THERMAL PERFORMANCE OF VERTICAL SHAFTS IN BUILDINGS: AN OVERVIEW OF EFFICIENT DESIGN PARAMETERS

Authors

  • Mohammed Alzahrani Department of Architecture, Qassim University, Saudi ‎Arabia
  • Roshida Abdul Majid Department of Architecture, University Teknologi Malaysia, Malaysia
  • Abdullah Saeed Karban Department of Islamic Architecture, Umm Al Qura University, Saudi Arabia

Abstract

There are indications that buildings that include vertical shafts can affect the ‎performance of buildings. Many ‎Publications in major peer-reviewed journals from different fields ‎‎(energy and buildings) were found using various ‎keywords (Air shaft, light well, vertical shaft, thermal performance, etc.). The review of previous studies was on the role of natural ventilation in vertical shaft buildings in different climates, efficient design parameters, and their application to improve thermal performance and decrease energy consumption. These parameters include various vertical shaft configurations and components such as vertical shaft geometry, opening characteristics, roof properties, and materials. The height, length, and width of vertical shafts significantly impact indoor thermal conditions and energy consumption. The second effective design parameter was the openings, which strongly influence air velocity, air pattern, airflow, air temperature, and ventilation rate.

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Published

2024-09-24

How to Cite

Mohammed Alzahrani, Roshida Abdul Majid, & Abdullah Saeed Karban. (2024). THERMAL PERFORMANCE OF VERTICAL SHAFTS IN BUILDINGS: AN OVERVIEW OF EFFICIENT DESIGN PARAMETERS. JOURNAL INFORMATION AND TECHNOLOGY MANAGEMENT (JISTM), 7(25). Retrieved from https://gaexcellence.com/jistm/article/view/2630

Issue

Vol. 7 No. 25 (2022): Volume: 7 Issues: 25 [March, 2022]

Section

Articles