Feasibility of a Radiant Floor Cooling System for Residential Buildings with Massive Concrete Slab in a Hot and Humid Climate
In Korea, radiant floor heating systems are commonly used in residential buildings, even high-rise houses. If these existing radiant floor heating panels could be used for cooling as well, additional benefits beyond the basic advantages of radiant heating and cooling systems in terms of energy effic...
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| Published in | International journal of concrete structures and materials Vol. 13; no. 2; pp. 269 - 282 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Singapore
한국콘크리트학회
01.12.2018
Springer Singapore Springer Springer Nature B.V SpringerOpen |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1976-0485 2234-1315 |
| DOI | 10.1186/s40069-018-0314-z |
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| Abstract | In Korea, radiant floor heating systems are commonly used in residential buildings, even high-rise houses. If these existing radiant floor heating panels could be used for cooling as well, additional benefits beyond the basic advantages of radiant heating and cooling systems in terms of energy efficiency and comfort level could be conferred upon the homeowner, such as avoiding redundant investments for both heating and cooling equipment, and reducing the area occupied by the equipment. However, the comfort requirement of floor surface temperature has to be satisfied, because the human body comes in direct contact with the floor surface. In addition, dehumidification equipment is required to remove the latent load and to prevent surface condensation. It may be particularly difficult to apply such a system in high-rise residential buildings with massive concrete slabs as compared to light-weight buildings, because of the complexity of the system configuration and the thermal capacity of the building structure. In this study, the feasibility of radiant floor cooling systems (RFCS) for residential buildings with massive concrete slabs was evaluated. The strategy for the configuration and arrangement of an RFCS was based on the current configuration of the heating and cooling system as well as the cooling load. Then, through field testing, the performance of this system for cooling and condensation prevention was evaluated along with the occupants’ characteristics for adjusting parameters related to thermal comfort. As a result, an RFCS combined with supplementary equipment for dehumidification and cooling would satisfy the requirements for cooling and condensation prevention in a residential house with multi-zones. |
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| AbstractList | In Korea, radiant floor heating systems are commonly used in residential buildings, even high-rise houses. If these existing radiant floor heating panels could be used for cooling as well, additional benefits beyond the basic advantages of radiant heating and cooling systems in terms of energy efficiency and comfort level could be conferred upon the homeowner, such as avoiding redundant investments for both heating and cooling equipment, and reducing the area occupied by the equipment. However, the comfort requirement of floor surface temperature has to be satisfied, because the human body comes in direct contact with the floor surface. In addition, dehumidification equipment is required to remove the latent load and to prevent surface condensation. It may be particularly difficult to apply such a system in high-rise residential buildings with massive concrete slabs as compared to light-weight buildings, because of the complexity of the system configuration and the thermal capacity of the building structure. In this study, the feasibility of radiant floor cooling systems (RFCS) for residential buildings with massive concrete slabs was evaluated. The strategy for the configuration and arrangement of an RFCS was based on the current configuration of the heating and cooling system as well as the cooling load. Then, through field testing, the performance of this system for cooling and condensation prevention was evaluated along with the occupants’ characteristics for adjusting parameters related to thermal comfort. As a result, an RFCS combined with supplementary equipment for dehumidification and cooling would satisfy the requirements for cooling and condensation prevention in a residential house with multi-zones. In Korea, radiant floor heating systems are commonly used in residential buildings, even high-rise houses. If these existing radiant floor heating panels could be used for cooling as well, additional benefits beyond the basic advantages of radiant heating and cooling systems in terms of energy efficiency and comfort level could be conferred upon the homeowner, such as avoiding redundant investments for both heating and cooling equipment, and reducing the area occupied by the equipment. However, the comfort requirement of floor surface temperature has to be satisfied, because the human body comes in direct contact with the floor surface. In addition, dehumidification equipment is required to remove the latent load and to prevent surface condensation. It may be particularly difficult to apply such a system in high-rise residential buildings with massive concrete slabs as compared to light-weight buildings, because of the complexity of the system configuration and the thermal capacity of the building structure. In this study, the feasibility of radiant floor cooling systems (RFCS) for residential buildings with massive concrete slabs was evaluated. The strategy for the configuration and arrangement of an RFCS was based on the current configuration of the heating and cooling system as well as the cooling load. Then, through field testing, the performance of this system for cooling and condensation prevention was evaluated along with the occupants' characteristics for adjusting parameters related to thermal comfort. As a result, an RFCS combined with supplementary equipment for dehumidification and cooling would satisfy the requirements for cooling and condensation prevention in a residential house with multi-zones. Abstract In Korea, radiant floor heating systems are commonly used in residential buildings, even high-rise houses. If these existing radiant floor heating panels could be used for cooling as well, additional benefits beyond the basic advantages of radiant heating and cooling systems in terms of energy efficiency and comfort level could be conferred upon the homeowner, such as avoiding redundant investments for both heating and cooling equipment, and reducing the area occupied by the equipment. However, the comfort requirement of floor surface temperature has to be satisfied, because the human body comes in direct contact with the floor surface. In addition, dehumidification equipment is required to remove the latent load and to prevent surface condensation. It may be particularly difficult to apply such a system in high-rise residential buildings with massive concrete slabs as compared to light-weight buildings, because of the complexity of the system configuration and the thermal capacity of the building structure. In this study, the feasibility of radiant floor cooling systems (RFCS) for residential buildings with massive concrete slabs was evaluated. The strategy for the configuration and arrangement of an RFCS was based on the current configuration of the heating and cooling system as well as the cooling load. Then, through field testing, the performance of this system for cooling and condensation prevention was evaluated along with the occupants’ characteristics for adjusting parameters related to thermal comfort. As a result, an RFCS combined with supplementary equipment for dehumidification and cooling would satisfy the requirements for cooling and condensation prevention in a residential house with multi-zones. In Korea, radiant floor heating systems are commonly used in residential buildings, even high-rise houses. If theseexisting radiant floor heating panels could be used for cooling as well, additional benefits beyond the basic advantagesof radiant heating and cooling systems in terms of energy efficiency and comfort level could be conferred upon thehomeowner, such as avoiding redundant investments for both heating and cooling equipment, and reducing the areaoccupied by the equipment. However, the comfort requirement of floor surface temperature has to be satisfied,because the human body comes in direct contact with the floor surface. In addition, dehumidification equipment isrequired to remove the latent load and to prevent surface condensation. It may be particularly difficult to apply sucha system in high-rise residential buildings with massive concrete slabs as compared to light-weight buildings, becauseof the complexity of the system configuration and the thermal capacity of the building structure. In this study, thefeasibility of radiant floor cooling systems (RFCS) for residential buildings with massive concrete slabs was evaluated. The strategy for the configuration and arrangement of an RFCS was based on the current configuration of the heatingand cooling system as well as the cooling load. Then, through field testing, the performance of this system for coolingand condensation prevention was evaluated along with the occupants’ characteristics for adjusting parameters relatedto thermal comfort. As a result, an RFCS combined with supplementary equipment for dehumidification and coolingwould satisfy the requirements for cooling and condensation prevention in a residential house with multi-zones. KCI Citation Count: 0 |
| ArticleNumber | 80 |
| Audience | Academic |
| Author | Chang-Ho Jeong Kwang-Woo Kim Myoung-Souk Yeo |
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| CitedBy_id | crossref_primary_10_1016_j_applthermaleng_2023_121171 crossref_primary_10_1016_j_est_2022_105886 crossref_primary_10_1016_j_enbuild_2023_112772 crossref_primary_10_1016_j_rineng_2024_102544 crossref_primary_10_1080_23744731_2023_2234251 crossref_primary_10_1177_1420326X221107110 crossref_primary_10_3390_buildings13092354 crossref_primary_10_1007_s11630_022_1538_4 crossref_primary_10_1016_j_enbuild_2020_110263 |
| Cites_doi | 10.1186/s40069-018-0287-y 10.1016/0378-7788(95)00937-X 10.2114/jpa.17.61 10.1177/0143624412442512 10.1016/S0378-7788(98)00080-2 10.1016/S0378-7788(98)00084-X 10.1016/j.buildenv.2003.08.011 10.1016/j.enbuild.2008.10.002 10.1016/j.enbuild.2008.04.010 |
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| References | Handbook American Society of Heating, Refrigerating and Air-Conditioning EngineersHVAC systems and equipment2012AtlantaAmerican Society of Heating, Refrigerating and Air-Conditioning Engineers ZhangLEmuraKNakaneYA proposal of optimal floor surface temperature based on survey of literatures related to floor heating environment in JapanApplied Human Science2001172616610.2114/jpa.17.61 StetiuCEnergy and peak power savings potential of radiant cooling systems in US commercial buildingsEnergy and Buildings199930212713810.1016/S0378-7788(98)00080-2 International Organization for StandardizationErgonomics of the thermal environment: analytical determination and interpretation of thermal comfort using calculation of the PMV and PPD indices and local thermal comfort criteria2005GenevaInternational Organization for Standardization NewellSGogginsJInvestigation of thermal behaviour of a hybrid precasted concrete floor using embedded sensorsInternational Journal of Concrete Structures and Materials20181292194110.1186/s40069-018-0287-y NiuJKooiJVDRheeHVDEnergy saving possibilities with cooled-ceiling systemsEnergy and buildings199523214715810.1016/0378-7788(95)00937-X International Organization for StandardizationBuilding environment design. Design, dimensioning, installation and control of embedded radiant heating and cooling systems2012GenevaInternational Organization for Standardization Korean Statistical Information Service. http://kosis.kr. OlesenBWRadiant floor cooling systemsASHRAE Journal20085091622 Handbook American Society of Heating, Refrigerating and Air-Conditioning EngineersFundamentals2009AtlantaAmerican Society of Heating, Refrigerating and Air-Conditioning Engineers NaganoKMochidaTExperiments on thermal environmental design of ceiling radiant cooling for supine human subjectsBuilding and Environment200439326727510.1016/j.buildenv.2003.08.011 Standard American Society of Heating, Refrigerating, and Air Conditioning EngineersStandard 55-2004Thermal environmental conditions for human occupancy2004AtlantaAmerican Society of Heating, Refrigerating, and Air Conditioning Engineers ImanariTOmoriTBogakiKThermal comfort and energy consumption of the radiant ceiling panel system: Comparison with the conventional all-air systemEnergy and Buildings199930216717510.1016/S0378-7788(98)00084-X BabiakJOlesenBWPetrasDLow temperature heating and high temperature cooling: Embedded water based surface heating and cooling systems2009BelgiumRehva TianZLoveJAEnergy performance optimization of radiant slab cooling using building simulation and field measurementsEnergy and Buildings200941332033010.1016/j.enbuild.2008.10.002 JeongCHLeeJYYeoMSKimKWCooling load analysis of residential buildings for dehumidification/sub-cooling system in radiant coolingSustainable Buildings (SB)20071505512 SuiXZhangXHanXPerformance analysis on a residential radiant chilled ceiling system and evaluation on indoor thermal environment in summer: an applicationBuilding Services Engineering Research and Technology201334331733110.1177/0143624412442512 WangSMorimotoMSoedaHYamashitaTEvaluating the low exergy of chilled water in a radiant cooling systemEnergy and Buildings200840101856186510.1016/j.enbuild.2008.04.010 314_CR8 Handbook American Society of Heating, Refrigerating and Air-Conditioning Engineers (314_CR3) 2012 CH Jeong (314_CR7) 2007; 1 Z Tian (314_CR15) 2009; 41 L Zhang (314_CR17) 2001; 17 J Babiak (314_CR1) 2009 S Newell (314_CR001) 2018; 12 BW Olesen (314_CR11) 2008; 50 X Sui (314_CR14) 2013; 34 S Wang (314_CR16) 2008; 40 C Stetiu (314_CR13) 1999; 30 K Nagano (314_CR9) 2004; 39 Handbook American Society of Heating, Refrigerating and Air-Conditioning Engineers (314_CR2) 2009 T Imanari (314_CR4) 1999; 30 International Organization for Standardization (314_CR6) 2012 J Niu (314_CR10) 1995; 23 International Organization for Standardization (314_CR5) 2005 Standard American Society of Heating, Refrigerating, and Air Conditioning Engineers (314_CR12) 2004 |
| References_xml | – reference: NaganoKMochidaTExperiments on thermal environmental design of ceiling radiant cooling for supine human subjectsBuilding and Environment200439326727510.1016/j.buildenv.2003.08.011 – reference: SuiXZhangXHanXPerformance analysis on a residential radiant chilled ceiling system and evaluation on indoor thermal environment in summer: an applicationBuilding Services Engineering Research and Technology201334331733110.1177/0143624412442512 – reference: ZhangLEmuraKNakaneYA proposal of optimal floor surface temperature based on survey of literatures related to floor heating environment in JapanApplied Human Science2001172616610.2114/jpa.17.61 – reference: StetiuCEnergy and peak power savings potential of radiant cooling systems in US commercial buildingsEnergy and Buildings199930212713810.1016/S0378-7788(98)00080-2 – reference: Korean Statistical Information Service. http://kosis.kr. – reference: ImanariTOmoriTBogakiKThermal comfort and energy consumption of the radiant ceiling panel system: Comparison with the conventional all-air systemEnergy and Buildings199930216717510.1016/S0378-7788(98)00084-X – reference: Handbook American Society of Heating, Refrigerating and Air-Conditioning EngineersHVAC systems and equipment2012AtlantaAmerican Society of Heating, Refrigerating and Air-Conditioning Engineers – reference: International Organization for StandardizationBuilding environment design. Design, dimensioning, installation and control of embedded radiant heating and cooling systems2012GenevaInternational Organization for Standardization – reference: NiuJKooiJVDRheeHVDEnergy saving possibilities with cooled-ceiling systemsEnergy and buildings199523214715810.1016/0378-7788(95)00937-X – reference: BabiakJOlesenBWPetrasDLow temperature heating and high temperature cooling: Embedded water based surface heating and cooling systems2009BelgiumRehva – reference: TianZLoveJAEnergy performance optimization of radiant slab cooling using building simulation and field measurementsEnergy and Buildings200941332033010.1016/j.enbuild.2008.10.002 – reference: WangSMorimotoMSoedaHYamashitaTEvaluating the low exergy of chilled water in a radiant cooling systemEnergy and Buildings200840101856186510.1016/j.enbuild.2008.04.010 – reference: Handbook American Society of Heating, Refrigerating and Air-Conditioning EngineersFundamentals2009AtlantaAmerican Society of Heating, Refrigerating and Air-Conditioning Engineers – reference: JeongCHLeeJYYeoMSKimKWCooling load analysis of residential buildings for dehumidification/sub-cooling system in radiant coolingSustainable Buildings (SB)20071505512 – reference: International Organization for StandardizationErgonomics of the thermal environment: analytical determination and interpretation of thermal comfort using calculation of the PMV and PPD indices and local thermal comfort criteria2005GenevaInternational Organization for Standardization – reference: NewellSGogginsJInvestigation of thermal behaviour of a hybrid precasted concrete floor using embedded sensorsInternational Journal of Concrete Structures and Materials20181292194110.1186/s40069-018-0287-y – reference: OlesenBWRadiant floor cooling systemsASHRAE Journal20085091622 – reference: Standard American Society of Heating, Refrigerating, and Air Conditioning EngineersStandard 55-2004Thermal environmental conditions for human occupancy2004AtlantaAmerican Society of Heating, Refrigerating, and Air Conditioning Engineers – volume: 12 start-page: 921 year: 2018 ident: 314_CR001 publication-title: International Journal of Concrete Structures and Materials doi: 10.1186/s40069-018-0287-y – volume: 23 start-page: 147 issue: 2 year: 1995 ident: 314_CR10 publication-title: Energy and buildings doi: 10.1016/0378-7788(95)00937-X – volume-title: Building environment design. Design, dimensioning, installation and control of embedded radiant heating and cooling systems year: 2012 ident: 314_CR6 – ident: 314_CR8 – volume-title: Low temperature heating and high temperature cooling: Embedded water based surface heating and cooling systems year: 2009 ident: 314_CR1 – volume: 50 start-page: 16 issue: 9 year: 2008 ident: 314_CR11 publication-title: ASHRAE Journal – volume-title: Ergonomics of the thermal environment: analytical determination and interpretation of thermal comfort using calculation of the PMV and PPD indices and local thermal comfort criteria year: 2005 ident: 314_CR5 – volume: 1 start-page: 505 year: 2007 ident: 314_CR7 publication-title: Sustainable Buildings (SB) – volume-title: Fundamentals year: 2009 ident: 314_CR2 – volume: 17 start-page: 61 issue: 2 year: 2001 ident: 314_CR17 publication-title: Applied Human Science doi: 10.2114/jpa.17.61 – volume-title: HVAC systems and equipment year: 2012 ident: 314_CR3 – volume: 34 start-page: 317 issue: 3 year: 2013 ident: 314_CR14 publication-title: Building Services Engineering Research and Technology doi: 10.1177/0143624412442512 – volume: 30 start-page: 127 issue: 2 year: 1999 ident: 314_CR13 publication-title: Energy and Buildings doi: 10.1016/S0378-7788(98)00080-2 – volume: 30 start-page: 167 issue: 2 year: 1999 ident: 314_CR4 publication-title: Energy and Buildings doi: 10.1016/S0378-7788(98)00084-X – volume-title: Thermal environmental conditions for human occupancy year: 2004 ident: 314_CR12 – volume: 39 start-page: 267 issue: 3 year: 2004 ident: 314_CR9 publication-title: Building and Environment doi: 10.1016/j.buildenv.2003.08.011 – volume: 41 start-page: 320 issue: 3 year: 2009 ident: 314_CR15 publication-title: Energy and Buildings doi: 10.1016/j.enbuild.2008.10.002 – volume: 40 start-page: 1856 issue: 10 year: 2008 ident: 314_CR16 publication-title: Energy and Buildings doi: 10.1016/j.enbuild.2008.04.010 |
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| Snippet | In Korea, radiant floor heating systems are commonly used in residential buildings, even high-rise houses. If these existing radiant floor heating panels... In Korea, radiant floor heating systems are commonly used in residential buildings, even high-rise houses. If these existing radiant floor heating panels could... Abstract In Korea, radiant floor heating systems are commonly used in residential buildings, even high-rise houses. If these existing radiant floor heating... In Korea, radiant floor heating systems are commonly used in residential buildings, even high-rise houses. If theseexisting radiant floor heating panels could... |
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| SubjectTerms | Building Materials Concrete Concrete construction concrete slab Concrete slabs Condensation Configurations Construction for Concrete High-rise Buildings Contractors Cooling Cooling loads Cooling systems Dehumidification Energy efficiency Energy management systems Engineering Feasibility studies Floors Heating Heating systems High rise buildings Homeowners Houses HVAC equipment Innovative Technologies of Structural System Radiant cooling radiant floor cooling system Radiant heating residential building Residential buildings Solid Mechanics Structural Materials surface condensation Thermal comfort Vibration Control Weight reduction 토목공학 |
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| Title | Feasibility of a Radiant Floor Cooling System for Residential Buildings with Massive Concrete Slab in a Hot and Humid Climate |
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| Volume | 13 |
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| ispartofPNX | International Journal of Concrete Structures and Materials, 2019, 13(2), 46, pp.269-282 |
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