Evaluating the household-level climate-electricity nexus across three cities through statistical learning techniques

IF 6.2 2区 经济学 Q1 ECONOMICS Socio-economic Planning Sciences Pub Date : 2023-10-01 DOI:10.1016/j.seps.2023.101664
Simon Pezalla , Renee Obringer
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Abstract

As the climate crisis intensifies, rising temperatures and increased frequency of extreme events are likely to strain the electricity system. This will be particularly disastrous if the grid is unprepared for the climate-induced shifts in electricity demand that will result from increased temperatures. Recently, the use of data-driven modeling has emerged as a way to predict these climate-induced changes in electricity demand, however, much of the work has focused on entire sectors or regions. Here, we focus on the impact of climatic variables on hourly household electricity use for air conditioning. Our goal was to determine the best model for predicting the air conditioning use based on climate variables, as well as use that model to extract insights related to the household-level climate-electricity nexus. Using smart meter data from three US cities (Austin, Texas, Ithaca, New York, and San Diego, California), we tested seven different models of varying complexity. Ultimately, Bayesian additive regression trees (BART) was selected as the best model across all three cities (NRMSE ranged between 0.085 and 0.250). Additionally, we found that while the majority of the climate variables were important, relative humidity was the most important variable in each city. Given that air conditioning tends to drive non-base electricity demand in the summer, understanding these nuances in the climate-electricity nexus as it applies to air conditioning is critical for building a resilient grid.

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通过统计学习技术评估三个城市的家庭层面气候-电力关系
随着气候危机的加剧,气温上升和极端事件的频率增加可能会给电力系统带来压力。如果电网对气温升高导致的气候变化导致的电力需求变化毫无准备,这将是灾难性的。最近,数据驱动模型的使用已经成为预测气候引起的电力需求变化的一种方法,然而,大部分工作都集中在整个行业或地区。在这里,我们关注气候变量对每小时家庭空调用电量的影响。我们的目标是确定基于气候变量预测空调使用的最佳模型,并使用该模型提取与家庭层面的气候-电力关系相关的见解。使用来自美国三个城市(德克萨斯州奥斯汀、伊萨卡、纽约和加利福尼亚州圣地亚哥)的智能电表数据,我们测试了七种不同复杂程度的不同模型。最终选择贝叶斯加性回归树(BART)作为三个城市的最佳模型(NRMSE范围为0.085 ~ 0.250)。此外,我们发现虽然大多数气候变量都很重要,但相对湿度是每个城市最重要的变量。考虑到夏季空调往往会推动非基础电力需求,了解气候-电力关系的这些细微差别,因为它适用于空调,对于建设一个有弹性的电网至关重要。
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来源期刊
Socio-economic Planning Sciences
Socio-economic Planning Sciences OPERATIONS RESEARCH & MANAGEMENT SCIENCE-
CiteScore
9.40
自引率
13.10%
发文量
294
审稿时长
58 days
期刊介绍: Studies directed toward the more effective utilization of existing resources, e.g. mathematical programming models of health care delivery systems with relevance to more effective program design; systems analysis of fire outbreaks and its relevance to the location of fire stations; statistical analysis of the efficiency of a developing country economy or industry. Studies relating to the interaction of various segments of society and technology, e.g. the effects of government health policies on the utilization and design of hospital facilities; the relationship between housing density and the demands on public transportation or other service facilities: patterns and implications of urban development and air or water pollution. Studies devoted to the anticipations of and response to future needs for social, health and other human services, e.g. the relationship between industrial growth and the development of educational resources in affected areas; investigation of future demands for material and child health resources in a developing country; design of effective recycling in an urban setting.
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