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    바닥복사난방 시스템의 성능평가를 위한 에뮬레이션 체계 구축

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    다국어 초록 (Multilingual Abstract) kakao i 다국어 번역

    As a number of new control devices, floor structure, hydronic components of a radiant floor heating system are being developed and introduced to the market, the need of holistic evaluation as well as component-level test is increasing profoundly. The performance of the system can be evaluated more accurately and holistically by considering the interaction between a building and system components. The evaluation of a system component and its influence on the performance of the whole system can be conducted by an emulation, which can combine the advantage of experimental method and computer simulation. This study aims at establishing an emulation platform which can provide a method to assess the overall performance of a radiant floor heating system. To do this, the precedent researches on the emulation were investigated for the purpose of deriving a strategy to realize system components in the emulation platform. Then each component in the system was classified into 'representation' and 'evaluation' component, according to the role in the performance evaluation. Based on the physical characteristics of the components, they were realized by three kinds of way (realistic, quasi-realistic, and simulated way) in the proposed emulation platform.
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    As a number of new control devices, floor structure, hydronic components of a radiant floor heating system are being developed and introduced to the market, the need of holistic evaluation as well as component-level test is increasing profoundly. The ...

    As a number of new control devices, floor structure, hydronic components of a radiant floor heating system are being developed and introduced to the market, the need of holistic evaluation as well as component-level test is increasing profoundly. The performance of the system can be evaluated more accurately and holistically by considering the interaction between a building and system components. The evaluation of a system component and its influence on the performance of the whole system can be conducted by an emulation, which can combine the advantage of experimental method and computer simulation. This study aims at establishing an emulation platform which can provide a method to assess the overall performance of a radiant floor heating system. To do this, the precedent researches on the emulation were investigated for the purpose of deriving a strategy to realize system components in the emulation platform. Then each component in the system was classified into 'representation' and 'evaluation' component, according to the role in the performance evaluation. Based on the physical characteristics of the components, they were realized by three kinds of way (realistic, quasi-realistic, and simulated way) in the proposed emulation platform.

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    목차 (Table of Contents)

    • Abstract
    • 1. 서론
    • 2. 시스템 성능평가 방법에 대한 고찰
    • 3. 기존 에뮬레이션 체계 고찰
    • 4. 바닥복사난방 시스템의 에뮬레이션 체계 구축
    • Abstract
    • 1. 서론
    • 2. 시스템 성능평가 방법에 대한 고찰
    • 3. 기존 에뮬레이션 체계 고찰
    • 4. 바닥복사난방 시스템의 에뮬레이션 체계 구축
    • 5. 결론
    • 참고문헌
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    참고문헌 (Reference)

    1 국토해양부, "친환경 주택의 건설기준 및 성능"

    2 김광우, "온돌기술의 현재 및 개발방향" (88) : 2006

    3 박철수, "규범적 건물성능 평가방법" 대한건축학회 22 (22): 337-344, 2006

    4 "Zupancic Extension software for real-time control system design and implementation with MATLAB-SIMULINK"

    5 CEN, "Water based surface embedded heating and cooling systems - Part 2: Floor heating: Prove methods for the determination of the thermal output using calculation and test methods"

    6 Bushby, S., "Using the Virtual Cybernetic Building Testbed and FDD Test Shell for FDD Tool Development"

    7 Kelly, G., "Using emulators to evaluate the performance of building energy management systems" 100 (100): 1994

    8 Hensen, J., "Towards an integral approach of building and HVAC system" 19 : 1993

    9 Karlsson, H., "Thermal system analysis of embedded building integrated heating - Numerical model and validation of hydronic floor heating systems" Chalmers University of Technology 2006

    10 Vaezi-Nejad, H., "The use of building emulators to evaluate the performance of Building Energy Management Systems" 1991

    1 국토해양부, "친환경 주택의 건설기준 및 성능"

    2 김광우, "온돌기술의 현재 및 개발방향" (88) : 2006

    3 박철수, "규범적 건물성능 평가방법" 대한건축학회 22 (22): 337-344, 2006

    4 "Zupancic Extension software for real-time control system design and implementation with MATLAB-SIMULINK"

    5 CEN, "Water based surface embedded heating and cooling systems - Part 2: Floor heating: Prove methods for the determination of the thermal output using calculation and test methods"

    6 Bushby, S., "Using the Virtual Cybernetic Building Testbed and FDD Test Shell for FDD Tool Development"

    7 Kelly, G., "Using emulators to evaluate the performance of building energy management systems" 100 (100): 1994

    8 Hensen, J., "Towards an integral approach of building and HVAC system" 19 : 1993

    9 Karlsson, H., "Thermal system analysis of embedded building integrated heating - Numerical model and validation of hydronic floor heating systems" Chalmers University of Technology 2006

    10 Vaezi-Nejad, H., "The use of building emulators to evaluate the performance of Building Energy Management Systems" 1991

    11 Morini, G., "The simulation of transients in thermal plant - Part I: Mathematical model" 27 : 2007

    12 Peitsman, H., "The reproducibility of tests on energy management and control systems using building emulators" 100 : 1994

    13 McGregor, I., "The relationship between simulation and emulation" 2002

    14 Damianos, X., "The development of a dynamic model to simulate boiler controls" 28 (28): 2007

    15 Haves, P., "The building controls virtual test bed - A simulation environment for developing and testing control algorithms, strategies and systems" 2007

    16 Kalagasidis, A., "The International Building Physics Toolbox in Simulink" 39 : 2007

    17 Papillon, P., "Solar combisystems: state of the art and perspectives" 2007

    18 Clarke, J., "Simulation-assisted control in building energy management systems" 34 : 2002

    19 Gruber, P., "SIMTEST: SIMulation models for TESTing control systems for heating and ventilating and air conditioning application" 1999

    20 Riederer, P., "SIMTEST-ELEC: A virtual laboratory for the test of terminal controllers for electric heating systems following a draft European standard" 2005

    21 Husaunndee, A., "SIMBAD: A simulation toolbox for the design and test of HVAC control systems" 1997

    22 Visier, J., "Results of the application of a quality assessment procedure to different building energy management systems" 1994

    23 Salsbury, T., "Performance validation and energy analysis of HVAC system using simulation" 32 : 2000

    24 Trcka, M., "Overview of HVAC system simulation" Automation in Construction 2009

    25 da Silva, P., "LabHouse : System simulation and emulation within boiler development" 24 (24): 2003

    26 Drueck, H., "European test facilities for solar combisystems and heat stores" IEA 2002

    27 Crawley, D., "EnergyPlus: Energy Simulation Program" 42 : 2000

    28 Clarke, J., "Energy Simulation in Building Design" Butterworth-Heinemann 2001

    29 Riederer, P., "Dynamic test method for the determination of the global seasonal performance factor of heat pumps used for heating, cooling and domestic hot water preparation" 2009

    30 Thorsen, E, "Dynamic simulation of DH House Stations" Technical paper for Danfoss 2002

    31 Wang, S., "Dynamic and real-time simulation of BMS and air-conditioning system as a 'living' environment for learning/training" 10 : 2001

    32 Lahrech, R., "Development of a testing method for control HVAC systems by emulation" 34 : 2002

    33 Riederer, P., "Development and quality improvement of HVAC control systems in virtual laboratories" 2001

    34 Clarke, J., "Control in building energy management systems: The role of simulation" 2001

    35 신기식, "BAS 성능 평가를 위한 HVAC용 Emulator 개발" 1995

    36 Anderson, M., "An experimental system for advanced heating, ventilating and air conditioning (HVAC) control" 39 : 2007

    37 Haves, P., "A standard simulation test bed for the evaluation of control algorithms and strategies" ASHRAE 1996

    38 Xu, P., "A simulation-based testing and training environment for building controls, Proceedings of SimBuild 2004"

    39 Athienitis, A., "A methodology for integrated building-HVAC system thermal analysis" 28 (28): 1993

    40 Decious, G., "A low-cost building/HVAC emulator" 1997

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    학술지 이력

    학술지 이력
    연월일 이력구분 이력상세 등재구분
    2022 평가 계속평가 신청대상 (등재유지)
    2017-01-01 등재 우수등재학술지 선정 (계속평가)
    2013-01-01 등재 등재학술지 유지 (등재유지) KCI등재
    2011-03-25 학술지명변경 한글명 : 대한건축학회논문집 -> 대한건축학회논문집 계획계
    외국어명 : Journal of the Architectural Institute of Korea -> Journal of the Architectural Institute of Korea Planning & Design
    KCI등재
    2010-01-01 등재 등재학술지 유지 (등재유지) KCI등재
    2008-01-01 등재 등재학술지 유지 (등재유지) KCI등재
    2006-08-02 학술지명변경 외국어명 : Journal of the Architectural Institute of Korea, Structure&Construction -> Journal of the Architectural Institute of Korea KCI등재
    2006-01-01 등재 등재학술지 유지 (등재유지) KCI등재
    2005-10-14 학술지명변경 한글명 : 대한건축학회논문집 구조계 -> 대한건축학회논문집 KCI등재
    2004-01-01 등재 등재학술지 유지 (등재유지) KCI등재
    2001-07-01 등재 등재학술지 선정 (등재후보2차) KCI등재
    1999-01-01 등재 등재후보학술지 선정 (신규평가) KCI등재후보
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    학술지 인용정보

    학술지 인용정보
    기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
    2016 0.38 0.38 0.38
    KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
    0.41 0.4 0.742 0.11
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