The MEUEEM Framework: A Five-Layer Strategy for Energy-Efficient and Climate-Resilient Urban Development in Hot Regions    

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Abstract

As the Middle East grapples with record temperatures and unprecedented urban growth, which together are driving soaring demand for cooling. To address this, we introduce the Middle East Urban Energy Efficiency Model (MEUEEM) - a five-layer strategy that integrates passive design measures, high-performance active systems, smart building controls, renewable energy generation, and policy mechanisms to reduce fossil-fuel dependence and peak electricity demand in hot climates. The framework combines traditional climatic design with advanced HVAC technologies, building-integrated photovoltaics, and solar-powered district cooling, supported by regulatory and financial incentives. Case studies from regional flagship projects are evaluated using performance indicators such as cooling energy reduction, system Coefficient of Performance (COP) improvement, renewable penetration, and peak load reduction. Simulation results suggest that widespread MEUEEM implementation could reduce cooling-related electricity use by 35–45%, achieve renewable energy shares above 40%, and cut annual CO₂ emissions by up to 1.2 Mt for a typical metropolitan area. While designed for the Middle East, the framework offers transferable understandings for other hot-climate regions seeking to balance urban expansion with sustainable energy use.

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