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Seung-Ho Yoo

Research Professor

Yonsei University

South Korea

5 profile visitsPartner in a CETPartnership funded project

Ecological plus energy building model that can effectively utilize renewable energy systems combined with vernacular technologies to mitigate climate change.

My organisation

The history of Yonsei University began on April 10th, 1885, as Korea’s first modern hospital "Gwanghyewon". Yonsei University’s 123 research centers conduct interdisciplinary, policy-relevant research and foster globally-minded, creative leaders of convergence research. Institute of Symbiotic Life-TECH (Technology, Ecology, Culture, Human) fosters theology related to symbiotic life, build a knowledge base through the exchange of up-to-date information, develop theory and research that can contribute to the development of the national new growth engine industry, industry-academia cooperation, and expert retraining. The solar architecture laboratory in the institute is the fittest one for a renewable radiant cooling system development in the world, always thinking in the most ecological way for the built environment, embedding passive intelligence into buildings, especially also in the context of the MB-BIPVS, etc. The simulation program "SolCel" as a direct energy simulation tool for MB-BIPVS systems etc. that the research group has developed for the solar architecture, is the best one in the world that can simulate a system such as the MB-BIPVS of this proposal. We are convinced that the evaluation standard and methodologies for optimization of solar architecture, the simulation tool "SolCel", and some passive intelligence that we have developed could be the best consultant in an ecological way for a sustainable world in the building sector to mitigate greenhouse gases or reduce fossil fuel energy consumption. By utilizing a radiant heating system, we have developed and evaluated a system that can take care of most of the cooling load and secure thermal comfort and optimal ventilation. We are concentrated on developing an innovative system that can ecologically reduce the energy required for cooling load by using natural energy sources through a convergence of the radiative cooling and heating system. We have also developed the simulation program “COMFORT” for the thermal comfort simulation and the simulation program “RADIANT” for the radiant cooling & heating capacity prediction within a radiant enclosure that can be used for the system simulation, with the reasonable patent for a renewable radiant cooling system. The evaluation standard and methodologies for a solar architecture, realizing a reasonable nearly zero energy building, that the research group has developed, has become also the official standard of Korean Solar Energy Society (KSES, www.kses.re.kr ) and the Korean Society of Living Environment System (KSLES, www.ksles.org/ ) since 2013. This experience and results can lead to an excellent direction to make criteria for this project.
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About me

My organisation

The history of Yonsei University began on April 10th, 1885, as Korea’s first modern hospital "Gwanghyewon". Yonsei University’s 123 research centers conduct interdisciplinary, policy-relevant research and foster globally-minded, creative leaders of convergence research. Institute of Symbiotic Life-TECH (Technology, Ecology, Culture, Human) fosters theology related to symbiotic life, build a knowledge base through the exchange of up-to-date information, develop theory and research that can contribute to the development of the national new growth engine industry, industry-academia cooperation, and expert retraining. The solar architecture laboratory in the institute is the fittest one for a renewable radiant cooling system development in the world, always thinking in the most ecological way for the built environment, embedding passive intelligence into buildings, especially also in the context of the MB-BIPVS, etc. The simulation program "SolCel" as a direct energy simulation tool for MB-BIPVS systems etc. that the research group has developed for the solar architecture, is the best one in the world that can simulate a system such as the MB-BIPVS of this proposal. We are convinced that the evaluation standard and methodologies for optimization of solar architecture, the simulation tool "SolCel", and some passive intelligence that we have developed could be the best consultant in an ecological way for a sustainable world in the building sector to mitigate greenhouse gases or reduce fossil fuel energy consumption. By utilizing a radiant heating system, we have developed and evaluated a system that can take care of most of the cooling load and secure thermal comfort and optimal ventilation. We are concentrated on developing an innovative system that can ecologically reduce the energy required for cooling load by using natural energy sources through a convergence of the radiative cooling and heating system. We have also developed the simulation program “COMFORT” for the thermal comfort simulation and the simulation program “RADIANT” for the radiant cooling & heating capacity prediction within a radiant enclosure that can be used for the system simulation, with the reasonable patent for a renewable radiant cooling system. The evaluation standard and methodologies for a solar architecture, realizing a reasonable nearly zero energy building, that the research group has developed, has become also the official standard of Korean Solar Energy Society (KSES, www.kses.re.kr ) and the Korean Society of Living Environment System (KSLES, www.ksles.org/ ) since 2013. This experience and results can lead to an excellent direction to make criteria for this project. Research oriented university in Seoul, South Korea

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Skills

  • BIPV, Radiant cooling, Solar energy

Interests

  • Criteria for ecological plus energy building

Additional questions

I am interested in the following CETPartnership thematic areas:

develop the optimised, integrated European net-zero emissions energy systemprovide solutions and technologies for buildings to become an active element in the energy system

Marketplace (1)

  • Project cooperation

    Ecological Plus Energy Building (EPEB)

    This research aims to ecologically supply optimal criteria and energy harvesting methodologies for EPEB.

    • Other
    • R&D Partner
    • Technology Partner
    • CM2024-10: Clean energy integration in the built environment
    Author

    Seung-Ho Yoo

    Research Professor at Yonsei University

    South Korea