Architectural design for climate resilience: Adapting buildings to Nigeria’s diverse climatic zones

Andikan Udofot Umana 1, Baalah Matthew Patrick Garba 2, *, Abayomi Ologun 3, Johnson Segun Olu 4 and Muritala Omeiza Umar 5

1 Relsify LTD, Lagos, Nigeria.
2 Cypress & Myrtles Real Estate Limited, Abuja, Nigeria.
3 RSK Group (Proeon System Ltd), Birmingham, UK.
4 UMgungundlovu TVET College Edendale Campus Pietermaritzburg, South Africa.
5 Independent Researcher, Doha, Qatar.
 
Review Article
World Journal of Advanced Research and Reviews, 2024, 23(03), 397–408
Article DOI: 10.30574/wjarr.2024.23.3.2701
 
Publication history: 
Received on 23 July 2024; revised on 29 August 2024; accepted on 31 August 2024
 
Abstract: 
This study investigates the integration of climate-resilient architectural strategies as a response to the increasing challenges posed by climate change. The research focuses on evaluating the effectiveness of incorporating smart technologies, renewable energy sources and green infrastructure into architectural designs to enhance the resilience and sustainability of buildings. Through a thorough literature review and analysis of case studies, this study identifies both the challenges and opportunities presented by these innovative approaches.
The research employs an interdisciplinary methodology, combining theoretical frameworks with practical examples to assess the technological advancements, economic impacts, and environmental benefits associated with climate-resilient architecture. The findings highlight that while smart technologies enhance building adaptability and energy efficiency, they also introduce challenges related to cybersecurity and long-term sustainability. The integration of renewable energy systems is shown to significantly reduce carbon footprints, although the effectiveness of these systems varies across different climatic zones. Additionally, green infrastructure, especially in urban settings, plays a critical role in mitigating the effects of urban heat islands and promoting ecological balance.
The study concludes that a successful implementation of climate-resilient architecture necessitates a comprehensive approach that harmonizes technological innovation with environmental stewardship and social equity. Future research is recommended to focus on the development of secure and sustainable smart building systems, the optimization of renewable energy integration strategies, and the creation of sustainable models for green infrastructure. These findings contribute to the ongoing global discourse on sustainable development and provide a strategic framework for architects, urban planners, and policymakers dedicated to building resilient and sustainable environments.
 
Keywords: 
Climate-resilient architecture; Smart technologies; Renewable energy; Green infrastructure; Sustainability; Urban planning.
 
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