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Energy Use and Indoor Environment Performance in Sustainably Designed Refugee Shelters: Three Incremental Phases

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  • Rojhat Ibrahim

    (Marcel Breuer Doctoral School, University of Pécs, Boszorkány u. 2, 7624 Pecs, Hungary
    Department of Architectural Engineering, University of Duhok, Duhok 42001, Iraq
    Energy Design Research Group, Institute of Architecture, Faculty of Engineering and Information Technology, University of Pécs, 7624 Pecs, Hungary)

  • Bálint Baranyai

    (Energy Design Research Group, Institute of Architecture, Faculty of Engineering and Information Technology, University of Pécs, 7624 Pecs, Hungary
    Department of Building Structures and Energy Design, Institute of Architecture, Faculty of Engineering and Information Technology, University of Pécs, 7624 Pecs, Hungary)

  • Haval Abdulkareem

    (Department of Architectural Engineering, University of Duhok, Duhok 42001, Iraq)

  • Tamás János Katona

    (Marcel Breuer Doctoral School, University of Pécs, Boszorkány u. 2, 7624 Pecs, Hungary)

Abstract

Globally, natural and man-made disasters continue to force the displacement of masses of people. Existing studies show that several aspects have not been integrated into constructing refugee camps and shelters to achieve sustainability, such as long lifespan, indoor thermal comfort and air quality, energy efficiency, socio-cultural aspects, integration with local planning and design systems, and environmental impact. This study integrates the above factors in six refugee core shelters, designed based on the Middle Eastern cultural context using locally available sustainable construction materials and techniques. The prototypes are situated on two different building plots, i.e., terraced and end-of-terrace, and undergo three development phases, known as the incremental improvement strategy. The study focuses on their energy and indoor environment performance and provides empirical assessments undertaken using dynamic building simulations. It shows that the adopted approach to design and construction leads to remarkable improvements in their overall performance. Concerning energy use, compared to the base case scenarios built with conventional materials, the proposed prototypes show an opportunity to save energy up to 10,000 kWh per unit per year, equivalent to almost 2500 USD savings in energy bills. This is while achieving accepted level for almost 89–94% of thermal comfort hours and 74–85% predicted mean vote (PMV), respectively. However, the CO 2 concentration level remains relatively low, ranging from 29 to 51%.

Suggested Citation

  • Rojhat Ibrahim & Bálint Baranyai & Haval Abdulkareem & Tamás János Katona, 2023. "Energy Use and Indoor Environment Performance in Sustainably Designed Refugee Shelters: Three Incremental Phases," Sustainability, MDPI, vol. 15(8), pages 1-19, April.
    • Handle: RePEc:gam:jsusta:v:15:y:2023:i:8:p:6903-:d:1127650
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    References listed on IDEAS

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    1. Ajmal K. Manduzai & Arshad M. Abbasi & Shujaul M. Khan & Abdullah Abdullah & Julia Prakofjewa & Mohammad H. Amini & Muhammad S. Amjad & Kevin Cianfaglione & Michele F. Fontefrancesco & Renata Soukand , 2021. "The Importance of Keeping Alive Sustainable Foraging Practices: Wild Vegetables and Herbs Gathered by Afghan Refugees Living in Mansehra District, Pakistan," Sustainability, MDPI, vol. 13(3), pages 1-17, February.
    2. Lara Alshawawreh & Francesco Pomponi & Bernardino D’Amico & Susan Snaddon & Peter Guthrie, 2020. "Qualifying the Sustainability of Novel Designs and Existing Solutions for Post-Disaster and Post-Conflict Sheltering," Sustainability, MDPI, vol. 12(3), pages 1-19, January.
    3. Fuentes, M. & Vivar, M. & Hosein, H. & Aguilera, J. & Muñoz-Cerón, E., 2018. "Lessons learned from the field analysis of PV installations in the Saharawi refugee camps after 10 years of operation," Renewable and Sustainable Energy Reviews, Elsevier, vol. 93(C), pages 100-109.
    4. Rojhat Ibrahim & Sara Elhadad & Bálint Baranyai & Tamás János Katona, 2022. "Impact Assessment of Morphology and Layout of Zones on Refugees’ Affordable Core Shelter Performance," Sustainability, MDPI, vol. 14(18), pages 1-16, September.
    5. Mehran Dehghan & Carlos F. Pfeiffer & Elyas Rakhshani & Reza Bakhshi-Jafarabadi, 2021. "A Review on Techno-Economic Assessment of Solar Water Heating Systems in the Middle East," Energies, MDPI, vol. 14(16), pages 1-28, August.
    6. Mikyung Kim & Kyeonghee Kim & Eunjeong Kim, 2021. "Problems and Implications of Shelter Planning Focusing on Habitability: A Case Study of a Temporary Disaster Shelter after the Pohang Earthquake in South Korea," IJERPH, MDPI, vol. 18(6), pages 1-16, March.
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    Cited by:

    1. Igor Labuda & Federica Pugliese & Jolanata Dzwierzynska, 2024. "An Innovative Concept for 3D Sand-Printed Sustainable Refugee Shelters in a Sandy Desert in a Hot and Dry Climate," Sustainability, MDPI, vol. 16(6), pages 1-31, March.

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