What new technology means for the energy demand in China? A sustainable development perspective.

Environmental Science and Pollution Research International
Khalid Ahmed, Ilhan Ozturk

Abstract

This paper explores the direct impact of new technology on the energy intensity in China. The autoregressive distributed lag (ARDL) bounds test approach to cointegration is utilised over the extended period of 1985-2013. The variables found cointegrated and confirm the long-run association among all the underlying vectors. Furthermore, the results of long- and short-run analysis reveal that new technology spurs energy intensity in China. A 1% increase in technological innovation boosts energy intensity by 0.4% and 0.03% in the long and short run, respectively. The findings suggest that the establishment of smart grids and solar energy parks followed by the reforms in energy sector is yet to achieve plausible efficiency in China. The existing investment and innovation policy reforms are insufficient to assist the energy sector to cope up with the country's exceptional economic growth trend. Unlike other studies, this paper accommodates structural break in the series. During sensitivity analysis, the model is found stable. Hence, the findings possess important policy implications for China and open up new discussion in the field.

References

Sep 10, 2015·Environmental Science and Pollution Research International·Eyup Dogan, Berna Turkekul

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Citations

Nov 11, 2019·Environmental Science and Pollution Research International·Khalid AhmedPirih Mukesh
Jan 15, 2020·Environmental Science and Pollution Research International·Hassan Ahmad NizamShowkat Gani
Dec 23, 2019·Environmental Science and Pollution Research International·Wanhai YouYawei Guo
Apr 5, 2020·Environmental Science and Pollution Research International·Ahmed UsmanSyeda Maria Zafar
Apr 18, 2020·Environmental Science and Pollution Research International·Sanze FuLijun Ren
Dec 17, 2020·International Journal of Environmental Research and Public Health·Cong LiMuhammad Umar
Jun 29, 2021·Environmental Science and Pollution Research International·Muhammad Khalid AnserAhmad Kabbani
Jul 30, 2021·Environmental Science and Pollution Research International·Muhammad Khalid AnserMuhammad Moinuddin Qazi Abro

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