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用于简化城市热效率规划的数据分析

Data analytics for simplifying thermal efficiency planning in cities.

作者信息

Abdolhosseini Qomi Mohammad Javad, Noshadravan Arash, Sobstyl Jake M, Toole Jameson, Ferreira Joseph, Pellenq Roland J-M, Ulm Franz-Josef, Gonzalez Marta C

机构信息

Department of Civil and Environmental Engineering, University of California at Irvine, Irvine, CA 92617, USA.

Zachary Department of Civil Engineering, Texas A&M University, TX 77843, USA.

出版信息

J R Soc Interface. 2016 Apr;13(117). doi: 10.1098/rsif.2015.0971.

Abstract

More than 44% of building energy consumption in the USA is used for space heating and cooling, and this accounts for 20% of national CO2emissions. This prompts the need to identify among the 130 million households in the USA those with the greatest energy-saving potential and the associated costs of the path to reach that goal. Whereas current solutions address this problem by analysing each building in detail, we herein reduce the dimensionality of the problem by simplifying the calculations of energy losses in buildings. We present a novel inference method that can be used via a ranking algorithm that allows us to estimate the potential energy saving for heating purposes. To that end, we only need consumption from records of gas bills integrated with a building's footprint. The method entails a statistical screening of the intricate interplay between weather, infrastructural and residents' choice variables to determine building gas consumption and potential savings at a city scale. We derive a general statistical pattern of consumption in an urban settlement, reducing it to a set of the most influential buildings' parameters that operate locally. By way of example, the implications are explored using records of a set of (N= 6200) buildings in Cambridge, MA, USA, which indicate that retrofitting only 16% of buildings entails a 40% reduction in gas consumption of the whole building stock. We find that the inferred heat loss rate of buildings exhibits a power-law data distribution akin to Zipf's law, which provides a means to map an optimum path for gas savings per retrofit at a city scale. These findings have implications for improving the thermal efficiency of cities' building stock, as outlined by current policy efforts seeking to reduce home heating and cooling energy consumption and lower associated greenhouse gas emissions.

摘要

在美国,超过44%的建筑能耗用于空间供暖和制冷,这占全国二氧化碳排放量的20%。这促使人们需要在美国1.3亿户家庭中找出节能潜力最大的家庭,以及实现该目标所需的相关成本。目前的解决方案是通过详细分析每栋建筑来解决这个问题,而我们在此通过简化建筑物能量损失的计算来降低问题的维度。我们提出了一种新颖的推理方法,该方法可以通过排序算法使用,使我们能够估计供暖目的的潜在节能效果。为此,我们只需要结合建筑物占地面积的燃气账单记录中的能耗数据。该方法需要对天气、基础设施和居民选择变量之间复杂的相互作用进行统计筛选,以确定城市规模下的建筑物燃气消耗和潜在节能效果。我们推导了城市住区能耗的一般统计模式,将其简化为一组在当地运行的最具影响力的建筑物参数。例如,我们利用美国马萨诸塞州剑桥市一组(N = 6200)建筑物的记录进行了分析,结果表明,仅对16%的建筑物进行改造就能使整个建筑存量的燃气消耗减少40%。我们发现,推断出的建筑物热损失率呈现出类似于齐普夫定律的幂律数据分布,这为在城市规模上为每次改造绘制最佳的燃气节约路径提供了一种方法。正如当前旨在减少家庭供暖和制冷能耗以及降低相关温室气体排放的政策努力所概述的那样,这些发现对提高城市建筑存量的热效率具有重要意义。

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