2024 : 11 : 21
Salah Vaisi

Salah Vaisi

Academic rank: Associate Professor
ORCID: 0000-0002-9083-2737
Education: PhD.
ScopusId: 54662
HIndex:
Faculty: Faculty of Art and Architecture
Address: Department of Architecture , Faculty of Art & Architecture, University of Kurdistan, Sanandaj, Iran
Phone: 0098-8733662963

Research

Title
Occupants’ Satisfaction toward Indoor Environment Quality of Platinum Green-Certified Office Buildings in Tropical Climate
Type
JournalPaper
Keywords
building performance assessment; indoor environment quality; occupants’ satisfaction; post-occupancy evaluation; Green Building Index; tropical climate
Year
2021
Journal Energies
DOI
Researchers Masoud Esfandiari ، Suzaini Mohamed Zaid ، Muhammad Azzam Ismail ، Mohammad Reza Hafezi ، Iman Asadi ، Saleh Mohammadi ، Salah Vaisi ، Ardalan Aflaki

Abstract

The quality of the indoor environment has become a vital component for buildings due to the time spent indoors. To this extent, the performance of the indoor environment is considered as part of the greenery criteria by green rating schemes such as the Green Building Index in Malaysia. This study aims to investigate and assess the quality of the indoor environment of Platinum-certified office buildings in a tropical climate. This research applied a case study approach over two Platinum-certified office buildings. Post-occupancy evaluation is employed integrating full-scale measurement with an occupants’ survey. The measurement was carried out from May to August, and 112 questionnaires were retrieved to evaluate occupants’ satisfaction with aspects of the indoor environment. Thermal comfort, indoor air quality, acoustic, lighting, furniture, and cleanliness are considered as the main study variables. The findings of full-scale measurement indicated high relative humidity, and low air velocity and illuminance. While occupants reported overall indoor environment quality (IEQ) comfort, a significant correlation of variables was observed. The main sources of dissatisfaction were identified as overcooling around 24 °C, high relative humidity (RH), around 70% RH, glare, and background noise around 51.9 dB. Statistically, a significant difference between occupants’ responses to IEQ of two cases was identified, although both buildings are labelled with a Platinum certificate.