Insights into the Regional Greenhouse Gas (GHG) Emission  of Industrial Processes: A Case Study of Shenyang, China

Liu, Zuoxi; Dong, Huijuan; Geng, Yong; Lu, Chengpeng; Ren, Wanxia

doi:10.3390/su6063669

Cited by 19 publications

(9 citation statements)

References 29 publications

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“…When estimating CO 2 emissions from industrial processes, methodologies recommended by the IPCC are widely used [33][34][35][36][37][38]. In the Guidelines for National Greenhouse Gas Inventories 2006 [23], three basic methodologies are proposed to estimate process emissions from the lime industry: an output-based approach that uses default values (Method 1); an output-based approach that estimates emissions from CaO production and employs country-specific information for correction factors (Method 2); and an input-based carbonate approach (Method 3).…”

Section: Process Emissionsmentioning

confidence: 99%

CO2 emissions from China’s lime industry

Liu²,

2016

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Section: Process Emissionsmentioning

confidence: 99%

CO2 emissions from China’s lime industry

Liu²,

2016

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“…These are indirect emissions that are a consequence of an organization's activities, but that occur at sources that organizations do not own or control. The most common type of Scope 2 emissions is electricity purchased for own consumption from the national grid [14][15][16][17][18].…”

Section: Distinctive Features Of the Korean Etsmentioning

confidence: 99%

Efficiency versus Equality: Comparing Design Options for Indirect Emissions Accounting in the Korean Emissions Trading Scheme

Yeo

Lee

2015

Sustainability

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Abstract:The Korean emissions trading scheme (ETS) has one special characteristic that makes it different from other schemes, such as the EU ETS. While the other schemes consider only direct emissions from fossil fuels, the Korean ETS also regulates indirect emissions arising from the consumption of electricity. The problem of double counting arises under this setting, in which emissions from the power sector can be accounted for twice, when electricity is produced and consumed. This study aims to compare design options on indirect emissions accounting for the Korean ETS using a computable general equilibrium model. Four scenarios are generated for options accounting for direct and/or indirect emissions and are evaluated in terms of efficiency and equality. The result shows that the ETS operates most efficiently when only direct emissions are considered. However, the option that includes both direct and indirect emissions produces a competent result in terms of equality by spreading the economic burden of emissions reduction among industries. We conclude that this option can be an alternative to meet the key purposes of the Korean ETS.

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“…Pertaining publications include those on fugitive emission from the mining industry (Cheng et al 2011;Shao et al 2016;Su et al 2005;Warmuzinski 2008); oil and natural gas (Elgowainy et al 2014;Elkin 2015;Motazedi et al 2017;Park et al 2010;Szklo and Schaeffer 2007;Schneising et al 2014); fossil fuel GHG emissions from the manufacturing industry (Akbostanci et al 2011;Griffina et al 2018;Laurent et al 2010;Lina and Xubc 2018;Pengab et al 2018;Ren et al 2014;Tian et al 2013;Yuab et al 2018); emissions from the mineral products, especially cement (Andrew 2018;Cai et al 2016;Liu et al 2015;Liu 2016;Rehan and Nehdi 2005;Shan et al 2016); and metal Liu et al 2016;Shi and Zhao 2016;Yang et al 2018) and food (Garnett 2011) productions. Important information was brought during assessments of mitigation potential of the industrial processes on the reduction of GHG emissions (Garnett 2011;Hao et al 2016;Laurent et al 2010;Liu et al 2014;Long et al 2016;Park et al 2010;Rehan and Nehdi 2005;Wu et al 2016;Yu et al 2016;Zhang et al 2016). Furthermore, a recent special issue of Applied Energy was published on the recent trends of industrial emissions in developing countries .…”

Section: Introductionmentioning

confidence: 99%

A high-definition spatially explicit modelling approach for national greenhouse gas emissions from industrial processes: reducing the errors and uncertainties in global emission modelling

Charkovska

Halushchak

Bun

et al. 2019

Mitig Adapt Strateg Glob Change

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Industrial processes cause significant emissions of greenhouse gases (GHGs) to the atmosphere and, therefore, have high mitigation and adaptation potential for global change. Spatially explicit (gridded) emission inventories (EIs) should allow us to analyse sectoral emission patterns to estimate the potential impacts of emission policies and support decisions on reducing emissions. However, such EIs are often based on simple downscaling of national level emission estimates and the changes in subnational emission distributions do not necessarily reflect the actual changes driven by the local emission drivers. This article presents a high-definition, 100-m resolution bottom-up inventory of GHG emissions from industrial processes (fuel combustion activities in energy and manufacturing industries, fugitive emissions, mineral products, chemical industries, metal production and food and drink industries), which is exemplified for data for Poland. The study objectives include elaboration of the universal approach for mapping emission sources, algorithms for emission disaggregation, Mitigation and Adaptation Strategies for Global Change (2019) 24:907-939 https://doi.estimation of emissions at the source level and uncertainty analysis. We start with IPCCcompliant national sectoral GHG estimates made using Polish official statistics and, then, propose an improved emission disaggregation algorithm that fully utilises a collection of activity data available at the national/provincial level to the level of individual point and diffused (area) emission sources. To ensure the accuracy of the resulting 100-m resolution emission fields, the geospatial data used for mapping emission sources (point source geolocation and land cover classification) were subject to thorough human visual inspection. The resulting 100-m emission field even holds cadastres of emissions separately for each industrial emission category. We also compiled cadastres in regular grids and, then, compared them with the Emission Database for Global Atmospheric Research (EDGAR). A quantitative analysis of discrepancies between both results reveals quite frequent misallocations of point sources used in the EDGAR compilation that considerably deteriorate high-resolution inventories. We also use a Monte-Carlo method-based uncertainty assessment that yields a detailed estimation of the GHG emission uncertainty in the main categories of the analysed processes. We found that the above-mentioned geographical coordinates and patterns used for emission disaggregation have the greatest impact on the overall uncertainty of GHG inventories from the industrial processes. We evaluate the mitigation potential of industrial emissions and the impact of separate emission categories. This study proposes a method to accurately quantify industrial emissions at a policy relevant spatial scale in order to contribute to the local climate mitigation via emission quantification (local to national) and scientific assessment of the mitigation effort (national to global). Apart from the abov...

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Insights into the Regional Greenhouse Gas (GHG) Emission of Industrial Processes: A Case Study of Shenyang, China

Cited by 19 publications

References 29 publications

CO2 emissions from China’s lime industry

CO2 emissions from China’s lime industry

Efficiency versus Equality: Comparing Design Options for Indirect Emissions Accounting in the Korean Emissions Trading Scheme

A high-definition spatially explicit modelling approach for national greenhouse gas emissions from industrial processes: reducing the errors and uncertainties in global emission modelling

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