典型文献
Urban microclimate and energy consumption:A multi-objective parametric urban design approach for dense subtropical cities
文献摘要:
Climate change within the urban contexts is a crisis that cities are confronting glob-ally.This issue poses numerous negative consequences such as thermal discomfort and increased energy usage within the building sector.This is especially the case in Western Syd-ney,Australia,where the average maximum temperature has risen by 7-8℃within the past 30 years.This increase in temperature is highly concerning,since this region is witnessing rapid urban and infrastructural development and is proposed as the third-largest economy of Australia.Temperature changes in this region will also result in considerably increasing the electricity used for cooling purposes.This paper presents a parametric approach driven multi-objective optimization methodology to discover optimum design solution based on the urban microclimate and cooling energy demand of multi-functional buildings within this urban context.Mitigation measures including a range of design factors at both building(typology and window to wall ratio)and urban scales(aspect ratio and urban grid rotation)are further sug-gested for developing context sensitive optimum urban layouts.The resultant solutions indi-cate an improvement in urban thermal comfort,cooling and heating energy use by up to 25.85%,72.76%,and 93.67%,respectively.
文献关键词:
中图分类号:
作者姓名:
Nastaran Abdollahzadeh;Nimish Bilori
作者机构:
Faculty of Design Architecture and Building,University of Technology Sydney,Sydney,Australia;Faculty of Engineering and the Built Environment,University of Johannesburg,Johannesburg,South Africa
文献出处:
引用格式:
[1]Nastaran Abdollahzadeh;Nimish Bilori-.Urban microclimate and energy consumption:A multi-objective parametric urban design approach for dense subtropical cities)[J].建筑学研究前沿(英文版),2022(03):453-465
A类:
Syd
B类:
Urban,microclimate,energy,consumption,multi,objective,parametric,urban,design,approach,dense,subtropical,cities,Climate,within,contexts,crisis,that,are,confronting,glob,This,issue,numerous,negative,consequences,such,thermal,discomfort,increased,usage,sector,especially,case,ney,Australia,where,average,maximum,temperature,has,risen,by,past,years,highly,concerning,since,this,region,witnessing,rapid,infrastructural,development,proposed,third,largest,economy,Temperature,changes,will,also,considerably,increasing,electricity,used,cooling,purposes,paper,presents,driven,optimization,methodology,discover,optimum,demand,functional,buildings,Mitigation,measures,including,range,factors,both,typology,window,wall,ratio,scales,aspect,grid,rotation,further,sug,gested,developing,sensitive,layouts,resultant,solutions,indi,cate,improvement,heating,up,respectively
AB值:
0.605384
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