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Impact of Building Orientation on Energy Performance of Residential Buildings in Various Cities Across Afghanistan

Mustafa Karimi, Tomoyuki Chikamoto, Myonghyang Lee, Teppei Tanaka

2024Sustainability14 citationsDOIOpen Access PDF

Abstract

Building or solar orientation, a key architectural design parameter, significantly influences energy consumption in buildings. Optimizing building orientation to harness passive solar benefits is a fundamental and cost-effective measure in designing energy-efficient buildings. However, the optimal orientation varies based on geographical location, climatic conditions, and building type. Notably, Afghanistan’s building sector currently lacks tailored energy efficiency regulations. Therefore, this study investigates the impact of building orientation on the energy performance of residential buildings across nine cities in Afghanistan, each characterized by distinct climatic conditions and geographic locations, employing BEoptTM energy simulation software. The findings reveal diverse optimal orientations, dividing the country into three distinct climatic zones: subarctic (optimal orientation: south-southeast), continental (optimal orientation: south), and hot-arid (optimal orientation: north). The optimal orientations in these regions yield potential energy savings ranging from 25.6% to 48.9% compared to the least efficient orientations. These insights are critical for establishing location-specific building regulations in Afghanistan, promoting energy-efficient design, and addressing the country’s current trend of unsustainable development.

Topics & Concepts

Architectural engineeringOrientation (vector space)Civil engineeringEnergy (signal processing)GeographyEconomic geographyEngineeringGeometryMathematicsStatisticsBuilding Energy and Comfort OptimizationImpact of Light on Environment and Health