Coal production and consumption analysis, and forecasting of related carbon emission: evidence from China

Carbon dioxide (CO 2 ) formed during coal combustion is responsible for over half of the increase in the greenhouse effect, globally. It is crucial to conduct a comprehensive analysis and accurate prediction for coal production and consumption to optimize coal utilization and control emissions. Howe...

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Published in	Carbon management Vol. 10; no. 2; pp. 189 - 208
Main Authors	Jiang, Ping, Yang, Hufang, Ma, Xuejiao
Format	Journal Article
Language	English
Published	Taylor & Francis 04.03.2019 Taylor & Francis Group
Subjects	carbon emissions coal consumption Coal production economic development environmental Kuznets curve (EKC)
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Abstract	Carbon dioxide (CO 2 ) formed during coal combustion is responsible for over half of the increase in the greenhouse effect, globally. It is crucial to conduct a comprehensive analysis and accurate prediction for coal production and consumption to optimize coal utilization and control emissions. However, several unstable factors inhibit the accurate forecasting of coal. Therefore, taking into account both effect and efficiency of prediction, the Hubbert model is applied in this study to forecast China's peak coal production, peak year, and future production. Additionally, a combined model, with weights determined by a flower pollination algorithm and no-negative-constraint theory, is proposed to forecast coal consumption, which is superior to that of all individual models. Subsequently, accounting for the vital effect of CO 2 from coal combustion on economic issues, correlation analysis and an environmental Kuznets curve (EKC) are applied to quantitatively examine the relationship among coal consumption, economic development, and carbon emissions. The results of this estimation suggest that, compared to the US, China's economic development relies more on coal consumption; however, the EKC indicates that China has still not reached the 'inflection point'. Accordingly, it is essential for policymakers to balance the relationship among coal utilization, economic development, and the environment.
AbstractList	Carbon dioxide (CO 2 ) formed during coal combustion is responsible for over half of the increase in the greenhouse effect, globally. It is crucial to conduct a comprehensive analysis and accurate prediction for coal production and consumption to optimize coal utilization and control emissions. However, several unstable factors inhibit the accurate forecasting of coal. Therefore, taking into account both effect and efficiency of prediction, the Hubbert model is applied in this study to forecast China's peak coal production, peak year, and future production. Additionally, a combined model, with weights determined by a flower pollination algorithm and no-negative-constraint theory, is proposed to forecast coal consumption, which is superior to that of all individual models. Subsequently, accounting for the vital effect of CO 2 from coal combustion on economic issues, correlation analysis and an environmental Kuznets curve (EKC) are applied to quantitatively examine the relationship among coal consumption, economic development, and carbon emissions. The results of this estimation suggest that, compared to the US, China's economic development relies more on coal consumption; however, the EKC indicates that China has still not reached the 'inflection point'. Accordingly, it is essential for policymakers to balance the relationship among coal utilization, economic development, and the environment. Carbon dioxide (CO2) formed during coal combustion is responsible for over half of the increase in the greenhouse effect, globally. It is crucial to conduct a comprehensive analysis and accurate prediction for coal production and consumption to optimize coal utilization and control emissions. However, several unstable factors inhibit the accurate forecasting of coal. Therefore, taking into account both effect and efficiency of prediction, the Hubbert model is applied in this study to forecast China’s peak coal production, peak year, and future production. Additionally, a combined model, with weights determined by a flower pollination algorithm and no-negative-constraint theory, is proposed to forecast coal consumption, which is superior to that of all individual models. Subsequently, accounting for the vital effect of CO2 from coal combustion on economic issues, correlation analysis and an environmental Kuznets curve (EKC) are applied to quantitatively examine the relationship among coal consumption, economic development, and carbon emissions. The results of this estimation suggest that, compared to the US, China’s economic development relies more on coal consumption; however, the EKC indicates that China has still not reached the ‘inflection point’. Accordingly, it is essential for policymakers to balance the relationship among coal utilization, economic development, and the environment.
Author	Yang, Hufang Jiang, Ping Ma, Xuejiao
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References	CIT0030 (CIT0064) 2015; 24 Li XP (CIT0058) 2005; 3 Wang HW (CIT0032) 2003 Zhang WZ (CIT0010) 2006 CIT0035 CIT0037 CIT0039 Zhang W (CIT0047) 2013 Hubbert MK (CIT0034) 1962; 188 CIT0040 Li M (CIT0028) 2008 Chi QS (CIT0009) 2007 CIT0042 Wang DX (CIT0041) 2005 CIT0045 CIT0044 National Bureau of Statistics of the People's Republic of China (CIT0031) 2014 (CIT0062) 2014; 27 Chen XJ (CIT0033) 2015 CIT0002 CIT0005 CIT0049 CIT0048 CIT0007 Liu MQ (CIT0006) 2013 National Bureau of Statistics of the People's Republic of China (CIT0038) 2015 CIT0008 CIT0050 De-Chun AI (CIT0003) 2010; 29 CIT0051 CIT0053 CIT0056 CIT0011 CIT0055 CIT0014 De-Chun AI (CIT0012) 2009 CIT0013 CIT0016 CIT0015 CIT0018 CIT0019 World Bank (CIT0054) CIT0061 CIT0063 CIT0021 Xiang JN (CIT0057) 2007 CIT0020 CIT0023 CIT0022 Tan LL (CIT0004) 2009; 29 (CIT0052) 2010 Zhi-Kun HE (CIT0043) 2013; 28 CIT0025 CIT0024 CIT0027 CIT0026 CIT0029
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Snippet	Carbon dioxide (CO 2 ) formed during coal combustion is responsible for over half of the increase in the greenhouse effect, globally. It is crucial to conduct... Carbon dioxide (CO2) formed during coal combustion is responsible for over half of the increase in the greenhouse effect, globally. It is crucial to conduct a...
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Title	Coal production and consumption analysis, and forecasting of related carbon emission: evidence from China
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