Coupling Relationship Among Technological Innovation, Industrial Transformation and Environmental Efficiency: A Case Study of the Huaihai Economic Zone, China

Ziyan Zheng; Yingming Zhu; Fangdao Qiu; Litao Wang

doi:10.1007/s11769-022-1294-0

Coupling Relationship Among Technological Innovation, Industrial Transformation and Environmental Efficiency: A Case Study of the Huaihai Economic Zone, China

Chin Geogr Sci. 2022;32(4):686-706. doi: 10.1007/s11769-022-1294-0. Epub 2022 Jul 14.

Authors

Ziyan Zheng^{1

2}, Yingming Zhu^{1

3}, Fangdao Qiu^{2

4}, Litao Wang⁵

Affiliations

¹ School of Economics and Management, Nanjing University of Science and Technology, Nanjing, 210094 China.
² School of Geography, Geomatics & Planning, Jiangsu Normal University, Xuzhou, 221116 China.
³ Jiangsu Industrial Cluster Research Base, Nanjing, 210094 China.
⁴ College of Urban and Resource Environment, Jiangsu Second Normal University, Nanjing, 210013 China.
⁵ Urban & Rural Development Research Center of Jiangsu Province, Nanjing, 210036 China.

Abstract

The 14th Five-Year Plan period is a critical period for China to achieve high-quality development. Based on super-efficiency slacks-based measure (SBM) model, grey-related analysis (GRA) and other models, this paper studies the heterogeneity of the coupling relationship among technological innovation, industrial transformation and environmental efficiency in the Huaihai Economic Zone during the period of 2005-2019. In addition, it analyzes the coupling mechanism of single and binary systems to the ternary system, which is of great significance for the collaborative symbiosis among systems. The findings are as follows. 1) The technological innovation, industrial transformation and environmental efficiency (TIE) systems of the Huaihai Economic Zone had significant spatial-temporal heterogeneity. Although their evaluation value fluctuated, the development trends are all positive. Ultimately, technological innovation is characterized by being high in the northeast and low in the southwest around Xuzhou, while other systems are relatively staggered in space. 2) The coupling of TIE systems is in transition, lack of orderly integration and benign interaction. However, the developing trend of interaction is also upward, and a spatial pattern driven by Xuzhou and Linyi as the dual cores has gradually formed. Moreover, the coupling is mostly manifested as outdated technological innovation and industrial transformation. Except for the final coordination of regenerative cities, the other resource types are all in transition. Cities in all traffic locations are still in transition. The overall system interaction of cities on Longhai Line (Lanzhou-Lianyungang Railway) is relatively optimal, and cities on Xinshi Line (Xinxiang-Rizhao Railway) are accelerating toward synergy. 3) The coupling status of TIE systems depends on the development of the single system and the interaction of the binary (2E) system. The coupling is closely related to technological innovation and Technology-Industry system, and is hindered by the inefficient interaction of Technology-Environment system. Specifically, the synergy of regenerative cities is attributed to the advantage of a single system and the effective integration of 2E systems. Beneficial from the advantages of environmental efficiency, the cities on Xinshi Line promote the synergy of the 2E and TIE systems. Therefore, while the Huaihai Economic Zone stimulates the development potential of the single and 2E systems, it is necessary to amplify the superimposition effect of systems in accordance on the basis of resource and location.

Keywords: coupling relationship; environmental efficiency; heterogeneity; industrial transformation; technological innovation.