The Role of the Carbon Peaking and Carbon Neutrality Policies in the Transformation and Upgrading of the Manufacturing Sector: A Pathway to Green, Low-Carbon, and Sustainable Growth

Hongbing Shen

doi:10.35784/preko.6750

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Published: Jul 1, 2025

DOI: https://doi.org/10.35784/preko.6750

DOI

https://doi.org/10.35784/preko.6750

Authors

Hongbing Shen

xajtshb123@163.com

Xi’an Jiaotong University

Abstract

The level of development within the manufacturing sector serves as a vital indicator of a nation's overall strength and international competitiveness. The implementation of the carbon peaking and carbon neutrality policies is instrumental in expediting the transformation and upgrading of manufacturing industries. This paper investigates the effects and underlying mechanisms of this policy on the manufacturing sector's evolution, emphasizing green, low-carbon, and sustainable growth. Utilizing econometric methods such as progressive difference-in-difference, mediation, and moderation analysis, our empirical findings reveal several key insights: First, the positive coefficient associated with the carbon peaking and carbon neutrality policies indicates a significant stimulatory effect on the transformation and upgrading of manufacturing enterprises, a conclusion that persists through various robustness tests. Second, green technology innovation emerges as a vital mediating factor in this positive relationship, while the level of policy attention and the classification of enterprises as heavily polluting serve as influential moderating variables. This research contributes valuable insights for enhancing the implementation of carbon-related policies, fostering an experiential foundation for future initiatives, and guiding manufacturing enterprises in their pursuit of effective transformation and upgrading.

Keywords:

Selected:carbon peaking and carbon neutrality policies, manufacturing transformation and upgrading, green low-carbon, sustainable development

References

1. BENGTSSON M., ALFREDSSON E., COHEN M., et al., 2018, Transforming systems of consumption and production for achieving the sustainable development goals: Moving beyond efficiency, Sustainability Science 13(6), 1533–1547.

2. CAO W., ZHAO W., SI Y.J., 2023, Research on the impact of the digital economy on low-carbon development: an analysis of the moderating and threshold effects of green technological innovation, Soft Science 37(09), 47–54.

3. CHEN H.N., 2011, Political economy of cross-strait investments: The Taiwanese high-tech industry as an example, Seoul Journal of Economics 24(2), 171–195.

4. CHEN Z., ZHENG J.H., 2022, Can green technology innovation promote high-quality regional economic development? Modern Economic Science 44(04), 43–58.

5. DENG Q., ZHOU S., PENG F., 2020, Measuring green innovation efficiency for China’s high-tech manufacturing industry: A network DEA approach, Mathematical Problems in Engineering, https://doi.org/10.1155/2020/8902416.

6. GU Q.K., LIN L.F., 2024, Carbon emission reduction, influencing factors, and peak pathways of manufacturing under the ‘dual carbon’ goals: A panel data analysis of major manufacturing provinces, Economic Issues 02, 57–63.

7. HU W.H., MAO X.M., LUO K., 2024, The impact of carbon emission constraints on the transformation and upgrading of manufacturing in industrial undertaking areas: A case study of Jiangxi province, Jiangxi Social Sciences 44(04), 56–68.

8. HUANG Y.M., ZHANG H.M., 2023, Driving effects of industrial environment and factor mobility on the transformation and upgrading of Chinese manufacturing industry under carbon value control, Science and Technology Management Re-search 43(18), 211–222.

9. JIN Q., 2020, Measurement and promotion of the transformation and upgrading effect of marine manufacturing industry, Journal of Coastal Research, 81–84.

10. LI L., YONG H., WANG L., et al., 2024, Data element embedding, dual innovation and manufacturing transformation and upgrading, Journal of Statistics and Information 39(04): 31–45.

11. LI M., HE Y., PAN J.H., 2022, Dual carbon goals, carbon tax policy, and the industrial chain resilience of China’s manufacturing industry, China Population, Resources, and Environment 32(09): 22–34.

12. LI Y.Y., SUN R., 2024, The impact of digital economy on the high-quality economic development under the carbon peak and carbon neutrality goals, Science and Technology Management Research 44(10): 39–48.

13. PU H., WANG X.P., LI T.Z., et al., 2024, Dynamic control of low-carbon efforts and process innovation considering knowledge accumulation under dual-carbon policies, Computers & Industrial Engineering, 196.

14. SHAO L., YU X., FENG C., 2019, Evaluating the eco-efficiency of China’s industrial sectors: A two-stage network data envelopment analysis, Journal of Environmental Management 247: 551–560.

15. SHEN Y.H., YANG J.H., 2024, Digital economy, scientific and technological innovation and manufacturing industry transformation and upgrading, Statistics and Decision 40(03): 16–21.

16. SHUKLA P.R., 1995, Greenhouse gas models and abatement costs for developing nations: A critical assessment, Energy Policy 23(8): 677–687.

17. SONG H., SUN Y.J., CHEN D.K., 2019, An evaluation of the effectiveness of government air pollution control: experience from China’s ‘low-carbon city’ construction, Management World 35(06), 95–108+195.

18. SONG Y., YANG L., SINDAKIS S., et al., 2023, Analyzing the role of high-tech industrial agglomeration in green trans-formation and upgrading of manufacturing industry: The case of China, Journal of the Knowledge Economy 14(4), 3847–3877.

19. WANG L.X., JIANG Z.L., NA C.H., 2024, Government attention and ‘more words than deeds’ of enterprise digital transformation, Finance and Trade Research 35(04), 97–110.

20. WANG R., WANG Y., 2017, Study on Transformation and Upgrade of China’s Equipment Manufacturing Industry from the Perspective of GVC, Agro Food Industry Hi-Tech 28(1), 129–132.

21. WANG X., WANG Y., 2021, The impact of environmental governance policy on green innovation: evidence from China’s quasi-natural experiment, Journal of Financial Research 10, 134–152.

22. WANG X.X., JIANG D.C., LI L., 2018, Will increasing minimum wage create a force on the upgrading of manufacturing enterprises? An empirical analysis based on patent application data, Journal of Financial Research, 44(12), 126–137.

23. WU H.J., GUO J., 2023, The empowerment of data elements in the transformation and upgrading of manufacturing, Macroeconomic Management 02, 35–41+49.

24. YANG Y.D., CHENG H.W., 2020, Political resources and targeted poverty alleviation of enterprises: capital consideration under public welfare projects, Modern Finance and Economics (Journal of Tianjin University of Finance and Economics) 40(09), 64–82.

25. ZHANG G.W., DENG J.J., ZHANG F., 2021, The impact of China’s population aging on the transformation and upgrading of the manufacturing sector, Chinese Journal of Population Science 4, 33–44, 126–127.

26. ZHANG H., 2020, Can low-carbon city construction reduce carbon emissions? Evidence from a quasi-natural experiment, Economic Management 42(6), 25–41.

27. ZHANG H.F., LI R.X., 2023, The impact of financial agglomeration on the transformation and upgrading of manufacturing industry from the perspective of spatial effect: A case study of the Yangtze River delta region, Journal of Soochow University (Philosophy and Social Sciences Edition) 44(06), 26–39.

28. ZHAO H.F., LI S.Y., WU Z.W., 2022, The influence of central environmental inspection on the transformation and up-grading of manufacturing enterprises – based on the test of mediator effect of marketization process, Management Review 34(06), 3–14.

29. ZHENG Y.Z., WANG Z.H., CAI Y., et al, 2023, The impact of corporate green technology innovation on ESG perfor-mance and its pathways under the new ‘carbon peaking and carbon neutrality’ framework, Technological Economy 42(03), 64–77.

30. ZHOU L.J., ZHANG Z.Q., 2024, Research on the coupling and coordinated development of environmental regulation and manufacturing transformation and its influencing factors, Exploration of Economic Issues 03, 133–154.

31. ZHU L., WANG Y., 2022, Labor costs and the transformation and upgrading of manufacturing enterprises, Journal of Wuhan University (Philosophy and Social Sciences Edition), 75(02), 118–132.

Shen, H. (2025). The Role of the Carbon Peaking and Carbon Neutrality Policies in the Transformation and Upgrading of the Manufacturing Sector: A Pathway to Green, Low-Carbon, and Sustainable Growth. Problemy Ekorozwoju, 20(2), 141–155. https://doi.org/10.35784/preko.6750

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