Industrial Carbon Emissions Accounting from Energy and Non-energy Consumption and Input-output Model Construction for Trans-sector Carbon Emissions Shift Assessment, China

机译：工业碳排放从能量和非能耗和输出模型建设核算，对跨部门碳排放换算评估，中国

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This paper describes an industrial energy combustion use and industrial process emissions accounting method. By utilizing three set of widely used energy combustion carbon emission factors, China's industrial energy consumption carbon emissions are calculated. By using the methods provided by the IPCC, the industrial process carbon emissions for extractive industries, chemical industries and metal industries are calculated. The results show that in 2010 China's industrial energy consumption carbon emissions reached approximately 6.91×10~8 t C (2.53×10~9 t CO_2), 85% from coal burning. The industrial process emitted approximately 9.47×10~8 t C (3.48×10~9 t CO_2). About 5.55×10~8 t C (2.04×10~9 t CO_2) is emitted by providing heat and power to industrial processes. In addition, this paper also proposed an improved model coupling industrial carbon emissions data and input-output analysis. It will help to quantify and evaluate the trans-sector carbon emissions shift.

机译：本文介绍了工业能源燃烧使用和工业过程排放核算方法。通过利用三种广泛使用的能量燃烧碳排放因子，计算工业能耗碳排放量。利用IPCC提供的方法，计算了采掘行业，化学工业和金属工业的工业工艺碳排放。结果表明，2010年中国的工业能源消耗碳排放达到约6.91×10〜8 T C（2.53×10〜9 T CO_2），煤炭燃烧85％。工业过程约为9.47×10〜8 T C（3.48×10〜9 T CO_2）。通过为工业过程提供热量和电力来发出约5.55×10〜8 T C（2.04×10〜9 T CO_2）。此外，本文还提出了一种改进的模型耦合工业碳排放数据和输入输出分析。它将有助于量化和评估跨部门碳排放变化。

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《International Conference on Information Science, Automation and Material System》|2011年||共4页
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Shunshun Yang; Huanzhi Wang;
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中图分类 TB3-53;
关键词
Industrial processes carbon emissions; Energy combustion carbon emissions; Total amount calculation; Input-output model;

机译：工业处理碳排放;能量燃烧碳排放;总量计算;输入输出模型;

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Industrial Carbon Emissions Accounting from Energy and Non-energy Consumption and Input-output Model Construction for Trans-sector Carbon Emissions Shift Assessment, China

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