ID | 171519 |
Title Proper | Domestic R and D activities, technology absorption ability, and energy intensity in China |
Language | ENG |
Author | Huang, Junbing ; Chen, Xiang |
Summary / Abstract (Note) | Domestic research and development (R&D) activities are critical for the development of China's low-carbon economy. The higher level of R&D inputs, the more advanced technology will generate, therefore contributing to the energy intensity reduction. In empirical studies, the effect of R&D activities on energy intensity has been investigated extensively, however, most studies consider R&D activities as a whole. Consequently, we lack detailed information on the role of each R&D player and stage for appropriate policy consideration. Furthermore, the effects of R&D activities may be determined by factors affecting technology absorptive ability. To understand the influence of R&D activities on energy intensity, we employ linear and nonlinear analyses using a Chinese provincial dataset covering 2000–2016. The linear analysis suggests that domestic R&D is powerful in reducing energy intensity. However, this positive effect is mainly from experimental and developmental R&D activities rather than basic R&D and application activities. Further, R&D activities by industrial enterprises have a stronger effect on energy intensity reduction than those of higher education and independent R&D institutions. Additional study using panel threshold models suggests that the effects are not linear but experience structural breaks when human capital stock and full-time equivalent (FEP) R&D personnel are at different levels. |
`In' analytical Note | Energy Policy Vol.138; Mar 2020: p.111184 |
Journal Source | Energy Policy 2020-03 138 |
Key Words | Energy Intensity ; Panel Threshold Model ; Domestic R and D ; Human Capital Stock |