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China’s natural gas production and consumption analysis based on the multicycle Hubbert model and rolling Grey model

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  • Wang, Jianzhou
  • Jiang, Haiyan
  • Zhou, Qingping
  • Wu, Jie
  • Qin, Shanshan

Abstract

As fossil fuels reserves deplete rapidly and the low-carbon economy develops expeditiously, especially in China, natural gas as a clean and alternative energy is underway to help meet increased energy needs and climate needs. Therefore, accurate forecasts of natural gas production and consumption have been a necessary task for policy making in the coming years. This paper presents a review of natural gas forecasting models. The multicycle Hubbert model is employed to forecast China’s annual nature gas production and to determine the peak production, the peak year and the future production trends based on several different URR scenarios. Moreover, a small-sample effective rolling GM(1,1) model is proposed for the first time to forecast exponential natural gas consumption with different lengths of data sets. Then, the grey relationship analysis is used to select the best consumption curve in correspond with different URR scenarios. The empirical result shows that the supply–demand gap will be larger and larger in the future, with a minimum gap of 22bcm in 2011 and 225bcm in 2050, with a maximum gap of 31bcm in 2011 and 807bcm in 2050, which indicates that the natural gas production in China cannot meet the rising consumption. Therefore, policy measures must be taken to ameliorate the situation, including expanding natural gas imports, increasing unconventional natural gas production, complementing the gap with other energy resources and combining energy saving with emission reduction. Accurate forecasting of natural gas production and consumption can provide the basis for decision making and help the government generate new significant policies.

Suggested Citation

  • Wang, Jianzhou & Jiang, Haiyan & Zhou, Qingping & Wu, Jie & Qin, Shanshan, 2016. "China’s natural gas production and consumption analysis based on the multicycle Hubbert model and rolling Grey model," Renewable and Sustainable Energy Reviews, Elsevier, vol. 53(C), pages 1149-1167.
    • Handle: RePEc:eee:rensus:v:53:y:2016:i:c:p:1149-1167
    DOI: 10.1016/j.rser.2015.09.067
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