Browsing by Author "Batbayar Altanbagana"

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    Production Process Design of The Air-packed Insulator which is made of recycled plastic
    (German Mongolian Institute for Resouce and Technology, 2023-05-16) Batbayar Altanbagana; Sungchil Lee; Norovrinchen Odbileg
    This thesis explores the creation of an innovative, eco-friendly, and energy-efficient insulation approach for traditional Mongolian Gers, utilizing recycled plastic as the main component for air-packed insulators. Given the distinct insulation challenges associated with Mongol Gers, including energy use and environmental repercussions, the research seeks to address these concerns by examining the feasibility of recycled plastic materials in developing air-packed insulators that can bolster the thermal efficiency of Gers, diminish heating expenses, and support environmental sustainability.
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    Production Process Design of The Air-packed Insulator which is made of recycled plastic
    (German Mongolian Institute for Resouce and Technology, 2023-05-16) Batbayar Altanbagana; Sungchil Lee; Norovrinchen Odbileg
    This thesis explores the creation of an innovative, eco-friendly, and energy-efficient insulation approach for traditional Mongolian Gers, utilizing recycled plastic as the main component for air-packed insulators. Given the distinct insulation challenges associated with Mongol Gers, including energy use and environmental repercussions, the research seeks to address these concerns by examining the feasibility of recycled plastic materials in developing air-packed insulators that can bolster the thermal efficiency of Gers, diminish heating expenses, and support environmental sustainability. The investigation concentrated on refining design parameters, manufacturing methodologies, and conducting a theoretical evaluation of the air-packed insulator's performance. The proposed insulator demonstrated effective insulation capabilities, ease of installation, storage, and transportation, making it a pragmatic and cost-efficient solution for Gers. The insulator's compatibility with the unique curved lattice wall structure of Gers ensures proper insulation and a tailored fit for different Ger sizes. Employing recycled plastic encourages environmental sustainability by repurposing plastic waste and decreasing the need for new materials. The production process showcased a dedication to sustainable and environmentally conscious practices. The study assessed potential energy conservation, cost reduction, and environmental advantages, emphasizing the substantial potential of the air-packed insulator as a suitable insulation solution for traditional Mongol Gers. Future research avenues include further optimization of design parameters, experimental validation, life cycle analysis, and the incorporation of renewable energy sources. This thesis contributes to the advancement of a sustainable and energy-efficient insulation strategy that can enhance living conditions for Mongol Ger residents while reducing environmental consequences.