Strategic Landscaping in Tropical Residences: Assessing Outdoor Temperatures, Cooling Energy and Costs A case study conducted in two Malaysian cities, Putrajaya and Shah Alam

The external environmental conditions in tropical cities are hot due to high temperatures and humidity. Strategic planning and design of exterior spaces can reduce energy consumption for building cooling by reducing various negative effects of tropical climate factors. The desired interior condition...

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Published in:INTERNATIONAL REVIEW FOR SPATIAL PLANNING AND SUSTAINABLE DEVELOPMENT
Main Authors: Misni, Alamah
Format: Article
Language:English
Published: INT COMMUNITY SPATIAL PLANNING & SUSTAINABLE DEVELOPMENT 2024
Subjects:
Online Access:https://www-webofscience-com.uitm.idm.oclc.org/wos/woscc/full-record/WOS:001150137200001
author Misni
Alamah
spellingShingle Misni
Alamah
Strategic Landscaping in Tropical Residences: Assessing Outdoor Temperatures, Cooling Energy and Costs A case study conducted in two Malaysian cities, Putrajaya and Shah Alam
Science & Technology - Other Topics
author_facet Misni
Alamah
author_sort Misni
spelling Misni, Alamah
Strategic Landscaping in Tropical Residences: Assessing Outdoor Temperatures, Cooling Energy and Costs A case study conducted in two Malaysian cities, Putrajaya and Shah Alam
INTERNATIONAL REVIEW FOR SPATIAL PLANNING AND SUSTAINABLE DEVELOPMENT
English
Article
The external environmental conditions in tropical cities are hot due to high temperatures and humidity. Strategic planning and design of exterior spaces can reduce energy consumption for building cooling by reducing various negative effects of tropical climate factors. The desired interior conditions of the building should be similar to the exterior microclimatic conditions. If the microclimate deviates significantly from this, large amounts of cooling energy may be required to create a comfortable interior environment. In this study, single-family houses were randomly selected in two well-planned cities in Malaysia, with 30% of the houses located in Putrajaya and 70% in Shah Alam. Most of the houses used a modern tropical building style to adapt to the challenging tropical climate with high temperatures, high humidity, and heavy downpours. Since air conditioning is the only ideal active system, 90% of the houses in the study areas were operated with this system to create and maintain a comfortable interior temperature. On average, the annual energy cost for cooling was about 36.7% per house. Several comparisons of energy use were made with minimal to moderate landscaping to determine the effectiveness of greening around the houses to reduce energy use in a tropical climate. Annual cooling energy savings reached up to 7%, equivalent to 948kWh (MYR233.00) per house. The results showed that landscaping had a significant impact on the cooling energy of the houses.
INT COMMUNITY SPATIAL PLANNING & SUSTAINABLE DEVELOPMENT
2187-3666

2024
12
1
10.14246/irspsd.12.1
Science & Technology - Other Topics

WOS:001150137200001
https://www-webofscience-com.uitm.idm.oclc.org/wos/woscc/full-record/WOS:001150137200001
title Strategic Landscaping in Tropical Residences: Assessing Outdoor Temperatures, Cooling Energy and Costs A case study conducted in two Malaysian cities, Putrajaya and Shah Alam
title_short Strategic Landscaping in Tropical Residences: Assessing Outdoor Temperatures, Cooling Energy and Costs A case study conducted in two Malaysian cities, Putrajaya and Shah Alam
title_full Strategic Landscaping in Tropical Residences: Assessing Outdoor Temperatures, Cooling Energy and Costs A case study conducted in two Malaysian cities, Putrajaya and Shah Alam
title_fullStr Strategic Landscaping in Tropical Residences: Assessing Outdoor Temperatures, Cooling Energy and Costs A case study conducted in two Malaysian cities, Putrajaya and Shah Alam
title_full_unstemmed Strategic Landscaping in Tropical Residences: Assessing Outdoor Temperatures, Cooling Energy and Costs A case study conducted in two Malaysian cities, Putrajaya and Shah Alam
title_sort Strategic Landscaping in Tropical Residences: Assessing Outdoor Temperatures, Cooling Energy and Costs A case study conducted in two Malaysian cities, Putrajaya and Shah Alam
container_title INTERNATIONAL REVIEW FOR SPATIAL PLANNING AND SUSTAINABLE DEVELOPMENT
language English
format Article
description The external environmental conditions in tropical cities are hot due to high temperatures and humidity. Strategic planning and design of exterior spaces can reduce energy consumption for building cooling by reducing various negative effects of tropical climate factors. The desired interior conditions of the building should be similar to the exterior microclimatic conditions. If the microclimate deviates significantly from this, large amounts of cooling energy may be required to create a comfortable interior environment. In this study, single-family houses were randomly selected in two well-planned cities in Malaysia, with 30% of the houses located in Putrajaya and 70% in Shah Alam. Most of the houses used a modern tropical building style to adapt to the challenging tropical climate with high temperatures, high humidity, and heavy downpours. Since air conditioning is the only ideal active system, 90% of the houses in the study areas were operated with this system to create and maintain a comfortable interior temperature. On average, the annual energy cost for cooling was about 36.7% per house. Several comparisons of energy use were made with minimal to moderate landscaping to determine the effectiveness of greening around the houses to reduce energy use in a tropical climate. Annual cooling energy savings reached up to 7%, equivalent to 948kWh (MYR233.00) per house. The results showed that landscaping had a significant impact on the cooling energy of the houses.
publisher INT COMMUNITY SPATIAL PLANNING & SUSTAINABLE DEVELOPMENT
issn 2187-3666

publishDate 2024
container_volume 12
container_issue 1
doi_str_mv 10.14246/irspsd.12.1
topic Science & Technology - Other Topics
topic_facet Science & Technology - Other Topics
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