[基于 LEAP 模型的鄂尔多斯低碳发展之路]。

Q2 Environmental Science
Yang-Wan-Qing Yu, Biao Liu, Xiao-Hong Zhu, Jun-Yu Zhang, Bing-Hao Wang, Ming-Pei Wang, Jian-Gong Yang, Yang Bai, Fu-Yuan Yang
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引用次数: 0

摘要

为确定鄂尔多斯市的低碳发展路径,基于LEAP模型构建了三种情景(基准情景、低碳情景和强化低碳情景)。为确定鄂尔多斯的低碳发展路径,基于 LEAP 模型构建了三种情景(基准情景、低碳情景和强化低碳情景),预测 2020-2050 年鄂尔多斯的能源需求和碳排放,并分析各种政策措施对减少碳排放的贡献。结果表明,在强化低碳情景下,鄂尔多斯市能源需求在2025年达到峰值5200万吨标准煤当量,2050年降至4000万吨标准煤当量;碳排放在2025年达到峰值1.63亿吨,2050年降至1600万吨,比2020年下降88%。在减排贡献方面,基准情景与强化低碳情景相比,可再生能源发电装机的增加、终端用能能耗的降低、终端电气化率的提高对减排的贡献率分别为43%、25%和24%。鄂尔多斯应大力发展可再生能源,充分利用丰富的风、光资源禀赋;同时促进经济转型,逐步提高高附加值、低能耗产业在产业结构中的比重。在电力行业,应调整发电结构。传统的火力发电应被零碳和低碳发电技术所取代。在工业和交通领域,应提高终端电气化率,降低能源强度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
[Low-carbon Development Path of Ordos Based on LEAP Model].

To determine the low-carbon development path of Ordos, three scenarios (baseline scenario, low carbon scenario, and enhanced low carbon scenario) were constructed based on the LEAP model to forecast the energy demand and carbon emission in Ordos from 2020 to 2050 and to analyze the contribution of various policy initiatives to reduce carbon emission. The results showed that under the enhanced low carbon scenario, the energy demand in Ordos peaked at 52 million tons of standard coal equivalent in 2025 and decreased to 40 million tons of standard coal equivalent in 2050, and carbon emissions peaked at 163 million tons in 2025 and decreased to 16 million tons in 2050, which was 88% lower than that in 2020. Regarding emission reduction contribution, comparing the baseline scenario and the enhanced low-carbon scenario, the increase in renewable energy power generation installation, the reduction in energy consumption of terminal energy use, and the increase in terminal electrification rate contributed to the emission reductions of 43%, 25%, and 24%, respectively. The Ordos should vigorously develop renewable energy and make full use of the rich endowment of wind and light resources; at the same time, it should promote economic transformation and gradually increase the proportion of high-value-added and low-energy-consuming industries in the industrial structure. For the power sector, the power generation structure should be adjusted. Traditional thermal power generation should be replaced by zero-carbon and low-carbon power generation technologies. For the industrial and transportation sectors, the terminal electrification rate should be increased, and the energy intensity should be reduced.

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来源期刊
环境科学
环境科学 Environmental Science-Environmental Science (all)
CiteScore
4.40
自引率
0.00%
发文量
15329
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