科技通报
科技通報
과기통보
BULLETIN OF SCIENCE AND TECHNOLOGY
2015年
2期
203-205
,共3页
低碳节能%小城镇居住区%城市规划%仿真
低碳節能%小城鎮居住區%城市規劃%倣真
저탄절능%소성진거주구%성시규화%방진
low carbon and energy saving%the small town residential district%city planning%simulation
随着工业化和城市化进程推进,小城镇居住区的低碳节能规划设计关系到城市发展和人们生活健康。考虑低碳节点效果,提出一种基于二氧化碳含量和温度自回归分析的小城镇居住区规划设计模型。模型设计包括了城镇的楼宇建筑设计、绿化景观和风景园林设计等。通过可持续发展的建筑规划选址、合理的土地利用、适宜的功能分区、安全便捷的交通系统等子系统设计完成居住区的整体规划。采用功能分区合并技术,把绿地系统分自然绿地、居住绿地、活动绿地、庭院绿地。规划区域主要分为生活区和活动区、绿色生态区、商业区等四大区域,以光照、温度、湿度和绿化植物的碳吸收和释氧量为自回归参数进行数学建模。充分利用的南向采光和立体采光,使得居住区的光照强度增加。仿真实验结果得出,该模型具有较好的低碳节能效果,居民满意度提高。
隨著工業化和城市化進程推進,小城鎮居住區的低碳節能規劃設計關繫到城市髮展和人們生活健康。攷慮低碳節點效果,提齣一種基于二氧化碳含量和溫度自迴歸分析的小城鎮居住區規劃設計模型。模型設計包括瞭城鎮的樓宇建築設計、綠化景觀和風景園林設計等。通過可持續髮展的建築規劃選阯、閤理的土地利用、適宜的功能分區、安全便捷的交通繫統等子繫統設計完成居住區的整體規劃。採用功能分區閤併技術,把綠地繫統分自然綠地、居住綠地、活動綠地、庭院綠地。規劃區域主要分為生活區和活動區、綠色生態區、商業區等四大區域,以光照、溫度、濕度和綠化植物的碳吸收和釋氧量為自迴歸參數進行數學建模。充分利用的南嚮採光和立體採光,使得居住區的光照彊度增加。倣真實驗結果得齣,該模型具有較好的低碳節能效果,居民滿意度提高。
수착공업화화성시화진정추진,소성진거주구적저탄절능규화설계관계도성시발전화인문생활건강。고필저탄절점효과,제출일충기우이양화탄함량화온도자회귀분석적소성진거주구규화설계모형。모형설계포괄료성진적루우건축설계、녹화경관화풍경완림설계등。통과가지속발전적건축규화선지、합리적토지이용、괄의적공능분구、안전편첩적교통계통등자계통설계완성거주구적정체규화。채용공능분구합병기술,파록지계통분자연록지、거주록지、활동록지、정원록지。규화구역주요분위생활구화활동구、록색생태구、상업구등사대구역,이광조、온도、습도화녹화식물적탄흡수화석양량위자회귀삼수진행수학건모。충분이용적남향채광화입체채광,사득거주구적광조강도증가。방진실험결과득출,해모형구유교호적저탄절능효과,거민만의도제고。
Along with the industrialization and the city to promote the process of the small towns, residential planning and design of low carbon energy related to the city development and people life health. Considering the effect of low carbon nodes, puts forward a kind of carbon content and temperature based on the regression analysis of the small town planning and design of residential district model. It includes the urban building architectural design, landscape design and land?scape construction. Using the function partition merging technique, the green space system analysis of natural green space, residential green space, green courtyard activity. Regional planning is mainly divided into the living area and activity area, green ecological zone, commercial zone and the four regions, to absorb the light, temperature, humidity and greening plant carbon and oxygen release for mathematical modeling of autoregressive parameters. Make full use of lighting to lighting and three-dimensional, so that residential area of increasing light intensity. The simulation experiment results show that the model has low carbon better energy-saving effect, improve the satisfaction of residents.
