预测和模拟长期能源需求的统计模型

IF 5.4 Q2 ENERGY & FUELS
Ignacio Mauleón
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引用次数: 6

摘要

本研究旨在设计一个模型来预测和模拟在遥远的地平线上的世界总能源需求。这是通过统计估计所考虑的三个变量,即总初级能源、世界人口和国内生产总值的简化相互关联模型来完成的。该方法旨在基于模拟以GDP和人口为条件的能源需求,为当前实践提供一个补充视角。该模型基于从各自领域的知名研究人员和机构获得的跨越多年(1900年至2017年)的长期历史序列。估计模型允许对未来能源需求进行预测和风险/敏感性分析。采用替代解决方案和仿真方法来评估所得结果的鲁棒性。这些预测与文献中提出的关键相关路线图的结果进行了比较——最终能源消耗范围为(330;408)EJ/年——总的结论是,上述路线图假设了相当大的效率节约,主要依赖于电气化和可再生能源的部署,这与模型估计中体现的历史趋势有很大不同——平均900 EJ/年,在有利的假设下为600 EJ/年。这些结果危及了无限制的gdp增长范式,建议用联合国人类发展指数、繁荣方法和相关标准所建议的替代福利措施来替代。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A statistical model to forecast and simulate energy demand in the long-run

A statistical model to forecast and simulate energy demand in the long-run

This research aims to design a model to forecast and simulate aggregated world energy demand at distant horizons in time. This is done by estimating statistically a simplified interrelated model for the three variables considered, total primary Energy, world population and GDP. The approach intends to offer a complementary perspective to current practice, based on simulating energy demand conditional on GDP and population. The model is based on long historical series spanning the years (1900;2017) available from renowned researchers and institutions in their respective fields. The estimated models allow a forecast of future energy demand and a risk/sensitivity analysis. Alternative solutions and simulation methods are carried out to assess the robustness of the results derived. These forecasts are compared to the results of key relevant roadmaps put forward in the literature - in the range (330;408) EJ/yr for final energy consumption -, the general conclusion being that the aforementioned roadmaps assume sizeable efficiency savings, relying mainly on electrification and renewable energies deployment, that depart significantly from historical trends embodied in the model estimated - 900 EJ/yr on average, and 600 EJ/yr under favourable assumptions. These results jeopardise the unbounded GDP-growth paradigm, suggesting a replacement by alternative welfare measures as suggested by the UN human development index, the prosperity approach, and related standards.

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来源期刊
Smart Energy
Smart Energy Engineering-Mechanical Engineering
CiteScore
9.20
自引率
0.00%
发文量
29
审稿时长
73 days
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