China Urban Environmental Protection Market Project Analysis and Industry Operation Prospect Research Report 2023-2030
[Publisher]: China Win Xinhe Research Network
[The content part has been deleted and detailed can refer to the complete information published by Winxinhe Research Network! ] 】
Chapter 1: Environmental Analysis of the Development of China's Urban Environmental Protection Industry
1.1 Analysis of the policy environment of urban environmental protection industry
1.1.1 Regulatory system for urban environmental protection industry
1.1.2 Policies related to the urban environmental protection industry
1.1.3 Development planning of urban environmental protection industry
1.2 Economic environment analysis of urban environmental protection industry
1.2.1 GDP and Growth Analysis
1.2.2 Development of urbanization level in the mainland
1.2.3 Development of the mainland's industrialization level
1.3 Analysis of social environment in urban environmental protection industry
1.3.1 Analysis of water quality and environmental pollution
1.3.2 Analysis of solid waste pollution status
1.3.3 Analysis of atmospheric environmental pollution
1.3.4 Analysis of the current situation and trend of environmental risks in mainland China
1.4 Technical environment analysis of urban environmental protection industry
1.4.1 Analysis of patented technologies in China's urban environmental protection industry
1.4.2 Industry technology development analysis
Chapter 2: Analysis of the development of the international urban environmental protection industry
2.1 Overview of the development of international urban environmental protection industry
2.1.1 Overview of the development of international urban environmental protection industry
2.1.2 Analysis of the development status of the international bio-environmental protection industry
2.1.3 Development trends and new trends of international environmental protection industry
2.2 Analysis of the development of urban environmental protection industry in the United States
2.2.1 Analysis of the development plan of the environmental protection industry in the United States
2.2.2 Classification and development of environmental protection industry in the United States
2.2.3 Analysis of the latest environmental policy trends in the United States
2.2.4 Analysis of the development of environmental protection industry in the United States
2.3 Analysis of the development of urban environmental protection industry in Japan
2.3.1 Development history of Japan's environmental protection industry
2.3.2 Characteristics of the development of Japan's environmental protection industry
2.3.3 Environmental Management Philosophy and Practice of Japanese Companies
2.3.4 Analysis of the development prospect of Japan's environmental protection industry
2.4 Analysis of the development of environmental protection industry in British cities
2.4.1 Overview of UK Environmental Industry Policy
2.4.2 Overview of the development of the environmental industry in the UK
2.4.3 The development direction of the environmental protection industry in the UK
2.5 Analysis of the development of urban environmental protection industry in France
2.5.1 Overview of French environmental protection industry policies
2.5.2 Overview of the development of the environmental protection industry in France
2.5.3 Development direction of the environmental protection industry in France
2.6 Analysis of the development of urban environmental protection industry in other countries and regions
2.6.1 Overview of the development of the environmental protection industry in Germany
2.6.2 Overview of the development of the environmental industry in Switzerland
2.6.3 Overview of the development of the environmental protection industry in Australia
2.6.4 Overview of the development of the environmental protection industry in the Netherlands
2.6.5 Overview of the development of the environmental protection industry in Canada
2.6.6 Overview of the development of the environmental protection industry in Russia
Chapter 3: Analysis of the development of China's urban environmental protection industry
3.1 Overview of the development of urban environmental protection industry
3.1.1 Overview of the development of urban environmental protection industry
3.1.2 Development characteristics of urban environmental protection industry
3.1.3 Pricing strategies for urban environmental protection industries
3.1.4 There are problems in the urban environmental protection industry
3.1.5 Development opportunities of urban environmental protection industry
3.2 Overall operation of urban environmental protection industry
3.2.1 Overall operation of the industry
3.2.2 Operation of environmental protection industry
3.2.3 Analysis of the prospect of environmental protection industry
3.3 Analysis of the development status of environmental protection service industry
3.3.1 Overview of the development of the environmental service industry
3.3.2 Development characteristics of environmental protection service industry
3.3.3 Constraints on the development of the environmental protection service industry
3.3.4 Analysis of the development status of the environmental protection service industry
3.3.5 Suggestions for the development of environmental protection service industry
Chapter 4: Analysis of the development of China's wastewater treatment industry
4.1 Overview of the development of sewage treatment industry
4.1.1 Analysis of the industrial chain of sewage treatment industry
4.1.2 Analysis of the development history of sewage treatment industry
4.1.3 Analysis of the development characteristics of sewage treatment industry
4.1.4 Influencing factors for the development of sewage treatment industry
4.1.5 Analysis of business model of sewage treatment industry
4.2 Development of sewage treatment industry
4.2.1 Analysis of industry operating benefits of sewage treatment industry
4.2.2 Profitability analysis of sewage treatment industry
4.2.3 Analysis of industry operation capacity of sewage treatment industry
4.2.4 Analysis of solvency of sewage treatment industry
4.2.5 Analysis of industry development capacity of sewage treatment industry
4.3 Analysis of the competitive landscape of sewage treatment industry
4.3.1 Market size analysis of sewage treatment industry
4.3.2 Analysis of potential threats in the wastewater treatment industry
4.4 Analysis of key areas of sewage treatment industry
4.4.1 Regional structure characteristics of sewage treatment industry
4.4.2 Development of sewage treatment industry in Zhejiang Province
4.4.3 Development of sewage treatment industry in Beijing
4.4.4 Analysis of sewage treatment market potential in Guangdong Province
4.4.5 Development of sewage treatment industry in Shandong Province
4.4.6 Development of sewage treatment industry in Sichuan Province
Chapter 5: Analysis of the Development of China's Solid Waste Treatment Industry
5.1 Development of solid waste treatment industry
5.1.1 Definition and classification of solid waste treatment industry
5.1.2 Solid waste treatment industry life cycle
5.1.3 Industrial chain analysis of solid waste treatment industry
5.1.4 Analysis of the development status of solid waste treatment industry
5.1.5 Porter's Five Forces Model for Solid Waste Treatment Industry
5.1.6 Drivers for the development of the solid waste treatment industry
5.2 Analysis of the development of the municipal waste treatment market
5.2.1 Analysis of the total amount of municipal solid waste disposed of
5.2.2 Analysis of municipal solid waste treatment areas
5.3 Urban Industrial Solid Waste Treatment Market Development Analysis
5.3.1 Overall analysis of industrial solid waste treatment
5.3.2 Regional analysis of industrial solid waste treatment
5.3.3 Upstream and downstream industry analysis of industrial solid waste treatment
5.4 Development Analysis of Municipal Waste-to-Energy Market
5.4.1 Analysis of the current market status of the domestic waste-to-energy market
5.4.2 Structure Analysis of Waste-to-Energy in China
5.4.3 Analysis of the competitive landscape of waste-to-energy industry
5.4.4 Policy Analysis of Waste-to-Energy Industry
Chapter 6: Analysis of the development of China's air governance industry
6.1 Overview of the development of the air treatment industry
6.1.1 Analysis of the industrial chain of air treatment industry
6.1.2 Analysis of the development characteristics of the air treatment industry
6.1.3 Analysis of business model of air treatment industry
6.1.4 Driving factors for the development of the air governance industry
6.2 Analysis of air treatment industry segments
6.2.1 Analysis of the development status of the dust removal market
6.2.2 Analysis of the development status of the desulfurization market
6.2.3 Analysis of the development status of the denitration market
6.3 Analysis of key cities in the air governance industry
6.3.1 Analysis of Beijing Atmospheric Governance Industry
6.3.2 Analysis of Guangzhou Air Control Industry
6.3.3 Analysis of Jinan Air Governance Industry
6.3.4 Analysis of Shenzhen's Atmospheric Governance Industry
6.3.5 Analysis of Shanghai Air Governance Industry
Chapter 7: Analysis of the Development of China's Urban Environmental Protection Equipment Industry
7.1 Market analysis of special equipment for environmental pollution prevention and control
7.1.1 Market operation of special equipment for environmental pollution prevention and control
7.1.2 Market Analysis of Major Special Equipment for Environmental Pollution Prevention and Control
7.2 Market Analysis of Instrumentation for Environmental Monitoring
7.2.1 Market Operation Status of Instruments and Meters for Environmental Monitoring
7.2.2 Market Analysis of Instrumentation Products for Environmental Monitoring
7.2.3 Development trend of special instruments for environmental monitoring
7.3 Market analysis of special pharmaceutical materials for environmental pollution treatment
7.3.1 Market operation status of special pharmaceutical materials for environmental pollution treatment
7.3.2 Market analysis of special pharmaceutical materials for environmental pollution treatment
Chapter 8: Analysis of technological developments in China's urban environmental protection industry
8.1 Analysis of the development of sewage treatment technology
8.1.1 Sewage treatment engineering design analysis
8.1.2 Development of sewage treatment technology abroad
8.1.3 Current status of sewage treatment technology in China
8.1.4 Analysis of progress in sewage treatment technology
8.2 Analysis of the development of solid waste treatment technology
8.2.1 Overview of the development of solid waste treatment technology
8.2.2 Municipal solid waste treatment technology and its development analysis
8.2.3 Development of waste-to-energy technology and equipment
8.3 Analysis of the development of air pollution prevention and control technology
8.3.1 Analysis of environmental monitoring technology
8.3.2 Analysis of dust removal technology
8.3.3 Analysis of desulfurization technology
8.3.4 Analysis of denitration technology
Chapter 9: Analysis of Key Enterprises in China's Urban Environmental Protection Industry
9.1 Case analysis of key enterprises in sewage treatment in environmental protection industry
9.1.1 Tianjin Venture Environmental Protection Group Co., Ltd
9.1.2 Huaneng Technology Co., Ltd
9.1.3 Beijing Capital Co., Ltd
9.1.4 TusSound Environmental Resources Co., Ltd
9.1.5 Jiangsu Jiangnan Water Affairs Co., Ltd
9.1.6 Beijing Bishui Source Technology Co., Ltd
9.2 Case analysis of key solid waste treatment enterprises in environmental protection industry
9.2.1 Analysis of the operation of Tianjin TEDA Environmental Protection Co., Ltd
9.2.2 Analysis of the operation of Shanghai Environment Group Co., Ltd
9.2.3 Analysis of the operation of China Everbright International Limited
9.2.4 Analysis of the operation of Hanlan Environment Co., Ltd
9.2.5 Analysis of the operation of Grammy Co., Ltd
9.2.6 Analysis of the operation of Shenzhen Energy Environmental Protection Co., Ltd
9.2.7 Analysis of the operation of Shanghai Pucheng Thermal Power Energy Co., Ltd
9.2.8 Analysis of the operation of Zhejiang Weiming Environmental Protection Co., Ltd
9.2.9 Analysis of the operation of China Environmental Protection Group Corporation
9.3 Case analysis of key enterprises in air control in environmental protection industry
9.3.1 Tongfang Environment Co., Ltd
9.3.2 Wuhan Kaidi Ecological Environment Technology Co., Ltd
9.3.3 Jiangsu Kangjie Environmental Engineering Co., Ltd
9.3.4 Chengdu Oriental Ketray Environmental Protection Catalyst Co., Ltd
9.3.5 Hunan Yongqing Environmental Protection Co., Ltd
9.3.6 China Construction Central Engineering Co., Ltd
9.3.7 Beijing Fresh Environmental Technology Co., Ltd
9.4 Case analysis of key enterprises in equipment production in environmental protection industry
9.4.1 Fujian Longjing Environmental Protection Co., Ltd
9.4.2 Colin Environmental Equipment Co., Ltd
9.4.3 Zhejiang Feida Environmental Protection Technology Co., Ltd
9.4.4 Xiamen Sunwaywire Environmental Protection Co., Ltd
9.4.5 Beijing Sanju Environmental Protection New Materials Co., Ltd
9.4.6 Analysis of the operation of Yuxing Technology Development (Shenzhen) Co., Ltd
Chapter 10: Investment and Financing and Outlook Forecast of China's Urban Environmental Protection Industry
10.1 Analysis of investment scale in urban environmental protection industry
10.1.1 Investment Analysis of Urban Environmental Protection Industry
10.1.2 Analysis of Investment Opportunities in Urban Environmental Protection Industry
10.2 Analysis of Investment Structure of Urban Environmental Protection Industry
10.2.1 Government Funding
10.2.2 Social Capital Investment
10.2.3 CDM Financial Support
10.3 Analysis of investment characteristics of urban environmental protection industry
10.3.1 Analysis of investment barriers in urban environmental protection industry
10.3.2 Analysis of profit model of urban environmental protection industry
10.3.3 Analysis of profit factors in urban environmental protection industry
10.4 Analysis of financing mechanisms for urban environmental protection industry
10.4.1 Overview of financing mechanisms for urban environmental protection industries
10.4.2 Analysis of financing channels for urban environmental protection industry
10.4.3 There are problems in the financing mechanism of the urban environmental protection industry
10.4.4 Innovative Analysis of Financing Mechanisms in Urban Environmental Protection Industry
10.4.5 Development strategy of financing mechanism for urban environmental protection industry
10.5 Analysis of PPP Model in Urban Environmental Protection Industry
10.5.1 Concept of PPP financing model
10.5.2 Examples of the application of PPP mode abroad
10.5.3 Development of PPP Model in Mainland China
10.5.4 Application of PPP model in domestic environmental protection industry
10.5.5 Problems of PPP mode application and their solutions
10.6 Analysis of the development prospect of urban environmental protection industry
10.6.1 Key areas for the development of the mainland's environmental protection industry
10.6.2 Forecast of the development prospects of urban environmental protection industry
10.6.3 Analysis of the demand prospects of key environmental protection technology industries
Table of Figures
Figure 1: Analysis of major policies and laws and regulations in the environmental protection industry from 2018 to 2023
Figure 2: Major development plans of the urban environmental protection industry
Figure 3: China's GDP growth trend from 2018 to 2023 (unit: 100 million yuan, %)
Chart 4: Growth and forecast of China's main economic indicators in 2023 (unit: %)
Figure 5: Analysis of China's urbanization rate from 2018 to 2023 (unit: %)
Figure 6: China's urbanization has created demand for environmental protection equipment industry
Figure 7: Changes in China's industrial added value and growth rate from 2017 to 2023 (unit: 100 million yuan, %)
Figure 8: Changes in sewage discharge in 2023 (unit: 100 million cubic meters per day, 100 million cubic meters, 10,000 tons)
Chart 9: Proportion of water quality categories in the top 10 water systems in 2023 (unit: %)
Figure 10: Water quality status of the Yangtze River system in 2023
Figure 11: Water quality status of the Yellow River system in 2023
Figure 12: Water quality distribution in the Pearl River Basin in 2023
Figure 13: Schematic map of water quality distribution in the Songhua River Basin in 2023
Figure 14: Water quality distribution in the Huaihe River Basin in 2023
Figure 15: Schematic map of water quality distribution in the Haihe River Basin in 2023
Figure 16: Water quality distribution in the Liao River Basin in 2023
Figure 17: Water quality of important lakes (reservoirs) in 2023
Figure 18: Comparison of trophic status of important lakes in 2023
Figure 19: Comparison of trophic status of important reservoirs in 2023
Figure 20: Changes in solid waste in 2023 (unit: 10,000 tons, units)
Chart 21: Ambient air quality compliance of 338 cities in 2022 (%)
Chart 22: Inter-year comparison of ambient air quality compliance across 338 cities in 2022 (%)
Figure 23: Proportion of days by level of ambient air quality in 338 cities in 2022 (%)
Figure 24: Analysis of the current situation of environmental risks in the mainland
Figure 25: Judgment of the future situation of environmental risks
Figure 26: Cumulative number of technology-related patent applications in urban environmental protection industry from 2018 to 2023 (unit: units)
Figure 27: Change in the number of technology-related patent disclosures in urban environmental protection industry as of 2023 (unit: units)
Figure 28: Composition of technology-related patent applicants in urban environmental protection industry as of 2023 (unit: pcs,%)
Figure 29: Distribution of patents in the technical classification of China's urban environmental protection industry as of 2023 (top 10) (unit: pcs, %)
Figure 30: Global urban environmental protection industry structure (unit: %)
Figure 31: Regional structure of global urban environmental protection industry (unit: %)
Exhibit 32: U.S. Environmental Industry Classification
Figure 33: Actions taken since Trump took to adjust environmental protection policies
Figure 34: Actions taken since Trump to eliminate or hinder clean energy policies
Figure 35: Environmental protection trends in the United States
Figure 36: Directions of the French environmental sector
Figure 37: Key Australian Government policies for environmental protection
Figure 38: Annual revenue and profit scale of China's environmental protection industry from 2018 to 2023 (unit: 100 million yuan, %)
Figure 39: Structure of enterprises in China's environmental protection industry in 2023 (by number) (unit: %)
Figure 40: Development characteristics of urban environmental protection industry
Figure 41: Distribution of environmental protection enterprises included in statistics in 2023 (unit: %)
Figure 42: Distribution of operating income of environmental protection business in various fields included in statistics in 2023 (unit: %)
Figure 43: Distribution of operating profit of environmental protection business by field included in statistics in 2023 (unit: %)
Figure 44: Distribution of operating profit of environmental protection business by field included in the statistics in 2023 (unit: %)
Chart 45: Return on equity and main operating profit margin of environmental protection industry in 2023 (unit: %)
Chart 46: Total asset turnover and accounts receivable turnover by sector in 2023 (unit: %)
Figure 47: Market composition of environmental protection industry
Figure 48: Development characteristics of the environmental service industry
Figure 49: Constraints on the development of the environmental service industry
Figure 50: Schematic diagram of the industrial chain of the water industry
Figure 51: Panorama of the wastewater treatment industry
Figure 52: Development history of wastewater treatment industry in mainland China
Figure 53: Operating scale of China's sewage treatment industry from 2018 to 2023 (unit: household, billion yuan)
Figure 54: Changes in the operating efficiency of China's wastewater treatment industry from 2018 to 2023 (unit: 100 million yuan)
Exhibit 55: Profitability analysis of China's wastewater treatment industry from 2018 to 2023 (unit: %)
Figure 56: Analysis of operational capacity of China's wastewater treatment industry from 2018 to 2023 (unit: times)
Figure 57: Analysis of the solvency of China's wastewater treatment industry from 2018 to 2023 (unit: %, times)
Figure 58: Analysis of the development capacity of China's sewage treatment industry from 2018 to 2023 (unit: %)
Figure 59: Changes in China's total water resources and per capita water resources from 2017 to 2023
Figure 60: Water quality in China in 2023 (unit: %)
Figure 61: Growth of urban sewage treatment facilities nationwide from 2017 to 2023 (unit: seat, 10,000 cubic meters per day)
Figure 62: Regional distribution of wastewater treatment plants in China as of 2023 (unit: seats, %)
Figure 63: Number of sewage treatment plants in different provinces in China by 2023
Figure 64: Sewage discharge by province and city in China from 2016 to 2023 (unit: 10,000 tons, %)
Figure 65: Regional distribution of wastewater treatment plants in China as of 2023 (unit: seats, %)
Figure 66: Number of sewage treatment plants in different provinces in China by 2023
Figure 67: Changes in total urban sewage discharge in Zhejiang Province from 2018 to 2023 (unit: 100 million tons)
Figure 68: Changes in total urban sewage treatment in Zhejiang Province from 2018 to 2023 (unit: 100 million tons)
Figure 69: Proposed sewage treatment project in Zhejiang Province
Figure 70: Key water reclaimed water projects in Zhejiang Province
Figure 71: Size and forecast of permanent population and urban permanent population of Zhejiang Province from 2023 to 2030 (unit: 10,000 people)
Figure 72: Forecast of urban sewage discharge and treatment in Zhejiang Province from 2023 to 2030 (unit: 100 million tons)
Figure 73: Investment forecast for the construction of urban sewage treatment and recycling facilities in Zhejiang Province (unit: 100 million yuan)
Figure 74: Changes in the scale of sewage discharge in Beijing from 2018 to 2023 (unit: 100 million tons)
Figure 75: Beijing sewage treatment project
Figure 76: Key water reclaimed water projects in Beijing
Figure 77: Forecast of wastewater discharge in Beijing from 2023 to 2030 (unit: 100 million tons)
Figure 78: Trends of sewage discharge scale in Guangdong Province from 2018 to 2023 (unit: 100 million tons)
Figure 79: Proposed sewage treatment project in Guangdong Province
Figure 80: Key water reclaimed water projects in Guangdong Province
Figure 81: Forecast of sewage discharge in Guangdong Province from 2023 to 2030 (unit: 100 million tons)
Figure 82: Changes in total urban sewage discharge in Shandong Province from 2018 to 2023 (unit: 100 million tons)
Figure 83: Changes in total urban sewage treatment in Shandong Province from 2018 to 2023 (unit: 100 million tons)
Figure 84: Proposed sewage treatment project in Shandong Province
Figure 85: Key projects of reclaimed water in Shandong Province
Figure 86: Size and forecast of permanent population and urban permanent population in Shandong Province from 2023 to 2030 (unit: 10,000 people)
Figure 87: Forecast of urban sewage discharge in Shandong Province from 2023 to 2030 (unit: 100 million tons)
Figure 88: Investment forecast for the construction of urban sewage treatment and recycling facilities in Shandong Province (unit: 100 million yuan)
Figure 89: Trends of sewage discharge scale in Sichuan Province from 2018 to 2023 (unit: 100 million tons)
Figure 90: Proposed sewage treatment project in Sichuan Province
Figure 91: Key water reclaimed water projects in Sichuan Province
Figure 92: Forecast of sewage discharge in Sichuan Province from 2023 to 2030 (unit: 100 million tons)
Figure 93: Product classification of solid waste treatment industry
Figure 94: Schematic diagram of the life cycle of the solid waste treatment industry
Figure 95: Schematic diagram of the industrial chain of the solid waste treatment industry
Figure 96: Porter's Five Forces Model for Solid Waste Treatment Industry
Figure 97: National domestic waste removal and transportation volume from 2018 to 2023 (unit: 100 million tons)
Figure 98: Structural distribution of harmless treatment of municipal solid waste in China from 2018 to 2023 (unit: 10,000 tons)
Figure 99: Top 10 provinces and cities in China in terms of harmless treatment of urban waste in 2023 (unit: 10,000 tons)
Figure 100: Industrial solid waste generation and growth in China from 2018 to 2023 (unit: 100 million tons, %)
Figure 101: Industrial solid waste disposal volume and growth in China from 2018 to 2023 (unit: 100 million tons, %)
Figure 102: Comprehensive utilization and growth of industrial solid waste in China from 2018 to 2023 (unit: 100 million tons, %)
Figure 103: Proportion of industrial solid waste disposal and comprehensive utilization in generated from 2018 to 2023 (unit: %)
Figure 104: Waste-to-energy generation industry chain
Figure 105: Mainland China outperformed waste incineration harmless treatment capacity from 2017 to 2023 (unit: 10,000 tons/day, %)
Figure 106: Market size and forecast of waste-to-energy industry in mainland China from 2017 to 2023 (unit: 100 million yuan)
Chart 107: Domestic Waste Treatment in Mainland China from 2018 to 2023 (Unit: %)
Figure 108: Proportion of sanitary landfill waste disposed of in the region (unit: %)
Figure 109: Regional distribution of landfills (unit: %)
Figure 110: Waste incineration treatment capacity by province (unit: 10,000 tons/day)
Figure 111: Development trends of waste incineration power generation in different cities
Figure 112: Analysis of three types of waste-to-energy participating companies
Figure 113: Distribution of waste-to-energy capacity by enterprise (unit: %)
Exhibit 114: Change in the concentration of waste-to-energy industry, 2017-2023 (unit: %)
Exhibit 115: Waste-to-energy industry market share as of 2023 (unit: %)
Figure 116: Summary and analysis of national waste-to-energy policies (1)
Figure 117: Summary and analysis of national waste-to-energy policies (2)
Figure 118: Summary and analysis of national waste-to-energy policies (3)
Figure 119: Summary and analysis of waste-to-energy policies by province and city as of early 2023 (1)
Figure 120: Summary and analysis of waste-to-energy policies by province and city as of early 2023 (2)
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