positions used. Several factors affect the performance and effectiveness of PCM that can be traced apart from volume variables, namely the local climate, the characteristics of the PCM material, the accompanying material that wraps or coats the PCM, inlet wind speed, inlet wind temperature and the extent of exposure of PCM to the indoor space. The findings of passive technology that uses radiative cooling need to be considered by architects and interior designers in designing.
format Theses
author Rahmalia Syafitri, Amanda
author_facet Rahmalia Syafitri, Amanda
author_sort Rahmalia Syafitri, Amanda
title OPTIMIZATION OF ROOM WALL COATING DESIGN USING PHASE CHANGE MATERIAL (PCM) FROM THE ASPECT OF INVESTMENT COST AND THERMAL CONDITION OF ROOM
title_short OPTIMIZATION OF ROOM WALL COATING DESIGN USING PHASE CHANGE MATERIAL (PCM) FROM THE ASPECT OF INVESTMENT COST AND THERMAL CONDITION OF ROOM
title_full OPTIMIZATION OF ROOM WALL COATING DESIGN USING PHASE CHANGE MATERIAL (PCM) FROM THE ASPECT OF INVESTMENT COST AND THERMAL CONDITION OF ROOM
title_fullStr OPTIMIZATION OF ROOM WALL COATING DESIGN USING PHASE CHANGE MATERIAL (PCM) FROM THE ASPECT OF INVESTMENT COST AND THERMAL CONDITION OF ROOM
title_full_unstemmed OPTIMIZATION OF ROOM WALL COATING DESIGN USING PHASE CHANGE MATERIAL (PCM) FROM THE ASPECT OF INVESTMENT COST AND THERMAL CONDITION OF ROOM
title_sort optimization of room wall coating design using phase change material (pcm) from the aspect of investment cost and thermal condition of room
url https://digilib.itb.ac.id/gdl/view/69975
_version_ 1822991205017845760

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