Are you curious about which factories in China are leading the way in industrial emissions? Understanding the top industrial emission factories is crucial, not just for environmental awareness but also for making informed decisions in business and sustainability efforts. By comparing these factories, you can identify the best practices and innovations that can help reduce emissions and improve efficiency. Discovering this information empowers you to support greener initiatives and make a positive impact. So, let’s dive in and explore the key players in China’s industrial landscape—your journey towards informed choices starts here!
Chinese industrial air pollution emissions based on the continuous …
Product Details: Chinese Industrial Emissions Database (CIED): A nationwide database of industrial emissions based on Continuous Emissions Monitoring System (CEMS) measurements from 2015 to 2018, encompassing 10,933 plants and 19,032 facilities across 31 provinces and municipalities in China. The database provides hourly and source-level data on PM, SO2, and NOx concentrations, emission factors, and absolute emissions.
Technical Parameters:
– Hourly and source-level data on PM, SO2, and NOx concentrations
– Nationwide coverage across 31 provinces and municipalities
– Data from 10,933 plants and 19,032 facilities
– Monthly and annual emission factors and absolute emissions
Application Scenarios:
– Accurate analysis of industrial emission characteristics
– Targeted policymaking for air pollution control
– Mitigation policy making for China
– Insights for other countries looking to control industrial emissions
Pros:
– Reduces estimation uncertainty by using real CEMS-monitoring data
– Enhances spatio-temporal resolutions of emission factors and absolute emissions
– Directly reflects the potential emission reduction effects of recent air polluti…
– More robust estimates with lower uncertainty compared to previous studies
Cons:
– China’s CEMS network has not yet covered all industrial emission sources
– Data on greenhouse gases and water pollutants are not yet included
– Comprehensive high-frequency operational data are lacking for some facilities
– Careful verification against independent data (satellite or ground-level monitor…
China: CO2 Country Profile – Our World in Data
Product Details: CO2 and Greenhouse Gas Emissions data for China from Our World in Data.
Technical Parameters:
– Annual CO2 emissions figures
– Per capita CO2 emissions
Application Scenarios:
– Comparing CO2 emissions across countries
– Measuring progress in reducing greenhouse gas emissions
Pros:
– Provides comprehensive data on CO2 emissions
– Allows for comparison between different countries
Cons:
– Does not account for emissions from traded goods
– Data may vary annually and can be influenced by population size
The evolution of Chinese industrial CO2 emissions 2000-2050: A review …
Product Details: Chinese industrial emissions and their impact on global climate policy.
Technical Parameters:
– 24.1% of global emissions from the Chinese industrial sector
– Projected emissions peak in 2030
Application Scenarios:
– Climate policy formulation
– Industrial emissions reduction strategies
Pros:
– Reduction in energy intensities contributes to lower emissions
– Alignment with international climate commitments
Cons:
– Increased industrial activity offsets emission reductions
– Variability in peak timing across industrial sub-sectors
An inter-regional input-output table series of China from 1987-2017 …
Product Details: An inter-regional input-output (IRIO) table series of China from 1987-2017 with integrated carbon emission data. The dataset includes intermediate use matrix, final demand matrix, export and import information for each province, and carbon emission data.
Technical Parameters:
– Time coverage: 1987-2017
– Number of provinces: 28-31 (varies by year)
– Number of sectors: Varies by year (up to 42 sectors)
Application Scenarios:
– Analyzing China’s regional economic structure and industrial linkages
– Assessing the impacts of policy measures on carbon emissions
– Elucidating the dynamic interconnections among regional economies and carbon emi…
– Understanding long-term trends and cyclical changes in carbon emissions and tran…
Pros:
– Long time coverage (1987-2017) ensuring time-series continuity
– Detailed categorization of regions and industries
– Integration of carbon emission accounts for a holistic perspective
Cons:
– Short time series in some datasets hinder comprehensive understanding of long-te…
– Data inconsistencies across different years and sources due to varying data sour…
Emission trends of industrial VOCs in China since the clean air action …
Product Details: Analysis of spatiotemporal trends of China’s industrial VOCs emissions from 2013 to 2019.
Technical Parameters:
– VOCs emissions decreased from 16 Tg in 2016 to 15.72 Tg in 2019.
– Key industries contributing to VOCs emissions include chemical, industrial paint…
Application Scenarios:
– Air quality control and pollution management in industrial sectors.
– Policy development for emission reduction strategies.
Pros:
– Provides a comprehensive inventory of VOCs emissions at the city level.
– Identifies key emission sources and trends for targeted control measures.
Cons:
– Inadequate emission source classification system.
– Lack of localized emission factors for some key sources.
An assessment of China’s industrial emission characteristics using …
Product Details: Assessment of industrial emission characteristics using satellite observations of atmospheric pollutants.
Technical Parameters:
– Utilizes satellite data from OCO-2 and Aura OMI.
– Analyzes XCO2, SO2, and NO2 for emission characteristics.
Application Scenarios:
– Evaluating industrial carbon emissions in rapidly industrializing regions.
– Formulating emission reduction measures based on satellite observations.
Pros:
– High temporal and spatial resolution of satellite data.
– Provides a reliable reference for areas lacking detailed emission reports.
Cons:
– Limited information from XCO2 alone due to environmental factors.
– Potential issues with the authenticity and reliability of emission data.
11: Manufacturing Sector – Guide to Chinese Climate Policy
Product Details: China is a leading manufacturer of steel, aluminum, cement, plastics, and ammonia, contributing significantly to global production.
Technical Parameters:
– Manufacturing value added: RMB 31.7 trillion (2021)
– Energy consumption: 56% of total energy consumption in China (2020)
Application Scenarios:
– Construction and infrastructure development
– Manufacturing of consumer goods and industrial products
Pros:
– High production capacity and efficiency
– Significant contribution to global supply chains
Cons:
– High carbon emissions associated with manufacturing processes
– Dependence on fossil fuels for energy
Industrial pollutant emission and the major smog in China … – The Lancet
Product Details: Generic product details not provided.
Technical Parameters:
– Generic technical parameter 1
– Generic technical parameter 2
Application Scenarios:
– Generic application scenario 1
– Generic application scenario 2
Pros:
– Generic pro 1
– Generic pro 2
Cons:
– Generic con 1
– Generic con 2
China – Countries & Regions – IEA
Product Details: China’s CO2 emissions from energy sector, primarily from fossil fuel combustion.
Technical Parameters:
– Majority of emissions from coal, oil, and natural gas.
– Per-capita emissions vary based on economic structure and energy system.
Application Scenarios:
– Energy policy formulation and climate change mitigation strategies.
– Research and analysis in energy efficiency and renewable energy adoption.
Pros:
– Provides insights into the largest sources of CO2 emissions.
– Highlights the importance of transitioning to renewable energy.
Cons:
– Does not include emissions from methane leaks and other greenhouse gases.
– Data may not capture all energy-related emissions comprehensively.
Exploring carbon emission effects of national-level industrial park …
Product Details: Analysis of carbon emission effects of national-level industrial park policies on cities in China.
Technical Parameters:
– Data from 204 prefectural-level cities in China from 1999 to 2019
– Difference-in-differences (DID) method applied for causal inference
Application Scenarios:
– Policy evaluation for carbon emission reduction
– Urban planning and industrial development strategies
Pros:
– Provides insights into the effectiveness of different industrial park policies
– Highlights the importance of industrial structure in carbon emission reduction
Cons:
– Limited to three types of industrial parks
– Data period may not capture long-term effects adequately
Related Video
Comparison Table
| Company | Product Details | Pros | Cons | Website |
|---|---|---|---|---|
| Chinese industrial air pollution emissions based on the continuous … | Chinese Industrial Emissions Database (CIED): A nationwide database of industrial emissions based on Continuous Emissions Monitoring System (CEMS) mea… | – Reduces estimation uncertainty by using real CEMS-monitoring data – Enhances spatio-temporal resolutions of emission factors and absolute emissions… | – China’s CEMS network has not yet covered all industrial emission sources – Data on greenhouse gases and water pollutants are not yet included – Comp… | www.nature.com |
| China: CO2 Country Profile – Our World in Data | CO2 and Greenhouse Gas Emissions data for China from Our World in Data. | – Provides comprehensive data on CO2 emissions – Allows for comparison between different countries | – Does not account for emissions from traded goods – Data may vary annually and can be influenced by population size | ourworldindata.org |
| The evolution of Chinese industrial CO2 emissions 2000-2050: A review … | Chinese industrial emissions and their impact on global climate policy. | – Reduction in energy intensities contributes to lower emissions – Alignment with international climate commitments | – Increased industrial activity offsets emission reductions – Variability in peak timing across industrial sub-sectors | www.sciencedirect.com |
| An inter-regional input-output table series of China from 1987-2017 … | An inter-regional input-output (IRIO) table series of China from 1987-2017 with integrated carbon emission data. The dataset includes intermediate us… | – Long time coverage (1987-2017) ensuring time-series continuity – Detailed categorization of regions and industries – Integration of carbon emission… | – Short time series in some datasets hinder comprehensive understanding of long-te… – Data inconsistencies across different years and sources due to… | www.nature.com |
| Emission trends of industrial VOCs in China since the clean air action … | Analysis of spatiotemporal trends of China’s industrial VOCs emissions from 2013 to 2019. | – Provides a comprehensive inventory of VOCs emissions at the city level. – Identifies key emission sources and trends for targeted control measures. | – Inadequate emission source classification system. – Lack of localized emission factors for some key sources. | www.sciencedirect.com |
| An assessment of China’s industrial emission characteristics using … | Assessment of industrial emission characteristics using satellite observations of atmospheric pollutants. | – High temporal and spatial resolution of satellite data. – Provides a reliable reference for areas lacking detailed emission reports. | – Limited information from XCO2 alone due to environmental factors. – Potential issues with the authenticity and reliability of emission data. | www.sciencedirect.com |
| 11: Manufacturing Sector – Guide to Chinese Climate Policy | China is a leading manufacturer of steel, aluminum, cement, plastics, and ammonia, contributing significantly to global production. | – High production capacity and efficiency – Significant contribution to global supply chains | – High carbon emissions associated with manufacturing processes – Dependence on fossil fuels for energy | chineseclimatepolicy.oxfordenergy.org |
| Industrial pollutant emission and the major smog in China … – The Lancet | Generic product details not provided. | – Generic pro 1 – Generic pro 2 | – Generic con 1 – Generic con 2 | www.thelancet.com |
| China – Countries & Regions – IEA | China’s CO2 emissions from energy sector, primarily from fossil fuel combustion. | – Provides insights into the largest sources of CO2 emissions. – Highlights the importance of transitioning to renewable energy. | – Does not include emissions from methane leaks and other greenhouse gases. – Data may not capture all energy-related emissions comprehensively. | www.iea.org |
| Exploring carbon emission effects of national-level industrial park … | Analysis of carbon emission effects of national-level industrial park policies on cities in China. | – Provides insights into the effectiveness of different industrial park policies – Highlights the importance of industrial structure in carbon emissio… | – Limited to three types of industrial parks – Data period may not capture long-term effects adequately | www.oaepublish.com |
Frequently Asked Questions (FAQs)
What are industrial emissions?
Industrial emissions refer to pollutants released into the air, water, or soil from factories and manufacturing processes. These emissions can include gases, particulates, and chemicals that may harm the environment and human health.
How does China regulate industrial emissions?
China has implemented various regulations and standards to control industrial emissions, including the Air Pollution Prevention and Control Action Plan. Factories are required to monitor their emissions and adopt cleaner technologies to reduce pollution levels.
What are the main sources of industrial emissions in China?
The main sources include coal-fired power plants, manufacturing industries like steel and cement, and chemical production facilities. These sectors contribute significantly to air pollution and greenhouse gas emissions.
How do industrial emissions affect public health?
Industrial emissions can lead to respiratory issues, cardiovascular diseases, and other health problems. Pollutants like particulate matter and volatile organic compounds can cause long-term health effects, especially in vulnerable populations.
What steps can factories take to reduce emissions?
Factories can adopt cleaner production techniques, invest in pollution control technologies, and switch to renewable energy sources. Regular maintenance and employee training on environmental practices also play a crucial role in minimizing emissions.
