Litcius/Paper detail

Optimizing passive solar design in Texas green buildings by integrating sustainable architectural features for maximum energy efficiency

Helena Nbéu Nkula Manuel, Tola Ojemai Adeoye, Idoko Peter Idoko, Francis Adejor Akpa, Onuh Matthew Ijiga, Monica Ajuma Igbede

2024Magna Scientia Advanced Research and Reviews17 citationsDOIOpen Access PDF

Abstract

The imperative of energy-efficient and green building practices has become more urgent as climate change and environmental degradation impact regions across the globe. This paper explores the optimization of passive solar design in Texas green buildings by integrating sustainable architectural features that maximize energy efficiency. Passive solar design harnesses the natural benefits of solar orientation and strategic architectural elements to reduce reliance on artificial lighting and mechanical heating systems. In Texas, where solar potential is abundant, optimizing this approach has the potential to significantly reduce energy consumption and lower the environmental footprint of buildings. By analyzing case studies, materials, and design strategies, this paper aims to identify best practices that leverage passive solar design's inherent advantages, from enhanced natural lighting to effective passive heating and cooling. Furthermore, it investigates the integration of renewable energy solutions, like photovoltaic panels, to complement passive techniques, creating a holistic approach to sustainability. Ultimately, this review underscores the importance of embracing innovative designs and materials, emphasizing their role in reshaping the future of Texas's green building landscape for a more energy-efficient, eco-friendly, and resilient built environment.

Topics & Concepts

Architectural engineeringPassive solar building designArchitectural designSustainable designEfficient energy useSustainable energyEnvironmental scienceSolar energyComputer scienceEngineeringRenewable energyEngineering physicsSustainabilityGeographyArchitectureElectrical engineeringEcologyArchaeologyBiologyBuilding Energy and Comfort Optimization