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An Investigation of Thermal Comfort of Houses in Dry and Semi-Arid Climates of Quetta, Pakistan
by
Waqas Ahmed Mahar
, Griet Verbeeck
, Manoj Kumar Singh
, Shady Attia
in
adaptive thermal comfort
/ adaptive thermal comfort; residential buildings; heating dominated; passive measures; design recommendations
/ Affordable housing
/ Architecture
/ Cities
/ Climate change
/ Cold
/ Design
/ design recommendations
/ Energy industry
/ Engineering, computing & technology
/ Green buildings
/ heating dominated
/ Houses
/ Ingénierie, informatique & technologie
/ passive measures
/ Population
/ Reinforced concrete
/ residential buildings
/ Socioeconomic factors
/ Studies
/ Sustainability
/ Urban areas
2019
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An Investigation of Thermal Comfort of Houses in Dry and Semi-Arid Climates of Quetta, Pakistan
by
Waqas Ahmed Mahar
, Griet Verbeeck
, Manoj Kumar Singh
, Shady Attia
in
adaptive thermal comfort
/ adaptive thermal comfort; residential buildings; heating dominated; passive measures; design recommendations
/ Affordable housing
/ Architecture
/ Cities
/ Climate change
/ Cold
/ Design
/ design recommendations
/ Energy industry
/ Engineering, computing & technology
/ Green buildings
/ heating dominated
/ Houses
/ Ingénierie, informatique & technologie
/ passive measures
/ Population
/ Reinforced concrete
/ residential buildings
/ Socioeconomic factors
/ Studies
/ Sustainability
/ Urban areas
2019
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An Investigation of Thermal Comfort of Houses in Dry and Semi-Arid Climates of Quetta, Pakistan
by
Waqas Ahmed Mahar
, Griet Verbeeck
, Manoj Kumar Singh
, Shady Attia
in
adaptive thermal comfort
/ adaptive thermal comfort; residential buildings; heating dominated; passive measures; design recommendations
/ Affordable housing
/ Architecture
/ Cities
/ Climate change
/ Cold
/ Design
/ design recommendations
/ Energy industry
/ Engineering, computing & technology
/ Green buildings
/ heating dominated
/ Houses
/ Ingénierie, informatique & technologie
/ passive measures
/ Population
/ Reinforced concrete
/ residential buildings
/ Socioeconomic factors
/ Studies
/ Sustainability
/ Urban areas
2019
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An Investigation of Thermal Comfort of Houses in Dry and Semi-Arid Climates of Quetta, Pakistan
Journal Article
An Investigation of Thermal Comfort of Houses in Dry and Semi-Arid Climates of Quetta, Pakistan
2019
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Overview
In Pakistan, reinforced concrete frame houses are the most widely used and common construction technology. In a country that experiences extreme hot and cold seasons throughout the year, buildings need to be adaptable to the climate to improve the thermal comfort of the inhabitants. Therefore, the aim of this study was to improve thermal comfort in reinforced concrete frame houses using passive design and energy efficiency measures in Quetta, Pakistan. Thermal comfort of a representative house was investigated using a building performance simulation. The building model created in EnergyPlus was validated by comparing it with on-site monitored data in both summer and winter seasons. The model was calibrated using statistical methods. Then, the calibrated model was used to perform a whole year simulation in which various orientations, ventilation, passive design, and energy efficiency strategies were applied to perform parametric analysis for the improvement of thermal comfort. The best fit-to-context thermal comfort model was selected, and the potential of bioclimatic design strategies was quantified. The results indicate that by adopting passive design strategies comfort hours can be increased from 43% to 59%. The results of the study revealed many findings which could be useful for architects and building engineers to set a future direction for improvement of indoor comfort in Quetta as well as in many other areas of Balochistan Province in Pakistan.
Publisher
MDPI AG,MDPI
Subject
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