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China low-carbon industry project industry research report 2018-2025

China low-carbon industry project industry research report 2018-2025

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[report name] : investment trend analysis report of Chinas low-carbon chemical industry development projects 2018-2025
[key words] : low-carbon chemicals _ industry report industry report
Report catalog
Chapter 1: development background of Chinas low-carbon chemical industry
1.1 purpose and methods of industry research
1.1.1 purpose of industry research
1.1.2 industry research methods
1.2 concepts related to low-carbon chemicals
1.2.1 greenhouse effect
1.2.2 low-carbon economy
1.2.3 clean development mechanism
1.2.4 low-carbon chemicals
1.3 the necessity of the development of low-carbon chemical industry
1.3.1 climate change and greenhouse effect
(1) global climate change
(2) impacts of climate change
(3) greenhouse effect and greenhouse gases
1.3.2 current situation of greenhouse gas emissions
(1) carbon dioxide emissions
(2) methane emission
(3) nitrogen and oxygen compound emission
(4) HFCS emissions
(5) other greenhouse emissions
1.3.3 benefit analysis of low-carbon chemicals development
(1) social benefits of low-carbon chemical development
(2) economic benefits of low-carbon chemical development
1.4 relevant policies for the development of low-carbon chemicals industry
and emission reduction mechanism
(2) emission reduction mechanism
1.4.2 of Chinas national program on climate change
1.4.3
1.4.4 specific policies and measures to address climate change
Chapter two: development analysis of CDM projects of greenhouse gas emission reduction in China
2.1 development analysis of methane recovery and utilization type CDM projects
2.1.1 development status of methane recovery and utilization type CDM projects
(1) the number and regional distribution of methane recovery and utilization type CDM projects
(2) annual emission reduction and regional distribution of methane recovery and utilization type CDM projects
(3) composition of CDM project category of methane recovery and utilization
2.1.2 development analysis of coal-bed gas utilization type CDM projects
(1) development status of coal-bed gas utilization type CDM projects
(2) case analysis of coal-bed gas utilization type CDM project
(3) development potential of coal-bed gas utilization type CDM projects
2.1.3 development analysis of landfill gas generation CDM projects
(1) development status of landfill gas generation CDM projects
(2) case analysis of landfill gas generation CDM projects
(3) development potential of landfill gas generation CDM projects
2.2 development analysis of fuel substitution CDM projects
2.2.1 development status of fuel substitution CDM projects
(1) number and regional distribution of fuel substitution CDM projects
(2) annual emission reduction and regional distribution of fuel substitution CDM projects
2.2.2 case analysis of fuel substitution CDM projects
2.2.3 development potential of fuel substitution CDM projects
2.3 development analysis of hfc-23 decomposed CDM projects
2.3.1 development status of hfc-23 decomposed CDM projects
(1) number and regional distribution of hfc-23 decomposed CDM projects
(2) annual emission reduction and regional distribution of hfc-23 decomposed CDM projects
2.3.2 case analysis of hfc-23 decomposed CDM projects
2.3.3 development potential of hfc-23 decomposed CDM projects
2.4 development analysis of n2o decomposition and elimination CDM projects
2.4.1 development status of CDM projects with n2o decomposition and elimination
(1) number and regional distribution of n2o decomposition and elimination CDM projects
(2) annual emission reduction and regional distribution of n2o decomposition and elimination CDM projects
2.4.2 case analysis of n2o decomposition and elimination CDM projects
2.4.3 development potential of n2o decomposition and elimination CDM projects
Chapter 3: technical development analysis of Chinas low-carbon chemical industry
3.1 analysis of carbon dioxide capture and storage technology
3.1.1 carbon dioxide capture technology
(1) carbon dioxide capture for electric and thermal production
(2) carbon dioxide capture in the steel industry
(3) co2 capture in cement industry
(4) co2 capture in petrochemical industry
(5) carbon dioxide capture in the industry
3.1.2 carbon dioxide transport technology
(1) carbon dioxide pipeline transport
(2) carbon dioxide shipping
3.1.3 carbon dioxide storage technology
(1) geologic sequestration of carbon dioxide
(2) co2 storage cost
(3) carbon storage for enhanced oil recovery
(4) carbon storage for enhanced natural gas recovery
(5) carbon storage of depleted oil and gas fields
(6) carbon storage for enhanced CBM recovery
(7) other co2 storage technologies
3.1.4 global co2 capture and storage conditions
(1) European Union
(2) Middle East and north Africa
(3) Australia
(4) Canada
(5) United States
(6) China
3.2 technical analysis of co2 chemical utilization
3.2.1 use carbon dioxide to produce inorganic chemical products
(1) borax
(2) white carbon black
(3) lightweight magnesium oxide
(4) salicylic acid
(5) pure alkali
(6) urea
3.2.2 use of carbon dioxide to produce organic chemical products
(1) catalytic hydrogenation of carbon dioxide
(2) production of syngas
(3) preparation of c1-c2 mixed alcohols
(4) synthetic fuels
(5) synthesis of esters and carboxylic acids
(6) synthetic amine
(7) synthesis of formic acid and its derivatives
(8) synthesis of aldehyde
(9) others
3.2.3 synthesis of organic polymer compounds by carbon dioxide
(1) carbonic acid ester
(2) polyurea
(3) polyurethane
(4) polyketone, polyether, polyketone ether ester
(5) liquid crystal polymers
(6) carbon dioxide copolymer
3.Application analysis of 3co2 in hydrocarbon conversion
3.3.1 low carbon alkanes oxidation to olefin technology
(1) methane oxidation coupling of ethylene
(2) oxidative dehydrogenation of low carbon alkanes to low carbon olefin
3.3.2 methane oxidation to aromatic hydrocarbons
3.3.3-- -oxidative dehydrogenation technology for styrene production
3.4 technical analysis of methane recovery and utilization
3.4.1 landfill gas utilization technology
3.4.2 CBM utilization technology
3.4.3 coke oven gas utilization technology
3.5 nox emission control technology
3.5.1 overview of nitrogen oxide control technology
3.5.2 fixed source nitrogen oxide emission control technology
3.5.3 mobile source nitrogen oxide emission control technology
3.5.4 new low-nitrogen and non-nitrogen combustion technologies
(1) new low-nitrogen combustion technology
(2) new nitrogen free combustion technology
3.6 progress analysis of methanol hydrocarbon- technology
3.6.1 methanol gasoline (MTG) technology
3.6.2 methanol olefin (mto) technology
3.6.3 methanol production of propylene (MTP) technology
3.6.4 methanol production of aromatic hydrocarbons (mta) technology
Chapter four: analysis of the development status of Chinas low-carbon chemical industry
4.1 development analysis of co2 - based plastics market
4.1.1 overview of development of co2 based plastics
4.1.2 development of co2 base plastics
(1) international research units and technical progress
(2) domestic research units and technical progress
4.1.3 supply and demand of co2 base plastics
4.1.4 market price of co2 based plastics
4.1.5 difficulties in market promotion of co2 based plastics
(1) too much cost pressure
(2) small quantities are difficult to sell
(3) high investment risk
4.1.6 development potential of co2 based plastics market
4.2 market development analysis of dimethyl carbonate
4.2.1 overview of dimethyl carbonate development
4.2.2 research and development of dimethyl carbonate
(1) international research units and technical progress
(2) domestic research units and technical progress
4.2.3 market supply and demand of dimethyl carbonate
Market price of dimethyl carbonate
4.2.5 difficulties in marketing dimethyl carbonate
4.2.6 market development potential of dimethyl carbonate
4.3 analysis of market development of formamide
4.3.1 overview of formamide development
4.3.2 development of formamide
4.3.3 demand-supply status of formamide market
4.3.4 market price of formamide
4.3.5 marketing difficulties of formamide
4.3.6 development potential of formamide market
4.4 analysis of low-carbon methanol market development
4.4.1 overview of low-carbon methanol development
4.4.2 research and development progress of low-carbon methanol
4.4.3 supply and demand status of methanol market
4.4.4 market price of methanol
4.4.5 difficulties in promotion of low-carbon methanol
4.4.6 potential of low-carbon methanol development
(1) methanol market demand prospect
(2) development potential of low-carbon methanol
4.5 analysis of low-carbon formaldehyde market development
4.5.1 overview of low-carbon formaldehyde development
4.5.2 research and development progress of low-carbon formaldehyde
4.5.3 market supply and demand of formaldehyde
4.5.4 market price of formaldehyde
4.5.5 difficulty in promotion of low-carbon formaldehyde
4.5.6 development potential of low carbon formaldehyde
(1) market demand prospect of formaldehyde
(2) development potential of low-carbon formaldehyde
4.6 market development analysis of low carbon dimethyl ether
4.6.1 overview of low carbon dimethyl ether development
4.6.2 development of low-carbon dimethyl ether
4.6.3 supply and demand status of dimethyl ether market
Market price of dimethyl ether
4.6.5 difficulties in promotion of low-carbon dimethyl ether
4.6.6 development potential of low carbon dimethyl ether
(1) dimethyl ether market demand prospect
(2) development potential of low carbon dimethyl ether
4.7 market development analysis of low carbon urea
4.7.1 overview of low carbon urea development
4.7.2 research and development progress of low carbon urea
4.7.3 supply and demand status of urea market
4.7.4 urea market price
4.7.5 difficulties in promoting low-carbon urea
4.7.6 potential for low carbon urea development
(1) urea market demand prospect
(2) development potential of low carbon urea
4.8 analysis of the development of low carbon white carbon black market
4.8.1 overview of low-carbon white black development
4.8.2 research and development progress of low-carbon white carbon black
4.8.3 current market supply and demand of white carbon black
4.8.4 market price of white carbon black
4.8.5 difficulties in promotion of low-carbon white carbon black
4.8.6 development potential of low carbon white carbon black
(1) market demand prospect of white carbon black
(2) development potential of low carbon white carbon black
4.9 market development analysis of low-carbon soda
4.9.1 overview of low-carbon soda development
4.9.2 research and development progress of low-carbon soda
4.9.3 status of supply and demand of soda market
4.9.4 market price of soda
4.9.5 difficulty in promotion of low-carbon soda
4.9.6 development potential of low carbon soda
(1) prospects of market demand for soda
(2) development potential of low-carbon soda
Chapter five: analysis of downstream demand in Chinas low carbon chemical industry
5.1 analysis of market demand of co2 based plastics
5.1.1 distribution of co2 base plastics
5.1.2 analysis of co2 base plastics demand in the plastic film industry
(1) the demand scale of the plastic film industry
(2) application status of co2 based plastics in the industry
(3) application prospect of co2 based plastics in industry
5.1.3 analysis of co2 base plastics demand in daily-use plastics industry
(1) demand scale of daily plastic products industry
(2) application status of co2 based plastics in the industry
(3) application prospect of co2 based plastics in industry
5.1.4 analysis of co2 base plastics demand in medical plastics industry
(1) demand scale of medical plastic products industry
(2) application status of co2 based plastics in the industry
(3) application prospect of co2 based plastics in industry
5.2 market demand analysis of dimethyl carbonate
5.2.1 dimethyl carbonate application field distribution
5.2.2 demand analysis of DMC in pesticide industry
(1) demand scale of pesticide industry
(2) application status of DMC in the industry
(3) application prospect of DMC in the industry
5.2.3 DMC demand analysis in coating industry
(1) scale of demand of coating industry
(2) application status of DMC in the industry
(3) application prospect of DMC in the industry
5.2.4 demand analysis of DMC in pharmaceutical industry
(1) the demand scale of the pharmaceutical industry
(2) application status of DMC in the industry
(3) application prospect of DMC in the industry
5.3 market demand analysis of formamide
5.3.1 distribution of formamide application fields
5.3.2 DMF demand analysis in polyurethane industry
(1) demand scale of polyurethane industry
(2) application status of DMF in the industry
(3) application prospect of DMF in the industry
5.3.3 DMF demand analysis of the acrylic fiber industry
(1) the demand scale of the acrylic fiber industry
(2) application status of DMF in the industry
(3) application prospect of DMF in the industry
5.3.4 demand analysis of DMF in pharmaceutical industry
(1) application status of DMF in the industry
(2) application prospect of DMF in industry
5.4 methanol market demand analysis
5.4.1 distribution of methanol application field
5.4.2 methanol demand analysis of organic chemical raw material industry(1) demand scale of organic chemical raw materials industry
(2) application status of methanol in the industry
(3) application prospect of methanol in the industry
5.4.3 methanol demand analysis in the biofuel industry
(1) scale of demand of biofuels industry
(2) application status of methanol in the industry
(3) application prospect of methanol in the industry
5.4.4 analysis of methanol demand in coal chemical industry
(1) demand scale of coal chemical industry
(2) application status of methanol in the industry
(3) application prospect of methanol in the industry
5.5 formaldehyde market demand analysis
5.5.1 distribution of formaldehyde application fields
5.5.2 analysis of formaldehyde demand in the plastics industry
(1) the demand scale of the plastics industry
(2) application status of formaldehyde in the industry
(3) application prospect of formaldehyde in the industry
5.5.3 analysis of formaldehyde demand in synthetic fiber industry
(1) the demand scale of the synthetic fiber industry
(2) application status of formaldehyde in the industry
(3) application prospect of formaldehyde in the industry
5.5.4 formaldehyde demand analysis of leather products industry 本文章更多内容: 1 - 2 - 3 - 下一页>>

China low-carbon industry project industry research report 2018-2025
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