Collaborative research on rural distributed photovoltaic development and new energy vehicles moving to the countryside under the background of dual carbon

Shi Yin; Lirui Liu; Jianfang Li; Ruijia Ju; Tahir Mahmood

doi:10.18282/i-es.v6i1.603

Shi Yin College of Economics and Management, Hebei Agricultural University http://orcid.org/0000-0002-1825-0097
Lirui Liu College of Economics and Management, Hebei Agricultural University
Jianfang Li Science and Technology Research Institute, Hebei Agricultural University
Ruijia Ju Zanhuang Town People’s Government
Tahir Mahmood Department of Mathematics and Statistics, International Islamic University Islamabad

DOI: https://doi.org/10.18282/i-es.v6i1.603

Keywords: rural energy, distributed photovoltaic, new energy vehicles, peak carbon dioxide emissions and carbon neutrality synergistic effect

Abstract

In the context of dual carbon, there is a synergistic effect between the development of rural distributed photovoltaics and the introduction of new energy vehicles to the countryside. The synergistic development of the two is of great significance for promoting sustainable development and energy transformation. This paper aims to study how the coordinated development of rural distributed photovoltaic and new energy vehicles in the countryside can produce efficiency, what kind of efficiency it can produce under the background of dual carbon, and explore its collaborative development strategy. Based on the background environment of green development, this paper discusses the current situation, significance, policy effect, and difficulties of the collaborative development of rural distributed photovoltaic development and new energy vehicles in the countryside. On this basis, it analyzes the efficiency and mechanism of its collaborative development. The conclusion indicates that, under the dual carbon background, the development of distributed photovoltaics in rural areas and the deployment of new energy vehicles to rural areas are full of opportunities and challenges. The synergistic development of the two has the synergistic effects of sharing clean energy, complementary energy conservation and emission reduction, optimizing energy consumption structures, promoting economic development, increasing employment opportunities, and improving rural living quality. It is of great significance for achieving the dual-carbon goal. This article provides a reference for the development of distributed photovoltaics in rural areas and the coordinated development of new energy vehicles in rural areas under a dual-carbon background and has certain practical and theoretical significance.

Author Biography

Shi Yin, College of Economics and Management, Hebei Agricultural University

Yin Shi is the deputy editor of The Journal of Hebei Agricultural University (Social Science Edition), the deputy director of MPACC Center and the Deputy Director of The Department of Management of College of Economics and Management. He is appointed as China Economic Review, Journal of Management Analytics, Journal of Cleaner Production, Journal of Environmental Management and other 20 SSCI/SCI journals reviewer or guest editor, and has been awarded the outstanding reviewer of Journal of Cleaner Productionin2018.

He is committed to digital green innovation, scientific decision-making and sustainable development research. His major is management science and engineering, and he has publishedmorethan50papers in SSCI, SCI, CSSCI.

Interests: digital innovation management; knowledge management; energy and environmental assessment; green innovation processes; digital transformation; green manufacturing; environmental sustainability; sustainable process engineering; industrial engineering; combinatorics, algorithms, and optimization; healthcare big data; social network data analysis and mining; fuzzy rule based systems; cognitive computational science (including innovative models and paradigms from digital humanities and quantitative and qualitative social sciences); civil engineering innovation for sustainability; green building; green building technology; digital engineering in construction; information management; smart buildings; smart cities; sustainable supply chain management.

Scopus ID: https://www.scopus.com/authid/detail.uri?authorId=56202062100

ORCID ID: https://orcid.org/0000-0001-6885-7412

Reserach Gate ID: https://www.researchgate.net/profile/Shi-Yin-17

Publons ID: https://publons.com/wos-op/researcher/4465969/shi-yin/

Google Scholar: https://scholar.google.com/citations?hl=zh-CN&user=n2OGHWwAAAAJ

References

Lv X. Distributed photovoltaic power generation accelerates the transformation of rural energy in Guangxi (Chinese). Guangxi Daily, 19 May 2023. doi: 10.28292/n.cnki.ngxrb.2023.002680.

Zhu T, Chang X, Zhu F, et al. Empirical analysis of natural and social factors influencing the construction of rural roof distributed photovoltaic power generation system in Jiangsu County (Chinese). Journal of Solar Energy 2023; 44(5): 217–225. doi: 10.19912/j.0254-0096.tynxb.2022-1158

Dou C, Zuo C, Jia Y, et al. Analysis of the development potential of distributed photovoltaic power generation on rural residential roofs in China (Chinese). Solar Energy 2023; 1: 5–16. doi: 10.19911/j.1003-0417.tyn20220914.01

Yin W. Research on the Performance of Government Functions in the Development of Distributed Photovoltaic Industry in Panzhihua City (Chinese) [Master’s thesis]. Yunnan University of Finance and Economics; 2023. doi: 10.27455/d.cnki.gycmc.2023.000272

Tian Y. Analysis of the construction and management of rooftop distributed photovoltaic projects in Ningxia Region (Chinese). Rural Power Management 2022; 12: 54–55.

Zhan Q, Li P, Meng X, et al. Consider the optimal economic energy storage and voltage regulation strategy for rural distribution networks (Chinese). Rural Electrification 2023; 2: 18–23. doi: 10.13882/j.cnki.ncdqh.2023.02.005

Xiao L. Discussion on the pilot application plan for distributed photovoltaic roof development in Dongying City (Chinese). Rural Electrification 2022; 12: 53–57. doi: 10.13882/j.cnki.ncdqh.2022.12.014

Tan Y, Fu L. Practice and exploration of rooftop distributed photovoltaic power generation projects in the entire county (Chinese). Solar Energy 2023; 7: 13–18. doi: 10.19911/j.1003-0417.tyn20220504.01

Zhang X. On the technology and development of roof distributed photovoltaic power generation in rural areas of Guangxi under the goal of “Dual Carbon” (Chinese). Hongshui River 2022; 41(2): 80–83.

Wu Y, Liao Y, Xu M, et al. Barriers identification, analysis and solutions to rural clean energy infrastructures development in China: Government perspective. Sustainable Cities and Society 2022; 86: 104106. doi: 10.1016/j.scs.2022.104106

Wu Y, Xu M, Tao Y, et al. A critical barrier analysis framework to the development of rural distributed PV in China. Energy 2022; 245: 123277. doi: 10.1016/j.energy.2022.123277

Yin S, Zhao Z. Energy development in rural China toward a clean energy system: Utilization status, co-benefit mechanism, and countermeasures. Frontiers in Energy Research 2023; 11. doi: 10.3389/fenrg.2023.1283407

Guo S. Research on the promotion strategy of rural new energy vehicles from the perspective of “dual carbon goals + rural revitalization” (Chinese). Trade Fair Economy 2023; 13: 91–94. doi: 10.19995/j.cnki.CN10-1617/F7.2023.13.091

Yang Q. Continuously promoting the use of new energy vehicles in rural areas and assisting in the construction of the most beautiful countryside (Chinese). Auto Review 2023; 6: 43–46.

Song J. Don’t just think about cutting the cake when new energy vehicles go to the countryside (Chinese). China Economic Weekly 2023; 9: 66–68.

Dong J. New energy logistics vehicles heading to the countryside may have great potential (Chinese). China Logistics & Purchasing 2022; 15: 37–38. doi: 10.16079/j.cnki.issn1671-6663.2022.15.008

Yu Y, Yin S. Incentive mechanism for the development of rural new energy industry: New energy enterprise–village collective linkages considering the quantum entanglement and benefit relationship. International Journal of Energy Research 2023; 2023: 1–19. doi: 10.1155/2023/1675858

Zhu J, Dai S. The opportunities and challenges brought by the activity of new energy vehicles going to the countryside (Chinese). Auto Review 2022; 8: 50–53.

Zhai Y. China takes multiple measures to support new energy vehicles going to the countryside (Chinese). Rural Science and Technology 2023; 14(10): 3–4. doi: 10.19345/j.cnki.1674-7909.2023.10.032

Yu Y, Yin S, Zhang A. Clean energy-based rural low carbon transformation considering the supply and demand of new energy under government participation: A three-participators game model. Energy Reports 2022; 8: 12011–12025. doi: 10.1016/j.egyr.2022.09.037

Zhen W. New policy plus: How to be a good “pioneer” in going to the countryside with charging stations (Chinese). Auto Review 2023; 6: 16–19.

Magalhães RO, Assunção MV da, Santos JPM, et al. Review on applications of electric vehicles in the countryside. Ciência Rural 2017; 47(7). doi: 10.1590/0103-8478cr20161076

Yang W. The methods and ideas for promoting new energy vehicles in rural areas under the background of “carbon neutrality” (Chinese). Agricultural Machinery Using & Maintenance 2021; 12. doi: 10.14031/j.cnki.njwx.2021.12.033

La M, Zhou L, Liu Z, Wang X. The impact of household distributed photovoltaics on farmers’ income: Taking Y county in the central region as an example (Chinese). Research of Agricultural Modernization 2022; 43(3): 493–503. doi: 10.13872/j.1000-0275.2022.0012

Li H., Shi X. The new situation, opportunities, and challenges of new energy vehicles going to the countryside (Chinese). Automobile & Parts 2022; 7: 85–89.

Zhang X. Discuss the technology and development of rooftop distributed photovoltaic power generation in rural areas of Guangxi under the “dual carbon” goal (Chinese). Hongshui River 2022; 41(2): 80–83.

Zhu J, Dai S. Opportunities and challenges brought by the activity of new energy vehicles going to the countryside (Chinese). Auto Review 2022; 8: 50–53.

Guo S. Research on the promotion strategy of rural new energy vehicles from the perspective of “dual carbon goals + rural revitalization” (Chinese). Trade Fair Economy 2023; 13: 91–94. doi: 10.19995/j.cnki.CN10-1617/F7.2023.13.091

Tan Y, Fu L. Practice and exploration of rooftop distributed photovoltaic power generation projects in the entire county (Chinese). Solar Energy 2023; 7: 13–18. doi: 10.19911/j.1003-0417.tyn20220504.01

Xu N, Ma B. The application of distributed photovoltaics in rural areas—Taking Yuanlong village, Ningxia as an example (Chinese). Lamps & Lighting 2023; 8: 126–128.

Xu W, Liu Z, Wang H, Liu S. Socio economic benefit evaluation of rural photovoltaic systems based on LCOE model: Taking the roof distributed photovoltaic project in Beijing suburbs as an example (Chinese). Journal of China Agricultural University 2023; 28(9): 208–217.

Tong L, Geng Y, Zhang Y, et al. Testing the effectiveness of deploying distributed photovoltaic power systems in residential buildings: Evidence from rural China. Environmental Impact Assessment Review 2024; 104: 107300. doi: 10.1016/j.eiar.2023.107300

Li J. Economic analysis of rooftop distributed photovoltaic application scenarios in the entire county (Chinese). Electric Age 2023; 10: 111–114.

Zhai T. Analysis of the current development status and prospects of new energy vehicles (Chinese). Automobile Applied Technology 2023; 48(20): 193–198. doi: 10.16638/j.cnki.1671-7988.2023.020.039

An B, Zhang J, Li M. Development analysis of carbon inclusive emission reduction for distributed photovoltaic projects (Chinese). Shanghai Energy Saving 2023; 10: 1558–1562. doi: 10.13770/j.cnki.issn2095-705x.2023.10.022

Wang K. Research on the development of new energy vehicle technology in the context of new era integration (Chinese). Auto Time 2023; 21: 92–94.

Chen B. Discussion on the application status and development of new energy vehicle power batteries (Chinese). Auto Time 2023; 21: 95–97.

Zhou C. Practice of green, low carbon new energy construction in subway—Distributed photovoltaic power generation system (Chinese). Modern Urban Transit 2023; 2: 31–35.

Liu Z, Fan Q, Wang Y. Research on the integration and sharing development of green finance, clean energy, and ecological sustainability in China’s provinces and the spatial association network (Chinese). New Finance 2022; 3: 48–56.

Wang Y, Zhang J, Feng B, et al. The development prospects of distributed photovoltaics under the “dual carbon” goal (Chinese). Science and Technology & Innovation 2023; 15: 59–61. doi: 10.15913/j.cnki.kjycx.2023.15.017

Xie X. The integration and application of green buildings and smart comprehensive energy (Chinese). Fujian Construction Science & Technology 2023; 4: 118–120.

Zhou J, Tao Y, Wang Y, et al. A three-stage geospatial multi-criteria optimization model for location identification of integrated energy service stations from macro market to micro site. Energy Conversion and Management 2022; 265: 115773. doi: 10.1016/j.enconman.2022.115773

Zuo Y. Prospects for key technologies and research directions of distributed photovoltaic power generation—Based on the “dual carbon” goal (Chinese). Wisdom China 2023; 5: 68–69.

Song X, Deng C, Shen P, et al. Environmental impact and carbon footprint analysis of pure electric vehicles based on life cycle assessment (Chinese). Research of Environmental Sciences 2023; 36(11): 2179–2188. doi: 10.13198/j.issn.1001-6929.2023.08.15

Mao R, Zhang H. The new energy vehicle industry empowers the development of new industrialization in Guizhou (Chinese). The Journal of New Industrialization 2023; 13(7): 60–69.

Lv J. The policy of stimulating automobile consumption is “one click, three links” (Chinese). China Economic Weekly 2022; 12: 96–97.

Li M, Li J. The Development status and prospects of distributed photovoltaic power generation in China under the “dual carbon” goal (Chinese). Solar Energy 2023; 5: 5–10. doi: 10.19911/j.1003-0417.tyn20220314.01

Zhang M, Liu J, Lin J, Zhao X. Environmental benefit analysis of rooftop distributed photovoltaic development under the background of “dual carbon” (Chinese). Energy Research & Utilization 2021; 6: 37–41. doi: 10.16404/j.cnki.issn1001-5523.2021.06.008

Qiao W. Analysis of the development prospects of new energy vehicles going to the countryside (Chinese). Auto Time 2021; 14: 85–86.

Wang T. Developing county-level rooftop photovoltaics to promote rural revitalization (Chinese). Business Culture 2021; 33: 132–133.