Flexible housing resolves the fundamental conflicts between the long-standing structure and the evolving demands.We propose a computational method of optimizing the structural layout of high-rise residential buildings...Flexible housing resolves the fundamental conflicts between the long-standing structure and the evolving demands.We propose a computational method of optimizing the structural layout of high-rise residential buildings.Chinese high-rise apartment buildings have widely employed shear wall-frame structure in which one big room or multiple small rooms could occupy the same span.Fitting multiple floor plans into a fixed sparse scheme of shear walls and columns is feasible.We developed a computational framework to seek flexible structural schemes.A building scheme consists of a circulation core,shear walls,columns,and boundaries.The computer program automatically adapts floor plans to any drawn or generated scheme.Based on a large dataset of apartment layouts,the number of apartments that fit into a building scheme statistically reflects the flexibility of the scheme.If many hypothetical plans can fit into a wallframe structure in computer simulation,this structure could probably support several generations of unknown plans.Such a data-driven computational method provides the possibility of creating a one-to-many mapping between permanent structure and evolving apartment plans.展开更多
Apartments account for over 60%of total residential buildings and consume a significant portion of primary energy in South Korea.Various energy efficiency measures have been implemented for both new apartment construc...Apartments account for over 60%of total residential buildings and consume a significant portion of primary energy in South Korea.Various energy efficiency measures have been implemented for both new apartment constructions and existing apartment retrofits.Old apartment structures have poor thermal performances,resulting in a high energy consumption.The South Korean government initiated retrofitting projects to improve the energy efficiency in old apartments.Apartment owners typically replace old windows with high-performance windows;however,there is still a demand for better and more innovative retrofit methods for a highly improved energy efficiency.This paper proposes an advanced double-skin façade(DSF)system to replace existing balcony windows in old apartments.Considering the cold climate conditions of Seoul,South Korea,it mainly discusses heating energy savings.Three case models were developed:Base-Case with existing apartment,Case-1 with typical retrofitting,and Case-2 with the proposed DSF system.The EnergyPlus simulation program was used to develop simulation models for a floor radiant heating system.A typical gas boiler was selected for low-temperature radiant system modeling.The air flow network method was used to model the proposed DSF system.Five heating months,i.e.,November to March,and one representative day,i.e.,January 24,were selected for detailed analysis.The main heat loss areas consist of windows,walls,and infiltration.The results reveal that the apartment with the DSF retrofit saves 38.8%on the annual heating energy compared to the Base-Case and 35.2%compared to Case-1.展开更多
基金This work was supported by the National Natural Science Foundation of China(Grant No.52278008).
文摘Flexible housing resolves the fundamental conflicts between the long-standing structure and the evolving demands.We propose a computational method of optimizing the structural layout of high-rise residential buildings.Chinese high-rise apartment buildings have widely employed shear wall-frame structure in which one big room or multiple small rooms could occupy the same span.Fitting multiple floor plans into a fixed sparse scheme of shear walls and columns is feasible.We developed a computational framework to seek flexible structural schemes.A building scheme consists of a circulation core,shear walls,columns,and boundaries.The computer program automatically adapts floor plans to any drawn or generated scheme.Based on a large dataset of apartment layouts,the number of apartments that fit into a building scheme statistically reflects the flexibility of the scheme.If many hypothetical plans can fit into a wallframe structure in computer simulation,this structure could probably support several generations of unknown plans.Such a data-driven computational method provides the possibility of creating a one-to-many mapping between permanent structure and evolving apartment plans.
基金supported by the Korea Institute of Energy Technology Evaluation and Planning(KETEP)the Ministry of Trade,Industry&Energy(MOTIE)of the Republic of Korea(No.20172010000370).
文摘Apartments account for over 60%of total residential buildings and consume a significant portion of primary energy in South Korea.Various energy efficiency measures have been implemented for both new apartment constructions and existing apartment retrofits.Old apartment structures have poor thermal performances,resulting in a high energy consumption.The South Korean government initiated retrofitting projects to improve the energy efficiency in old apartments.Apartment owners typically replace old windows with high-performance windows;however,there is still a demand for better and more innovative retrofit methods for a highly improved energy efficiency.This paper proposes an advanced double-skin façade(DSF)system to replace existing balcony windows in old apartments.Considering the cold climate conditions of Seoul,South Korea,it mainly discusses heating energy savings.Three case models were developed:Base-Case with existing apartment,Case-1 with typical retrofitting,and Case-2 with the proposed DSF system.The EnergyPlus simulation program was used to develop simulation models for a floor radiant heating system.A typical gas boiler was selected for low-temperature radiant system modeling.The air flow network method was used to model the proposed DSF system.Five heating months,i.e.,November to March,and one representative day,i.e.,January 24,were selected for detailed analysis.The main heat loss areas consist of windows,walls,and infiltration.The results reveal that the apartment with the DSF retrofit saves 38.8%on the annual heating energy compared to the Base-Case and 35.2%compared to Case-1.
