Carbon Emission Forecast Based on Multilayer Perceptron Network and STIRPAT Model

Q3 Engineering

EAI Endorsed Transactions on Energy Web Pub Date : 2024-04-16 DOI:10.4108/ew.5808

Ning Zhao, Chengyu Li

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引用次数: 0

Abstract

INTRODUCTION: It is of great research significance to explore whether China can achieve the "two-carbon target" on time. The MLP model combines nonlinear modeling principles with other techniques, possessing powerful adaptive learning capabilities, and providing a viable solution for carbon emission prediction. OBJECTIVES: This study models and forecasts carbon emissions in Jiangsu Province, one of China's largest industrial provinces, aiming to forecast whether Jiangsu province will achieve the two-carbon target on time plan and provide feasible pathways and theoretical foundations for achieving dual carbon goals. METHODS: Based on the analysis of the contributions of relevant indicators using the Grey Relational Analysis method, a comprehensive approach integrating the STIRPAT model, Logistic model, and ARIMA model is adopted. Ultimately, an MLP prediction model for carbon emission variations is established. Using this model, simulations are conducted to analyze the carbon emission levels in Jiangsu Province under different scenarios from 2021 to 2060. RESULTS: The time to reach carbon peak and the likelihood of achieving carbon neutrality vary under three scenarios. Under the natural scenario of no human intervention, achieving carbon neutrality is not feasible. While under human-made intervention scenarios including baseline and intervention scenarios, Jiangsu Province is projected to achieve the carbon neutrality target as scheduled, attaining the peak carbon goal, however, proves challenging to realize by the year 2030. CONCLUSION: The MLP model exhibits high accuracy in predicting carbon emissions. To expedite the realization of dual carbon goals, proactive government intervention is necessary.

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基于多层感知器网络和 STIRPAT 模型的碳排放预测

引言：探讨中国能否按时实现 "两碳目标 "具有重要的研究意义。MLP 模型将非线性建模原理与其他技术相结合，具有强大的自适应学习能力，为碳排放预测提供了可行的解决方案。目标：本研究对中国最大的工业省份之一江苏省的碳排放进行建模和预测，旨在预测江苏省能否按时实现双碳目标计划，为实现双碳目标提供可行路径和理论基础。方法：在利用灰色关联分析方法分析相关指标贡献度的基础上，采用 STIRPAT 模型、Logistic 模型和 ARIMA 模型相结合的综合方法。最终建立了碳排放量变化的 MLP 预测模型。利用该模型，对江苏省 2021-2060 年不同情景下的碳排放水平进行了模拟分析。结果：在三种情景下，达到碳排放峰值的时间和实现碳中和的可能性各不相同。在没有人为干预的自然情景下，实现碳中和是不可行的。在人为干预情景（包括基准情景和干预情景）下，江苏省预计将如期实现碳中和目标，但要在 2030 年实现碳峰值目标则具有挑战性。结论：MLP 模型在预测碳排放方面表现出较高的准确性。要加快实现双碳目标，需要政府的积极干预。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

EAI Endorsed Transactions on Energy Web Energy-Energy Engineering and Power Technology

CiteScore

2.60

自引率

0.00%

发文量

审稿时长

10 weeks

期刊介绍： With ICT pervading everyday objects and infrastructures, the ‘Future Internet’ is envisioned to undergo a radical transformation from how we know it today (a mere communication highway) into a vast hybrid network seamlessly integrating knowledge, people and machines into techno-social ecosystems whose behaviour transcends the boundaries of today’s engineering science. As the internet of things continues to grow, billions and trillions of data bytes need to be moved, stored and shared. The energy thus consumed and the climate impact of data centers are increasing dramatically, thereby becoming significant contributors to global warming and climate change. As reported recently, the combined electricity consumption of the world’s data centers has already exceeded that of some of the world''s top ten economies. In the ensuing process of integrating traditional and renewable energy, monitoring and managing various energy sources, and processing and transferring technological information through various channels, IT will undoubtedly play an ever-increasing and central role. Several technologies are currently racing to production to meet this challenge, from ‘smart dust’ to hybrid networks capable of controlling the emergence of dependable and reliable green and energy-efficient ecosystems – which we generically term the ‘energy web’ – calling for major paradigm shifts highly disruptive of the ways the energy sector functions today. The EAI Transactions on Energy Web are positioned at the forefront of these efforts and provide a forum for the most forward-looking, state-of-the-art research bringing together the cross section of IT and Energy communities. The journal will publish original works reporting on prominent advances that challenge traditional thinking.