Journals Information
Civil Engineering and Architecture Vol. 13(5), pp. 3668 - 3677
DOI: 10.13189/cea.2025.130515
Reprint (PDF) (987Kb)
Sustainable Material Integration for Thermal Comfort and Resilience in Arid Climates of India
Ruma Kalla *, Ravish Kumar , Sandeep Kumar
Department of Architecture and Planning, National Institute of Technology, Patna, India
ABSTRACT
Sustainable development is a vital approach to tackling the urgent environmental, social, and economic challenges we face today. In the hot and dry western part of India, known for its arid conditions and soaring temperatures, using sustainable materials in building construction can significantly boost sustainability efforts. This paper aims to thoughtfully explore the core principles of sustainable development, highlight the critical need for sustainable building materials, and share insights into specific materials that are particularly well-suited to the unique climate of this region. The western region of India, with its extreme temperatures, low humidity, and limited water resources, really needs a contextual approach to sustainable development. This paper thoughtfully investigates the essential principles of sustainable development, focusing on the important role of sustainable building materials in lessening environmental impact and improving thermal comfort. By addressing the specific challenges of the area, the study looks at and evaluates traditional and locally sourced materials鈥攍ike lime, mud bricks, and local sandstone that have shown remarkable performance in this climate. By blending local wisdom with modern sustainability measures, the paper provides insights into the properties of materials, construction methods, and their importance in today's architectural practices. The findings highlight how these sustainable materials can not only help reduce ecological footprints, but also guide policy, design, and construction strategies tailored for arid zones. This paper decodes the thermal and structural logic of vernacular materials through lab testing, simulations, and real-world comparisons, eventually demonstrating their capacity to reduce cooling loads by approximately 65%, lower embodied carbon, and support region-specific sustainable construction, offering a practical framework for climate resilient and low impact building practices in hot and arid zones.
KEYWORDS
Sustainable, Climate, Strategies, Materials, Environmental
Cite This Paper in IEEE or APA Citation Styles
(a). IEEE Format:
[1] Ruma Kalla , Ravish Kumar , Sandeep Kumar , "Sustainable Material Integration for Thermal Comfort and Resilience in Arid Climates of India," Civil Engineering and Architecture, Vol. 13, No. 5, pp. 3668 - 3677, 2025. DOI: 10.13189/cea.2025.130515.
(b). APA Format:
Ruma Kalla , Ravish Kumar , Sandeep Kumar (2025). Sustainable Material Integration for Thermal Comfort and Resilience in Arid Climates of India. Civil Engineering and Architecture, 13(5), 3668 - 3677. DOI: 10.13189/cea.2025.130515.