Showing total 131 results

1. Analysis on influencing factors of carbon emissions from China’s pulp and paper industry and carbon peaking prediction

Author

Wang, Hongping

Published

2023

2. CO 2 Emissions Accounting and Carbon Peak Prediction of China's Papermaking Industry.

Author

Yang, Jiameng, Hua, Yuchen, Ye, Jiarong, Xu, Shiying, and Liu, Zhiyong

Subjects

PAPERMAKING, CARBON emissions, PAPER industry, WASTE paper, WASTE recycling, PRODUCT life cycle, CARBON offsetting

Abstract

China has been the world's largest producer and consumer of paper products. In the context of the "carbon peaking and carbon neutrality goals", China's papermaking industry which is traditionally a high energy-consuming and high-emissions industry, desperately needs a nationally appropriate low-carbon development path. From the consumption-side perspective, this paper calculates the CO2 emissions of China's papermaking industry from 2000 to 2019 by using carbon emission nuclear algorithm, grain-straw ratio, first-order attenuation method, and STIRFDT decomposition model, etc., to further explore the core stages and basic patterns affecting the industry's carbon peaking. The results show that the total CO2 emissions of China's papermaking industry showed an upward trend from 2000–2013, stable from 2013–2017, and a steady but slight decline from 2017–2019. Meanwhile, the total CO2 emissions of the full life cycle of paper products in China have decreased to a certain extent in the raw material acquisition, pulp, and paper making and shipping stages, with only the waste paper disposal stage showing a particular upward trend. We find that from 2000 to 2019, China's CO2 emissions in the pulping and papermaking stage of paper products accounted for 68% of the total emissions in the whole life cycle, of which 59% was caused by coal consumption. Moreover, the scenario prediction shows that improving the energy structure and increasing the waste paper recovery rate can reduce the CO2 emissions of the industry, and it is more significant when both work. Based on this and the four core stages of CO2 emissions of the papermaking industry we proposed ways to promote CO2 emissions peaking of China's paper products. [ABSTRACT FROM AUTHOR]

Published

2022

3. Has the development of the digital economy raised or lowered the level of carbon emissions in cities?-Evidence from China.

Author

Mingxuan Liu

Subjects

HIGH technology industries, CARBON emissions, CITIES & towns, ENERGY consumption, ELECTRONIC paper, CARBON nanofibers, ENVIRONMENTAL management, INDUSTRIAL energy consumption

Abstract

This paper studies the impact of digital economy development on carbon emissions, which is a hot topic in the field of environmental economics. This topic is within the scope of the Frontiers in Environmental Science and is particularly in line with the theme of Environmental Economics and Management section in the journal. Firstly, this paper constructs the Digital Economy Development Index and its variable indicators to measure the development of the digital economy. Secondly, this paper uses urban panel data to reveal the impact of digital economy development on carbon emissions, and further adopts IV method to deal with endogeneity issues. Thirdly, this paper performs the heterogeneity analyses depending on the characteristics of the city. The results can provide a basis for formulating differentiated policies. Fourthly, this paper further explores the mechanism by which the digital economy affects carbon peaking. The results show that the digital economy may influence carbon peaking through upgrading of the industrial structure, technical innovation, and energy consumption. [ABSTRACT FROM AUTHOR]

Published

2024

4. 中国造纸工业碳排放特征与 “双碳”目标路径探究.

Author

程言君, 张 亮, 王焕松, 贾学桦, and 董 妍

Subjects

INDUSTRIAL energy consumption, CARBON offsetting, POWER resources, CARBON emissions, ALTERNATIVE fuels, CARBON paper

Abstract

Copyright of China Pulp & Paper is the property of China Pulp & Paper Magazines Publisher and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

5. 德国“双元制”教育体系 对“双碳”背景下中国造纸业人才培养的启示.

Author

王爱娜 and 姜涛杰

Subjects

CARBON offsetting, PAPER industry, CARBON, REFORMS

Abstract

Copyright of China Pulp & Paper Industry is the property of China Pulp & Paper Industry Publishing House and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

6. China and the World under the Goals of Carbon Peaking and Carbon Neutrality: Green and Low-Carbon Transition, Green Finance, Carbon Market, and Carbon Border Adjustment Mechanism.

Author

ZHANG Zhongxiang

Subjects

CARBON offsetting, CARBON emissions, CLIMATE change, SUSTAINABLE development, CARBON taxes, EMISSIONS trading, CARBON paper, DEVELOPMENT banks

Abstract

China has always tried to maintain multilateralism and advocated working together to deal with global climate change through multilateral mechanisms. Although China’s announcement to peak its carbon emissions by 2030 comes as no surprise, its commitment to carbon neutrality does. As the period between its carbon peaking and carbon neutrality is far shorter than that in the developed countries, China’s economic and energy structures need to be adjusted toward the low-carbon and carbon-free end with unprecedented efforts. To that end, China should define the responsibilities of local authorities and industrial entities to promote the orderly accomplishment of carbon peaking in all regions and industries. To supply the huge investments needed to achieve the goals of carbon peaking and carbon neutrality, China has an urgent need to accelerate the development of green finance and a national carbon emissions trading market, guide the rational allocation of resources, and channel resources to eco-friendly projects for green and low-carbon development. At the same time, China and the international community should strengthen dialogue and coordination, promote international cooperation on the way to carbon neutrality, formulate widely acceptable policy guidelines as soon as possible, and avoid unilateral measures that may cause conflicts. [ABSTRACT FROM AUTHOR]

Published

2022

7. CO2 Emissions Accounting and Carbon Peak Prediction of China’s Papermaking Industry

Author

Jiameng Yang, Yuchen Hua, Jiarong Ye, Shiying Xu, and Zhiyong (John) Liu

Subjects

paper and paper products, LCA, CO2 emissions, carbon peaking, Plant ecology, QK900-989

Abstract

China has been the world’s largest producer and consumer of paper products. In the context of the “carbon peaking and carbon neutrality goals”, China’s papermaking industry which is traditionally a high energy-consuming and high-emissions industry, desperately needs a nationally appropriate low-carbon development path. From the consumption-side perspective, this paper calculates the CO2 emissions of China’s papermaking industry from 2000 to 2019 by using carbon emission nuclear algorithm, grain-straw ratio, first-order attenuation method, and STIRFDT decomposition model, etc., to further explore the core stages and basic patterns affecting the industry’s carbon peaking. The results show that the total CO2 emissions of China’s papermaking industry showed an upward trend from 2000–2013, stable from 2013–2017, and a steady but slight decline from 2017–2019. Meanwhile, the total CO2 emissions of the full life cycle of paper products in China have decreased to a certain extent in the raw material acquisition, pulp, and paper making and shipping stages, with only the waste paper disposal stage showing a particular upward trend. We find that from 2000 to 2019, China’s CO2 emissions in the pulping and papermaking stage of paper products accounted for 68% of the total emissions in the whole life cycle, of which 59% was caused by coal consumption. Moreover, the scenario prediction shows that improving the energy structure and increasing the waste paper recovery rate can reduce the CO2 emissions of the industry, and it is more significant when both work. Based on this and the four core stages of CO2 emissions of the papermaking industry we proposed ways to promote CO2 emissions peaking of China’s paper products.

Published

2022

8. Carbon neutralization frontier tracking.

Author

Xiaoliang Shi, Jiayin Xin, Aruna Aria, Ji Lu, Tielong Wang, Xiaowei Xu, and Yiwen Zhang

Subjects

ENVIRONMENTAL research, CARBON emissions, GLOBAL warming, SUSTAINABLE development, POLICY sciences

Abstract

This systematic study on the international research trends in carbon neutrality underscores its critical role in combating global warming and advancing sustainable development. By leveraging the "Web of Science Core Collection" databases and employing CiteSpace software for visual analysis, we examined 2223 research papers to track the influence and trends of key countries, institutions, and authors. Our results reveal a significant increase in publication volume, indicating a robust development potential for carbon neutrality research. The study also identifies environmental science, environmental research, and energy and fuel science as central interdisciplinary hubs, highlighting the importance of cross-disciplinary collaboration. Notably, China leads in publication output but has room for improvement in citation impact, suggesting a need for enhanced research quality and international visibility. The study's findings are instrumental for guiding future research directions, policy-making, and interdisciplinary cooperation, particularly in the fields of environmental science and energy, to accelerate progress towards carbon neutrality and global climate governance. [ABSTRACT FROM AUTHOR]

Published

2024

9. Can Pollution Regulations Enable Key Industries to Reduce CO 2 Emissions?—Empirical Evidence from China, Based on Green Innovative Technology Patents and Energy Efficiency Perspectives.

Author

Li, Jin and Zhang, Huarong

Subjects

CARBON emissions, SUSTAINABLE development, TECHNOLOGICAL innovations, GREEN technology, ENERGY consumption, ENVIRONMENTAL protection

Abstract

Under the influence of the dual policies of sustainable economic development and the national dual-carbon target, the establishment of an environmental protection department for the treatment of heavily polluting industries is imminent, and the country has launched pollution control policies and regulations to restrict the emission rights of heavily polluting industries. Therefore, this paper focuses on whether the restriction of emission rights in key industries has reduced carbon emissions. To achieve this, this paper uses panel data of prefecture-level cities in China from 2006 to 2019 and adopts a two-way fixed-effects DID model to systematically analyze the impact of the key pollution industry governance policies launched by the Ministry of Environmental Protection on CO2 emissions in 2017. And further analyze the role of variables such as green technology innovation patents and energy efficiency using this model, while parallel trend tests and placebo tests, and related policies are used to ensure the robustness of the regression results. This paper reveals that: (1) The heavy pollution industry governance policy implemented in 2017 can effectively reduce CO2 emissions in the cities of the treated group, and the effect is more significant in the year of policy implementation; (2) Green utility patents and energy-use efficiency are the effective mediating mechanisms to reduce CO2 emissions; (3) Over time, the effect of heavy pollution industry governance policy on CO2 emissions gradually decreases; (4) The reliability of the baseline regression results of this paper is proved by the use of parallel trend tests, placebo tests, and tests excluding the influence factors such as relevant policies in the same period. Therefore, the key polluting industries treatment policy launched by China's Ministry of Environmental Protection in 2017 under the recent dual-carbon policy development goals formulated by China, can effectively reduce carbon emissions; however, in the future economic development process, the government should give more consideration to the continuity of the policy impact and its coherence on economic development when implementing the policy. [ABSTRACT FROM AUTHOR]

Published

2023

10. Forecast of natural gas consumption in 30 regions of China under dual carbon target.

Author

Zhang, He, Xie, Yuhan, and Wu, Lifeng

Subjects

CLEAN energy, FOSSIL fuels, NATURAL gas, CITIES & towns, PREDICTION models

Abstract

Natural gas is an environmentally friendly and low-carbon clean energy. Its replacement of coal and other fossil energy sources will be important in China's carbon peaking and carbon neutrality goals. The Chinese government has also introduced many policies to encourage the development of natural gas. Therefore, it is of great significance to forecast the natural gas consumption. The grey prediction model has the unique advantage that it can perform well in the case of inadequate sample size. In this paper, the fractional cumulative grey model (FGM(1,1)) is used to forecast the natural gas consumption of 30 areas (provinces, cities, and autonomous regions) in China from 2022 to 2030. According to the reasonable forecast results, except for a few special areas, the consumption in other areas of China will continue to rise in recent years. By analyzing the results, it can also be clearly concluded that the natural gas consumption has regional characteristics. The consumption in 19 regions shows a rapid growth trend, 8 regions show a steady growth trend, and 3 regions show a downward trend. The prediction results and analysis will provide some reference for different regions to formulate natural gas-related policies. [ABSTRACT FROM AUTHOR]

Published

2024

11. Research on the impact of digital economy on Regional Green Technology Innovation: Moderating effect of digital talent Aggregation.

Author

Huang, Xin, Zhang, Shuiping, Zhang, Jin, and Yang, Kun

Subjects

HIGH technology industries personnel, HIGH technology industries, SUSTAINABLE development, ECONOMETRIC models, EDUCATIONAL quality

Abstract

The digital economy is crucial to promoting green technology innovation and development. However, there needs to be more research on the relationship between the digital economy, digital talent aggregation (DTA), and green technology innovation (GTI). Therefore, based on the data from 30 provinces, municipalities, and autonomous regions in mainland China (excluding Tibet) from 2011 to 2020, this paper uses fixed effect, threshold effect, moderating effect model, and spatial econometric model to make an empirical analysis of this research direction. The results show that (1) there is a nonlinear relationship between the digital economy and green technology innovation (GTI). This effect has regional heterogeneity effects. In the central and western regions, the digital economy is more prominent in promoting green technology innovation (GTI). (2) Digital talent aggregation (DTA) has a negative moderating effect on the influence of the digital economy on promoting green technology innovation (GTI). (3) The negative spillover effect of the digital economy on local green technology innovation (GTI) will be intensified at the spatial level due to the accumulation of digital talents. Therefore, this paper suggests that the government should actively and reasonably develop the digital economy to promote green technology innovation (GTI). In addition, the government can implement a flexible talent introduction policy, strengthen talent quality education and talent service station construction. [ABSTRACT FROM AUTHOR]

Published

2023

12. Study of the Carbon Neutral Path in China: A Literature Review.

Author

HOU, Fangxin, LIU, Yifang, MA, Zhiyuan, LIU, Changyi, ZHANG, Shining, YANG, Fang, and NIE, Yuanhong

Subjects

CARBON offsetting, ENERGY consumption, SOCIAL development, ELECTRIFICATION, CARBON sequestration

Abstract

After the carbon peaking and carbon neutrality goals were proposed, different institutions and scholars carried out research on China's medium- and long-term mitigation pathways. Through the literature review of China's research on carbon neutrality, this paper finds that the zero-carbon energy transition is the key to achieving carbon neutrality. The main driving factors of reducing energy-related carbon emissions include the cleanliness of primary and secondary energy supply systems, the electrification of energy consumption and the development of hydrogen energy, energy efficiency improvement, carbon capture and storage (CCS), and negative emissions. Furthermore, based on the literature, this paper conducts a quantitative comparative analysis, and selects key indicators for comparative analysis and summary from seven dimensions, including economic and social development, carbon emission pathways, primary energy consumption, final energy consumption, final hydrogen energy consumption, electricity demand and supply, and installed capacity and structure of power generation. Main conclusions are as follows: (i) In terms of carbon emission pathways, the institutions generally believed that China will peak carbon emissions around 2028 and achieve carbon neutrality between 2050 and 2060. Achieving net-zero or near-zero emissions first in the power sector is the key to carbon neutrality across the society; (ii) In terms of energy supply, it is a consensus to increase the proportion of clean energy and reduce carbon emissions from the source. The proportion of clean energy in primary energy will increase to more than 85%, and the proportion of clean energy power generation and installed capacity will reach more than 90%; (iii) In terms of energy use, electricity will become the core of final energy consumption in the future. The predicted electricity consumption across the society will range 14.3–18.4 PWh, and the predicted electrification rate will exceed 65%. [ABSTRACT FROM AUTHOR]

Published

2023

13. Emission reduction effect of digital finance: evidence from China.

Author

Lei, Tianyi, Luo, Xin, Jiang, Jingjing, and Zou, Kai

Subjects

HIGH technology industries, GREENHOUSE gas mitigation, ELECTRONIC evidence, SUSTAINABLE development, CARBON offsetting, GREEN technology, CARBON nanofibers

Abstract

This paper investigates the relationship between digital finance and carbon emissions and explores the ecological effects of digital finance. Based on a panel data of 256 cities in China from 2011 to 2018, this paper investigates the impact of digital finance on carbon emissions and its intrinsic mechanisms. First, digital finance significantly suppresses the intensity of regional carbon emission, and the breadth of coverage, depth of use, and degree of digital support of digital finance together curb regional carbon emissions, with the strongest suppressive effect being the breadth of coverage. In addition, the regression results remain significant after a series of robustness tests. Second, it reveals the potential mechanism of digital finance to curb urban carbon emissions. These mechanisms include the three channels: promoting industrial advancement, green technology innovation, and optimizing labor resource allocation. Third, the heterogeneity test finds that the energy saving and emission reduction effects of digital finance are significantly stronger in non-low-carbon pilot cities with low urbanization rates, confirming the emission reduction utility of digital finance development. Therefore, we should take advantage of digital finance to improve the green development of financial services and adopt diverse policy measures according to local conditions to maximize the ecological effects of digital finance on energy saving and emission reduction. In the context of the development strategy of "carbon peaking and carbon neutral," this study has some implications for management in developing a regional green development system supported by digital finance. [ABSTRACT FROM AUTHOR]

Published

2023

14. 上海地热资源利用现状及发展策略探讨.

Author

孙婉, 杨梅芳, and 黄坚

Abstract

Copyright of Shanghai Land & Resources / Shanghai Guotu Ziyuan is the property of Editorial Board of Shanghai Land & Resources and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

15. Estimation of biomass utilization potential in China and the impact on carbon peaking.

Author

Zhang, Caiqing, Nie, Jinghan, and Yan, Xiaohui

Subjects

BIOMASS estimation, ENERGY consumption, CARBON emissions, POWER resources, SUSTAINABLE development, BIOMASS energy, CARBON offsetting

Abstract

China has abundant agricultural and forestry waste resources that are crucial sources of energy for substituting fossil fuels and achieving the carbon peaking and carbon neutrality goals. These resources play an essential role in reducing carbon dioxide emissions and promoting sustainable development. This paper presents an estimation of the number of biomass resources that can be used for energy in 2020 by using parameters such as the grass-to-grain ratio coefficient and excretion coefficient. Moreover, the potential for conversion of biomass resources into biomass energy is evaluated by using parameters such as lower heating value and gas production coefficient. Finally, based on the whole life cycle theory, the potential of biomass energy utilization to reduce carbon dioxide emissions and its impact on carbon peaking is calculated. It was found that the total amount of fossil fuels that can be replaced by biomass energy is 256 million tons of standard coal. Utilizing biomass energy can reduce carbon dioxide emissions by approximately 520 million tons, with a peak impact of 4–6% on carbon peaking. The research results presented in this article can provide valuable data to support the promotion of green transformation in various regions. The findings can serve as a useful reference for formulating localized biomass utilization plans and designing effective emission reduction policies. [ABSTRACT FROM AUTHOR]

Published

2023

16. A System Dynamic Analysis of Urban Development Paths under Carbon Peaking and Carbon Neutrality Targets: A Case Study of Shanghai.

Author

Gao, Junwei and Pan, Lingying

Abstract

In 2021, under the carbon peaking and carbon neutrality targets of China, Shanghai declared that it would peak carbon emissions by 2025. This would require the formulation of specific and effective implementation paths of low-carbon development. This paper conducts a dynamic study on Shanghai's carbon dioxide emissions by establishing a system dynamic model of Shanghai's economy-energy-carbon emission. It studies the implementation path of Shanghai's carbon peaking and carbon neutrality targets by scenario analysis. The results show that under the Baseline Scenario, Shanghai's carbon emissions will peak by 2035, which is later than what the government promised. However, the Carbon-Peak and Deep-Low-Carbon Scenarios suggest that Shanghai can achieve the carbon peaking target in 2025, and the CO2 emission intensity will drop by 89.2% and 92.4%, respectively, by 2060. Improving the industrial energy utilization efficiency and the proportion of clean electricity is crucial for Shanghai to reduce carbon emissions. The transportation sector will become the main sector of urban energy consumption in the late stage of carbon neutralization. Without considering carbon sinks, the costs of achieving carbon neutrality for the three scenarios are approximately 5.68 billion, 2.79 billion and 1.96 billion USD, respectively. Finally, this paper puts forward relevant suggestions on promoting the transformation of energy structure, and strengthening specific emission reduction measures of various departments, to provide references for Shanghai's policy formulation. [ABSTRACT FROM AUTHOR]

Published

2022

17. An Analysis of Chinese Cities' Pathways towards Carbon Peaking under the Carbon Neutrality Goal.

Author

WANG, Ke, XING, Baiying, and JIANG, Yuhe

Subjects

CARBON offsetting, CARBON emissions, CITIES & towns, BATTLEFIELDS

Abstract

Now, China has made it clear that it will strive to have CO2 emissions peak before 2030 and achieve carbon neutrality before 2060 (the "dual carbon" goals), based on the logic that carbon peaking is a prerequisite for carbon neutrality. The year 2021 is the first year of China's 14th Five-Year Plan period. As the main battlefields to achieve the "dual carbon" goals, cities are also required to build on their pathways towards such goals under new conditions. Based on the progress China has made with pilot cities for low-carbon development and the discussion on 60 cities by category, this paper identifies the commonalities and differences between Chinese cities' pathways towards carbon peaking, and concludes that Chinese cities need to peak their carbon emissions in an organized and step-wise way on the basis of classification and according to their own development level and emission characteristics. In light of the above conclusion, this paper provides feasible suggestions for Chinese cities' carbon peaking. [ABSTRACT FROM AUTHOR]

Published

2022

18. Recent Status of Production, Administration Policies, and Low-Carbon Technology Development of China's Steel Industry.

Author

Qiao, Yufeng and Wang, Guang

Subjects

STEEL industry, CARBON nanofibers, CARBON offsetting, CARBON steel, CARBON emissions, BLAST furnaces

Abstract

In 2023, China's crude steel production amount reached 1.019 billion tons, and the energy consumption of China's steel industry amount reached 561 million tons of coal. China's steel industry, with its dominant reliance on coal for energy and the primary use of blast furnaces and converters in production processes, as well as its massive output, has become the main field for achieving China's "carbon peaking" and "carbon neutrality" goals. Firstly, this article summarizes the current production status of the steel industry and the situation of carbon emissions in the steel industry. Secondly, it discusses the dual-carbon policies based on the national and steel industry levels and outlines the future directions for China's steel industry. Subsequently, it analyzes the current state of research and application of mature and emerging low-carbon technology in China's steel industry and details the low-carbon plans of China's steel companies using the low-carbon technology roadmaps of two representative steel companies as examples. Finally, the article gives policy suggestions for the further carbon reduction of China's steel industry. The purpose of this paper is to show the efforts and contributions of China's steel industry to the early realization of its "carbon peaking" and "carbon neutrality" goals. [ABSTRACT FROM AUTHOR]

Published

2024

19. The Current Situation, Development, and Prospects of the Iron and Steel Industry in the Process towards the "Dual Carbon" Goals.

Author

WEI, Wei, ZHOU, Dianmin, and CHEN, Zhaohui

Subjects

STEEL industry, IRON industry, CLIMATE change, ELECTRIFICATION, CARBON sequestration, SUSTAINABLE development

Abstract

The iron and steel industry is the largest carbon emitter in China's manufacturing sector and one of the most important fields in the country's response to climate change. This paper aims to explain the current situation, technological pathways, and future direction of green and low-carbon development of the iron and steel industry. According to the carbon emissions of the iron and steel industry, this paper analyzes the relationship between steelmaking technologies and carbon emissions, as well as the transformation trend of the world's iron and steel industry, finding that China's iron and steel industry faces both opportunities and challenges. Steel scrap recycling and electric furnace steelmaking technologies, re-electrification, hydrogen metallurgy, resource recycling and by-products, and carbon capture and utilization (CCU) are the main technologies tailored to the transformation pathways, and the optimization of energy consumption structure is an important direction for future development. Therefore, this paper believes that clean energy, as a guarantee for carbon mitigation, will play an increasingly important role in the process towards achieving carbon peaking and carbon neutrality goals (the "dual carbon" goals), in addition to the transformation of metallurgical technologies. [ABSTRACT FROM AUTHOR]

Published

2023

20. Research on Green and Low-Carbon Development Path of the Electric Power Industry.

Author

WANG, Yaohua, XIA, Peng, and LIU, Jun

Subjects

CARBON offsetting, ELECTRIC utilities, ENERGY consumption, ELECTRIC rates, ENERGY development

Abstract

In the analogy where achieving the "carbon peaking and carbon neutrality" goals (the "dual carbon" goals) is compared to a battle, energy is the main battlefield, and electric power the main force. The low-carbon transformation path of the electric power industry exerts fundamental impact on progress towards carbon peaking and carbon neutrality of the whole society. Therefore, this paper first analyzes challenges and opportunities faced by the electric power industry to achieve the "dual carbon" goals; secondly, on the basis of deep low-carbon, zero-carbon and negative-carbon scenarios of the electric power industry, this paper quantifies and delves into the consumption structure of primary energy and final energy, as well as the future development positioning and trend of different categories of energy. Based on the research results, this paper proposes low-carbon transformation path of the electric power system at the stages of carbon peaking, deep low-carbon and carbon neutrality, and analyzes the trend of power supply cost changes in different scenarios. On this basis, a series of implementation key points and measures are proposed to adapt to green and low-carbon transformation of the electric power industry, covering areas such as coal-fired electric power development positioning, new energy development and utilization, diversified supply and demand, new energy industry chain, and power supply costs, and so forth. [ABSTRACT FROM AUTHOR]

Published

2023

21. Simulation analysis of carbon peak path in China from a multi-scenario perspective: evidence from random forest and back propagation neural network models.

Author

Li, Yang, Huang, Shiyu, Miao, Lu, and Wu, Zheng

Subjects

ARTIFICIAL neural networks, BACK propagation, RANDOM forest algorithms, CARBON analysis, CARBON dioxide mitigation

Abstract

China faces tough challenges in the process of low-carbon transformation. To determine whether China can achieve its new 2030 carbon peaking and carbon intensity reduction commitments, accurate prediction of China's CO2 emissions is vital. In this paper, the random forest (RF) model was used to screen 26 carbon emission influencing factors, and seven indicators were selected as key variables for prediction. Subsequently, a three-layer back propagation (BP) neural network was constructed to forecast China's CO2 emissions and intensity from 2020 to 2040 under the 13th Five-Year Plan, 14th Five-Year Plan, energy optimization, technology breakthrough, and dual control scenarios. The results showed that energy structure factors have the most significant impact on China's CO2 emissions, followed by technology level, and economic development factors are no longer the main drivers. Under the 14th Five-Year Plan scenario, China can achieve its carbon peaking on time, reaching 10,434.082 Mt CO2 emissions in 2030. Although the new commitment to intensity reduction (over 65%) under this scenario cannot be achieved, the 14th Five-Year Plan can bring about 73.359 and 539.710 Mt of CO2 reduction in 2030 and 2040 respectively, compared to the 13th Five-Year Plan. Under the technology breakthrough and dual control scenarios, China will meet its new commitments ahead of schedule, with the dual control scenario being the optimal pathway for CO2 emissions to peak at 9860.08 Mt in 2025. It is necessary for Chinese policy makers to adjust their current strategic planning, such as accelerating the transformation of energy structure and increasing investment in R&D to achieve breakthroughs in green technologies. [ABSTRACT FROM AUTHOR]

Published

2023

22. 双碳背景下龙王沟煤矿新型绿色矿山建设.

Author

顾成进, 杨宝贵, 路绍杰, 古文哲, and 杨发光

Abstract

Copyright of Coal Science & Technology (0253-2336) is the property of Coal Science & Technology and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

23. Smart City, Digitalization and CO 2 Emissions: Evidence from 353 Cities in China.

Author

Ma, Zhongxin and Wu, Fenglan

Abstract

The development of digital technology provides new governance methods for achieving the goal of "carbon peaking and carbon neutrality". Since 2013, the pilot construction of smart cities in China has strengthened the government's digital governance capabilities and significantly influenced the reduction in carbon emissions. This paper provides empirical evidence for the driving effect of digitization on carbon emission reduction based on panel data from 353 cities in China. The results show that digital governance based on smart city construction pilots has significantly reduced regional carbon emissions, and the implementation of smart city construction pilots has reduced regional carbon emissions by an average of 6.6%, and this effect is sustainable over the long term. The increase in the level of digitalization has significantly promoted carbon emission reduction. From the perspective of the impact path, regional green patent innovation has played a significant partial intermediary effect in the process of digitization-driven carbon emission reduction. From a micro-mechanism standpoint, digitization plays a significant role in promoting the green innovation of high-polluting listed companies. [ABSTRACT FROM AUTHOR]

Published

2023

24. 工业水质软化处理工艺中 CO2 的应用试验研究.

Author

商文霞

Abstract

Copyright of Industrial Water Treatment is the property of CNOOC Tianjin Chemical Research & Design Institute and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

25. Building China's National Carbon Market That Serves Carbon Peaking and Carbon Neutrality Goals.

Subjects

CARBON offsetting, CARBON emissions, ENVIRONMENTAL rights, ECONOMIC development

Abstract

This paper summarizes the new progress in building China's national carbon market since 2020, and analyzes the connotation of China's carbon peaking and carbon neutrality goals ("dual carbon" goals) and its significance to socio-economic development in China. Through case analysis, this paper expounds the role of China's recent carbon trading activities in promoting the transition toward green and low-carbon socio-economic development. On that basis, this paper conceives a top-level design for building the national carbon market that serves the "dual carbon" goals: building and improving the national carbon market that fundamentally serves as an emission reduction tool, developing the institutions and systems of the national carbon market with a focus on emission cap, creating a multilevel and diversified carbon trading scheme centered on the national carbon market, exploring a mechanism that takes carbon emission reduction as the core and promotes the synergistic effect of the carbon market with other environmental rights trading markets, and pursuing the healthy and orderly development of carbon finance that aims to serve carbon emission reduction. [ABSTRACT FROM AUTHOR]

Published

2022

26. Building a New-Type Power System to Promote Carbon Peaking and Carbon Neutrality in the Power Industry in China.

Author

LIU, Changyi, TAN, Xin, and LIU, Yifang

Subjects

CARBON emissions, CARBON offsetting, ELECTRIC power distribution grids, ELECTRONIC equipment, HIGH voltages

Abstract

Power industry is the largest carbon emission sector in China. Therefore, this industry will play an important role in achieving the carbon peaking and carbon neutrality goals ("dual carbon" goals) for the whole society. For this purpose, it is critical to balance four relationships, i.e. relationship between carbon mitigation and energy security, carbon peaking in the short term and carbon neutrality in the long term, the coordinated carbon mitigation in power industry and other industries, and technical feasibility and economic efficiency. This paper proposes the China's Energy Interconnection scenario to promote carbon peaking and carbon neutrality of the society, which can be divided into three stages, i.e. peaking carbon emissions before 2030, rapid emission reduction during 2030–2050, and comprehensive carbon neutrality before 2060. It is expected that the power system will achieve zero emissions before other industries and contribute negative emissions afterwards, providing emission space for carbon neutrality in other industries across the society. Looking into the future, China's electricity demand will continue to grow. Clean energy will become the main power source, the use of coal-fired power will be gradually reduced, and gas-fired power will undertake the function of peak-load regulation. Faster progress will be made in forming an overall grid pattern with ultra-high voltage (UHV) grid as the backbone and featuring "west-to-east and north-to-south power transmission, a balanced energy mix, and transnational power interconnection." Finally, this paper discusses a new-type of power system characterized by a high proportion of electricity generated from clean energy, high ratio of electric and electronic equipment, and a high proportion of power transmission and reception, together with summer and winter high load periods, and points out the challenges faced by the new-type power system with a high proportion of renewable energy sources in terms of flexibility, safety, and economic efficiency, and proposes corresponding policy recommendations. [ABSTRACT FROM AUTHOR]

Published

2022

27. MULTI-SCENARIO PREDICTION AND REGULATION STRATEGY OF CARBON BUDGET IN THE YELLOW RIVER BASIN OF CHINA UNDER THE "DOUBLE CARBON" TARGET.

Author

SHEN, W., RONG, P. J., and CAO, W. W.

Subjects

CARBON sequestration, CLIMATE change, CARBON emissions, CARBON offsetting, LAND use

Abstract

Under the increasingly severe climate crisis, it is of great significance to carry out research on carbon budget calculation and multi-scenario prediction under the "double carbon" target for realizing regional low-carbon and high-quality development. Taking the Yellow River Basin (YRB) of China as the research area, this paper firstly calculates the carbon budget of the YRB from 2000 to 2020 and analyzes its spatiotemporal change. Then, we simulated carbon emissions, carbon sequestration, and net carbon budget during 2030-2100 under the SSP1-5 scenario. Finally, the regulation strategies of carbon balance of the YRB were proposed from four aspects: strengthening ecological governance, improving land use mode, optimizing industrial structure and advocating low-carbon life. Our results showed: (1) The overall carbon sequestration and carbon emission show a trend of fluctuating increase during 2000 to 2020, but the increase rate of carbon emission is far greater than carbon storage. The net carbon emission during 2000-2020 is negative, which is manifested as a carbon sink area. (2) The order of carbon sequestration of the provinces in the YRB during 2030-2100 is the same under the SSP1-5 scenario, and the descending order is the following: Inner Mongolia, Qinghai, Shaanxi, Gansu, Shanxi, Henan, Ningxia, and Shandong. (3) The STIRPAT model can be used to predict the carbon emissions of the YRB in the future with high precision. (4) In terms of net carbon emissions, under the SSP1-5 scenario, the YRB will be a carbon sink area from 2030 to 2080, and a carbon source area from 2080 to 2100. (5) Different provinces have different paths to low-carbon development, Inner Mongolia and Qinghai maintain a good low-carbon development path under SSP1, SSP2 and SSP4 scenarios, Ningxia and Shandong maintain a good low-carbon development path under SSP1 and SSP2 scenarios, Shanxi maintains a good low-carbon development path under SSP1 and SSP3 scenarios, and Gansu, Shaanxi and Henan maintain a good low-carbon development path under the SSP3 scenario. [ABSTRACT FROM AUTHOR]

Published

2024

28. 基于 Mann-Kendall 趋势检验的 城市能源碳达峰评估方法.

Author

陈赟, 沈浩, 王晓慧, 赵文恺, 潘智俊, 王佳裕, 李思源, and 韩冬

Abstract

Copyright of Journal of Shanghai Jiao Tong University (1006-2467) is the property of Journal of Shanghai Jiao Tong University Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

29. Research on Time--Space Differences in the Prediction of Carbon Peaking of China's Comprehensive Economic Zones.

Author

WANG Yi, BIAN Tianxia, and HUANG Xianjin

Subjects

ZONE of proximal development, REGIONAL differences, CLIMATE change, CARBON offsetting, CARBON emissions, CARBON

Abstract

Carbon peaking and carbon neutrality have become key agendas for countries to participate in global climate change governance. Research on China's carbon peaking has a guidance significance for the actions to achieve a nationwide carbon peaking by 2030. This paper builds a STIRPAT model which, in combination with a scenario -setting method, predicts the carbon peaking time of eight comprehensive economic zones in China, and analyzes the possible path of achieving carbon peaking at national level. The result shows a disparity in carbon peaking time among the zones--there are zones that can achieve carbon peaking under baseline scenario; zones that can achieve carbon peaking under conditional scenarios; and zones that cannot achieve carbon peaking under any scenario. In the first group, the zones can achieve carbon emission through both active path (southwest and eastern coastal comprehensive economic zones) and passive path (northeast comprehensive economic zones) according to characteristics of regional socio-economic development. The second group includes two economic anchors (northern coastal and southern coastal comprehensive economic zones) and an energy-exporting center (the middle reaches of Yellow River comprehensive economic zone). Zones in the third group generally witness a late development (the middle reaches of Yangtze River and northwest comprehensive zones). Based on characteristics of regional economy, population, industry, and energy of each zone, this paper proposes an initiative that the achievement of a nationwide carbon peaking should take regional development equity into consideration, and presumes that making each zone adopts differentiated peaking strategies may have a stronger effectiveness in controlling carbon emission growth than making all zones adopt strategies constraining on single factors on industry or energy. [ABSTRACT FROM AUTHOR]

Published

2021

30. A Research Paradigm for Industrial Spatial Layout Optimization and High-Quality Development in The Context of Carbon Peaking.

Author

Zhang, Yang, Li, Wenlong, Sun, Jiawen, Zhao, Haidong, and Lin, Haiying

Abstract

The reasonable spatial layout of industries is crucial to carbon reduction and high-quality economic development. This paper establishes a research paradigm for optimizing the industrial spatial layout and high-quality development in the context of carbon peaking. Based on the perspectives of industrial transfer, the static agglomeration index, dynamic agglomeration index, industrial gradient coefficient, and low-carbon competitiveness index are used to analyze industrial agglomeration, competition status, and low-carbon competitiveness. Taking the Great Bend of the Yellow River (the Bend) as an example, we analyze the current situation in industrial development, guide the orderly transfer of industry, and optimize the spatial layout of industries to achieve high-quality economic development. The results show that resource- and capital-intensive industries have obvious advantages in agglomeration, competitive edge, and low-carbon competitiveness, while labor- and technology-intensive industries have weak advantages. The spatial layout of agglomerated industries was analyzed across four types of factor-intensive industries; these industries are the focus of industrial layout in the Bend. Promising industries were observed in all types of factor-intensive industries except capital-intensive industries, and these industries should be cultivated carefully in all provinces. Scale industries were mainly observed in resource- and capital-intensive industries; these industries should be transformed and upgraded to control the total amount and intensity of carbon emissions. The study's findings provide a basis for optimizing the spatial layout of industries and reducing carbon emissions through industrial transfer in the context of carbon peaking. The relevant industries should be transformed and upgraded to control the total amount and intensity of carbon emissions. [ABSTRACT FROM AUTHOR]

Published

2023

31. Does economic growth targets setting lead to carbon emissions? An empirical study from China.

Author

Shi, Beibei, Zhu, Guiyi, and Li, Nan

Subjects

*CARBON emissions, *ENERGY levels (Quantum mechanics), *INDUSTRIAL efficiency, *FOSSIL fuels, *CITIES & towns

Abstract

Accurately identifying the historical causes of carbon emissions in the process of national economic development is an important basis for developing countries to achieve carbon emission reduction. This paper explores the intrinsic institutional causes of China's high CO2 emission growth based on the characteristic economic growth target system of China, and attempts to empirically test the environmental effects behind this system. The results of the study show that the setting of absolute economic growth targets significantly increases the carbon dioxide emissions of cities under horizontal competition, and the setting of relative economic growth targets exacerbates the above carbon emission effect under vertical competition. In addition, the heterogeneity analysis shows that the carbon emission effect of setting economic growth targets is stronger in resource-dependent cities and cities with a lower level of economic development. Mechanism tests show that economic growth targets not only significantly increases total fossil energy consumption and reduces energy efficiency at the firm level, but also leads to the increase of energy consumption and the reduction of energy efficiency at the industry level. The findings of this study provide an intrinsic institutional explanation for China's high carbon emissions and provide useful guidance for the design of mechanisms to achieve large-scale carbon emission reductions in developing countries. • This paper investigates the impact of economic growth targets on carbon emissions. • How economic growth targets setting system affects carbon emissions remains underexplored. • There are significant differences in the impacts of EGT setting regimes on carbon emissions in cities with different types of development. • The economic growth targeting system influences regional carbon emissions through two pathways: energy consumption levels and energy efficiency. [ABSTRACT FROM AUTHOR]

Published

2024

32. Can China avoid the energy trilemma in achieving carbon peak?: A dynamic scenario forecasting study based on energy transition.

Author

Xie, Fangming and Ma, Huimin

Subjects

*CLEAN energy, *ENERGY economics, *SUSTAINABLE construction, *ENERGY consumption, *CARBON emissions

Abstract

Harmonizing the cleanliness and economics of energy is an effective means of integrating economic growth with carbon peaking goals, and realizing sustainable development in China. However, due to the existence of the energy trilemma, a worthwhile research question is how to fulfill the carbon peaking commitment while guaranteeing China's stable national development. Based on this, this paper not only discusses the nonlinear relationship between clean energy consumption transition and economic growth through threshold regression, but also simulates several scenarios of energy transition dynamics with different growth rates by using Oracle Crystal Ball software to forecast the future trend of China's carbon emissions up to 2030, aiming to find a transition scenario that can make the peak of carbon emissions appear without significant economic burden, so as to put forward countermeasures and suggestions to avoid falling into the energy trilemma in the process of fulfilling the commitment of carbon peaking. This paper finds that: firstly, there is an inverted U-shaped non-linear relationship between clean energy consumption transition and economic growth, with the inflection point of the inverted U-shape being 0.595; and secondly, only when energy transition exceeds 0.535 in 2030, the peak of carbon emissions (about 12,922.28 Mt) will occur. In summary, this paper argues that China should steadily advance energy transition, avoiding either too fast or too slow a pace (bring clean energy consumption transition to within the 0.535–0.595 range by 2030), in order to secure economic growth while honoring its commitment to peak carbon. Therefore, China should prudently design a coal exit strategy to avoid falling into the energy trilemma when promoting energy transition. Moreover, if China wants to further fulfill its commitment to carbon neutrality by 2060, it needs to continue to deepen the construction of green financial markets in order to better balance the relationship between energy cleanliness and economy. [ABSTRACT FROM AUTHOR]

Published

2024

33. "双碳"目标下超低能耗建筑市场发展建模及仿真研究.

Author

常人龙 and 滕佳颖

Subjects

ENERGY development, CARBON offsetting, CONSUMPTION (Economics), ENERGY consumption of buildings, SUSTAINABLE development, SUSTAINABLE construction

Abstract

Copyright of New Building Materials / Xinxing Jianzhu Cailiao is the property of New Building Materials Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

34. Research on China's Pathways to Achieve Carbon Peaking and Carbon Neutrality Goals.

Subjects

CARBON offsetting, EMISSIONS (Air pollution), SOCIAL development, NEUTRALITY, RESEARCH

Abstract

Since September 22, 2020, President Xi Jinping, who is also the general secretary of the Communist Party of China (CPC) Central Committee, has reiterated China's carbon peaking and carbon neutrality goals on many major international occasions and at many important conferences of the CPC Central Committee. The transition to carbon neutrality is becoming a systemic revolution concerning whether China's high-quality economic and social development and sustainable prosperity can be achieved. Incorporating carbon peaking and carbon neutrality well into overall economic and social development framework and ecological civilization construction, setting out the timetable, clarifying the roadmap, and proposing specific action plans have become a global concern. Through the analysis of international situations and China's national strategies, and the application of Integrated Assessment Modeling Consortium (IAMC), this paper explores China's pathways to carbon peaking and neutrality, and puts forward recommendations for high-quality development featuring low emissions. [ABSTRACT FROM AUTHOR]

Published

2022

35. 中国煤层气产业“十三五”以来发展成效与建议.

Author

门相勇, 娄 钰, 王一兵, 王永臻, and 王陆新

Subjects

COALBED methane, GOVERNMENT policy, PRODUCTION increases, CARBON offsetting, PROBLEM solving, PETROLEUM reserves

Abstract

Copyright of Natural Gas Industry is the property of Natural Gas Industry Journal Agency and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

36. Study on China’s Nuclear Power Development and Nuclear Safety Regulation Under the Background of Carbon Peaking and Carbon Neutrality

Author

Chen, Fangqiang, Li, Zhaotong, Wang, Qingsong, Zheng, Chaoying, Chen, Shuai, and Liu, Chengmin, editor

Published

2023

37. Assessment Method for Urban Energy Carbon Emission Peak Based on Mann-Kendall Trend Test

Author

CHEN Yun, SHEN Hao, WANG Xiaohui, ZHAO Wenkai, PAN Zhijun, WANG Jiayu, LI Siyuan, HAN Dong

Subjects

energy carbon monitoring system, mann-kendall trend test, urban energy, carbon peaking, Engineering (General). Civil engineering (General), TA1-2040, Chemical engineering, TP155-156, Naval architecture. Shipbuilding. Marine engineering, VM1-989

Abstract

Energy is an important component of urban carbon emissions. Assessing the peak of urban energy carbon is a necessary means to implement the national “double carbon” strategy. For this reason, this paper proposes an energy carbon peaking assessment method based on Mann-Kendall trend test for carbon emission of urban energy. By constructing a carbon monitoring system covering elements such as energy carbon emissions, clean energy generation, and transportation electric energy substitution, the total energy carbon emissions of the city are calculated by combining historical data. In view of the seasonality and randomness of energy carbon emissions, the Mann-Kendall trend test was used to establish a model for determining urban energy carbon peaking and to measure regional carbon emissions in different periods. Taking an administrative region in Shanghai as an example, the peak status of energy carbon in this region is judged from the perspective of year and quarter. The results show that based on the annual data, the region has reached its peak energy carbon in 2020. Based on quarterly data, peak energy carbon has been achieved in summer and autumn, while spring and winter are still in plateau. The methods proposed in this paper can be used to assess the carbon peak status in the city, and provide a reference for examining the carbon peak process in other provinces and cities.

Published

2023

38. The Evaluating Low-carbon Ecology of Coastal Cities and a Construction Path Based on Nature-based Solutions

Author

Yangqin JI, Yuqi LU, and Zhongjie YOU

Subjects

nature-based solutions, integrated coastal zone management, low carbon ecological city, carbon peaking, carbon neutrality, Oceanography, GC1-1581

Abstract

Due to the natural and social features of the coastal zone, coastal cities are facing more contradictions and difficulties between ecological protection and urban development. And the goal of carbon peaking and carbon neutrality puts forward new requirements for the high-quality development of coastal cities. The paper suggests that Nature-based Solutions (NbS) has guiding significance in exploring the way to construct low-carbon ecology in coastal cities, and attempts to discuss the practical application of NbS in the urban dimension. Through case study of Zhoushan, a coastal city, this paper uses modeling and measuring to evaluate the low-carbon ecology of target cities.Based on the results of evaluation, this paper further attempts to build a propagable development path of low-carbon ecology in coastal cities under the guidance of NbS thinking and practice, including following the goal orientation to complete social challenges; adhere to the system view under the time scale and space scale; actively build models or standards for technical support, comprehensive management, economic feasibility and cultural embellishment; cultivate diversified stakeholders.

Published

2023

39. "双碳"战略目标下工业领域实施路径的研究.

Author

王雪萌, 安燕, 唐昊, 刘海, and 田蒙奎

Abstract

This paper reviews the current situation of carbon emissions in the industrial field and the problems it faces, the implementation path of China, s industrial field under the vision of "Dual Carbon", and proposes a concrete and feasible implementation path for ChinaJ s industrial field to achieve peak carbon and carbon neutrality. It is proposed that strengthening government guidance and system construction, accelerating energy structure optimization and energy efficiency, technological innovation, promoting coupling development among different industries and improving the carbon market system, and strengthening international cooperation are important to promote the promotion of the dual carbon strategy in the industrial field. [ABSTRACT FROM AUTHOR]

Published

2023

40. 新疆旅游业“碳达峰”实现途径研究.

Author

周伟梁

Abstract

Copyright of China Forestry Economy is the property of China Forestry Economy Magazine Agency and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

41. Research on Green and Low-Carbon Development Path of the Electric Power Industry

Author

Yaohua WANG, Peng XIA, and Jun LIU

Subjects

Carbon peaking, carbon neutrality, electric power, green and low-carbon, Urbanization. City and country, HT361-384, Environmental sciences, GE1-350

Abstract

In the analogy where achieving the “carbon peaking and carbon neutrality” goals (the “dual carbon” goals) is compared to a battle, energy is the main battlefield, and electric power the main force. The low-carbon transformation path of the electric power industry exerts fundamental impact on progress towards carbon peaking and carbon neutrality of the whole society. Therefore, this paper first analyzes challenges and opportunities faced by the electric power industry to achieve the “dual carbon” goals; secondly, on the basis of deep low-carbon, zero-carbon and negative-carbon scenarios of the electric power industry, this paper quantifies and delves into the consumption structure of primary energy and final energy, as well as the future development positioning and trend of different categories of energy. Based on the research results, this paper proposes low-carbon transformation path of the electric power system at the stages of carbon peaking, deep low-carbon and carbon neutrality, and analyzes the trend of power supply cost changes in different scenarios. On this basis, a series of implementation key points and measures are proposed to adapt to green and low-carbon transformation of the electric power industry, covering areas such as coal-fired electric power development positioning, new energy development and utilization, diversified supply and demand, new energy industry chain, and power supply costs, and so forth.

Published

2023

42. Study of the Carbon Neutral Path in China: A Literature Review

Author

Fangxin HOU, Yifang LIU, Zhiyuan MA, Changyi LIU, Shining ZHANG, Fang YANG, and Yuanhong NIE

Subjects

Carbon peaking, carbon neutrality, cleanliness, electrification, Urbanization. City and country, HT361-384, Environmental sciences, GE1-350

Abstract

After the carbon peaking and carbon neutrality goals were proposed, different institutions and scholars carried out research on China’s medium- and long-term mitigation pathways. Through the literature review of China’s research on carbon neutrality, this paper finds that the zero-carbon energy transition is the key to achieving carbon neutrality. The main driving factors of reducing energy-related carbon emissions include the cleanliness of primary and secondary energy supply systems, the electrification of energy consumption and the development of hydrogen energy, energy efficiency improvement, carbon capture and storage (CCS), and negative emissions. Furthermore, based on the literature, this paper conducts a quantitative comparative analysis, and selects key indicators for comparative analysis and summary from seven dimensions, including economic and social development, carbon emission pathways, primary energy consumption, final energy consumption, final hydrogen energy consumption, electricity demand and supply, and installed capacity and structure of power generation. Main conclusions are as follows: (i) In terms of carbon emission pathways, the institutions generally believed that China will peak carbon emissions around 2028 and achieve carbon neutrality between 2050 and 2060. Achieving net-zero or near-zero emissions first in the power sector is the key to carbon neutrality across the society; (ii) In terms of energy supply, it is a consensus to increase the proportion of clean energy and reduce carbon emissions from the source. The proportion of clean energy in primary energy will increase to more than 85%, and the proportion of clean energy power generation and installed capacity will reach more than 90%; (iii) In terms of energy use, electricity will become the core of final energy consumption in the future. The predicted electricity consumption across the society will range 14.3–18.4[Formula: see text]PWh, and the predicted electrification rate will exceed 65%.

Published

2023

43. 碳达峰碳中和目标下国内天然气净化厂运行现状与展望.

Author

范秦楚, 阮玉蛟, and 周军

Subjects

*GAS purification, *GAS fields, *PROCESS capability, *CLEAN energy, *SUSTAINABLE development, *NATURAL gas processing plants, *CARBON nanofibers

Abstract

Natural gas is a low-carbon and clean energy, and the demand is growing under the background of achieving carbon peaking and carbon neutralization in China. Natural gas purification is an important part of the development of conventional gas fields. The optimal operation of natural gas purification device, energy conservation and emission reduction, and green energy business expansion are of great significance for promoting natural gas production and green and low-carbon development of the industry. Taking the natural gas purification plants of PetroChina Southwest Oil & Gas field Company, which is the earliest in China, the largest in scale, advanced in process technology, fully equipped and highly automated, as an example, the operating status of the existing units and the challenges facing the difficult control of product gas quality indicators and rising operating costs were analyzed. In combination with the goals of carbon peaking and carbon neutralization, this paper gives the specific directions and suggestions on how to increase processing capacity, improve emerging technologies, continue energy conservation and emission reduction, innovate control systems and carry out carbon capture, utilization and storage and green energy business expansion. [ABSTRACT FROM AUTHOR]

Published

2023

44. Carbon Emission Analysis of Low-Carbon Technology Coupled with a Regional Integrated Energy System Considering Carbon-Peaking Targets.

Author

Zeng, Yipu, Dai, Yiru, Shu, Yiming, and Yin, Ting

Subjects

CARBON emissions, ENERGY levels (Quantum mechanics), CARBON analysis, SUSTAINABLE development, KUZNETS curve, CARBON offsetting

Abstract

Analyzing the carbon emission behavior of a regional integrated energy system (RIES) is crucial for aligning with carbon-peaking development strategies and ensuring compliance with carbon-peaking implementation pathways. This study focuses on a building cluster area in Shanghai, China, aiming to provide a comprehensive analysis from both macro and micro perspectives. From a macro viewpoint, an extended STIRPAT model, incorporating the environmental Kuznets curve, is proposed to predict the carbon-peaking trajectory in Shanghai. This approach yields carbon-peaking implementation pathways for three scenarios: rapid development, stable development, and green development, spanning the period of 2020–2040. At a micro scale, three distinct RIES system configurations—fossil, hybrid, and clean—are formulated based on the renewable energy penetration level. Utilizing a multi-objective optimization model, this study explores the carbon emission behavior of a RIES while adhering to carbon-peaking constraints. Four scenarios of carbon emission reduction policies are implemented, leveraging green certificates and carbon-trading mechanisms. Performance indicators, including carbon emissions, carbon intensity, and marginal emission reduction cost, are employed to scrutinize the carbon emission behavior of the cross-regional integrated energy system within the confines of carbon peaking. [ABSTRACT FROM AUTHOR]

Published

2024

45. An Improved Forecasting Method and Application of China's Energy Consumption under the Carbon Peak Target.

Author

Cui, Xiwen, E, Shaojun, Niu, Dongxiao, Wang, Dongyu, and Li, Mingyu

Abstract

In the process of economic development, the consumption of energy leads to environmental pollution. Environmental pollution affects the sustainable development of the world, and therefore energy consumption needs to be controlled. To help China formulate sustainable development policies, this paper proposes an energy consumption forecasting model based on an improved whale algorithm optimizing a linear support vector regression machine. The model combines multiple optimization methods to overcome the shortcomings of traditional models. This effectively improves the forecasting performance. The results of the projection of China's future energy consumption data show that current policies are unable to achieve the carbon peak target. This result requires China to develop relevant policies, especially measures related to energy consumption factors, as soon as possible to ensure that China can achieve its peak carbon targets. [ABSTRACT FROM AUTHOR]

Published

2021

46. RESEARCH ON THE CONSTRUCTION PATH OF CAMPUS CULTURAL ENVIRONMENT FROM THE PERSPECTIVE OF CARBON PEAKING AND CARBON NEUTRALITY.

Author

Shichu Zhao and Yan Zhang

Abstract

Relying on the campus cultural environment to promote China's carbon peaking and carbon neutralization (double carbon) process is one of the important ways to achieve China's ‘double carbon’ goal. Based on the systematic investigation of a university directly under a province in the South and the interview results of 563 school personnel, this paper analyzes the shortcomings of the school in the construction of cultural ‘soft environment’ such as school spirit, teaching style, study style, innovation and entrepreneurship and cultural ‘hard environment’ objectively carrying cultural ideas. The results show that the school has not fully integrated the concept of ‘double carbon’ into the teaching system at the level of ‘soft environment’ of campus culture, and the depth of the integration of the concept of carbon neutralization with current education and practice needs to be further improved. In the dimension of ‘hard environment’ of cultural externalization, with reference to Li Kenong's five-level scale method, from the green space system, the systematic research is carried out in five dimensions such as green building. Based on the research results, the framework and ideas of building a ‘soft culture’ environment is innovatively put forward, which includes an education and training system, a scientific research innovation system and a self-organizing management system for teachers and students, as well as the optimization and improvement measures of the ‘hard environment’ of campus culture with ‘environmental education and cultural immersion’ as the core. It has a certain practical reference value for enhancing the appeal and penetration of the ‘double carbon’ cultural concept in the group of teachers and students, and helps to promote the realization process of the ‘double carbon’ goal of domestic universities. [ABSTRACT FROM AUTHOR]

Published

2022

47. An Analysis of Chinese Cities’ Pathways towards Carbon Peaking under the Carbon Neutrality Goal

Author

Ke WANG, Baiying XING, and Yuhe JIANG

Subjects

Carbon peaking, carbon neutrality, low-carbon cities, Urbanization. City and country, HT361-384, Environmental sciences, GE1-350

Abstract

Now, China has made it clear that it will strive to have CO2 emissions peak before 2030 and achieve carbon neutrality before 2060 (the “dual carbon” goals), based on the logic that carbon peaking is a prerequisite for carbon neutrality. The year 2021 is the first year of China’s 14th Five-Year Plan period. As the main battlefields to achieve the “dual carbon” goals, cities are also required to build on their pathways towards such goals under new conditions. Based on the progress China has made with pilot cities for low-carbon development and the discussion on 60 cities by category, this paper identifies the commonalities and differences between Chinese cities’ pathways towards carbon peaking, and concludes that Chinese cities need to peak their carbon emissions in an organized and step-wise way on the basis of classification and according to their own development level and emission characteristics. In light of the above conclusion, this paper provides feasible suggestions for Chinese cities’ carbon peaking.

Published

2022

48. Building a New-Type Power System to Promote Carbon Peaking and Carbon Neutrality in the Power Industry in China

Author

Changyi LIU, Xin TAN, and Yifang LIU

Subjects

New-type power system, carbon peaking, carbon neutrality, China’s Energy Interconnection, UHV power grid, Urbanization. City and country, HT361-384, Environmental sciences, GE1-350

Abstract

Power industry is the largest carbon emission sector in China. Therefore, this industry will play an important role in achieving the carbon peaking and carbon neutrality goals (“dual carbon” goals) for the whole society. For this purpose, it is critical to balance four relationships, i.e. relationship between carbon mitigation and energy security, carbon peaking in the short term and carbon neutrality in the long term, the coordinated carbon mitigation in power industry and other industries, and technical feasibility and economic efficiency. This paper proposes the China’s Energy Interconnection scenario to promote carbon peaking and carbon neutrality of the society, which can be divided into three stages, i.e. peaking carbon emissions before 2030, rapid emission reduction during 2030–2050, and comprehensive carbon neutrality before 2060. It is expected that the power system will achieve zero emissions before other industries and contribute negative emissions afterwards, providing emission space for carbon neutrality in other industries across the society. Looking into the future, China’s electricity demand will continue to grow. Clean energy will become the main power source, the use of coal-fired power will be gradually reduced, and gas-fired power will undertake the function of peak-load regulation. Faster progress will be made in forming an overall grid pattern with ultra-high voltage (UHV) grid as the backbone and featuring “west-to-east and north-to-south power transmission, a balanced energy mix, and transnational power interconnection.” Finally, this paper discusses a new-type of power system characterized by a high proportion of electricity generated from clean energy, high ratio of electric and electronic equipment, and a high proportion of power transmission and reception, together with summer and winter high load periods, and points out the challenges faced by the new-type power system with a high proportion of renewable energy sources in terms of flexibility, safety, and economic efficiency, and proposes corresponding policy recommendations.

Published

2022

49. Building China’s National Carbon Market That Serves Carbon Peaking and Carbon Neutrality Goals

Author

Xin ZHANG

Subjects

National carbon market, carbon trading, carbon peaking, carbon neutrality, Urbanization. City and country, HT361-384, Environmental sciences, GE1-350

Abstract

This paper summarizes the new progress in building China’s national carbon market since 2020, and analyzes the connotation of China’s carbon peaking and carbon neutrality goals (“dual carbon” goals) and its significance to socio-economic development in China. Through case analysis, this paper expounds the role of China’s recent carbon trading activities in promoting the transition toward green and low-carbon socio-economic development. On that basis, this paper conceives a top-level design for building the national carbon market that serves the “dual carbon” goals: building and improving the national carbon market that fundamentally serves as an emission reduction tool, developing the institutions and systems of the national carbon market with a focus on emission cap, creating a multilevel and diversified carbon trading scheme centered on the national carbon market, exploring a mechanism that takes carbon emission reduction as the core and promotes the synergistic effect of the carbon market with other environmental rights trading markets, and pursuing the healthy and orderly development of carbon finance that aims to serve carbon emission reduction.

Published

2022

50. Exploring the Pathways of Achieving Carbon Peaking and Carbon Neutrality Targets in the Provinces of the Yellow River Basin of China.

Author

Jiang, Jiaan and Chen, Shulin

Abstract

Achieving carbon peaking and carbon neutrality is an intrinsic requirement for sustainable development. The industrial structure primarily characterized by the chemical and energy industries poses a hindrance to the attainment of carbon peaking and carbon neutrality goals in the provinces of the Yellow River Basin of China. Predicting the time of carbon peaking and carbon neutrality and exploring the pathways of carbon peaking and carbon neutrality is an urgent issue for the government to address. The STIRPAT and InVEST models were used for the carbon emissions and carbon sequestration estimation in the nine provinces and regions of the Yellow River Basin from 2010 to 2060. The results show that the study area will realize carbon peaking in 2030 under the baseline scenario, with the carbon emission of 4146 million tons. Under the high-emission scenario, the study area will realize carbon peaking in 2035, with the carbon emission of 4372 million tons. Under the low-carbon energy-saving scenario, the study area will realize carbon peaking in 2025, with the carbon emission of 3909 million tons. The entire study area cannot achieve carbon neutrality in 2060 under the three scenarios. Under the baseline and high-emission scenarios, only Qinghai and Sichuan can realize carbon neutrality by 2060, and under the low-carbon energy-saving scenario, Sichuan, Qinghai, Shaanxi, and Gansu will achieve carbon neutrality on time. This research indicates that attaining carbon peaking and carbon neutrality can be accomplished by implementing strategies such as encouraging the growth of clean energy, managing energy usage, refining the industrial structure, and strengthening the ecosystem's carbon sink. [ABSTRACT FROM AUTHOR]

Published

2024