[Publisher]: CIIC Research Network.
The content part is deleted, and the details can be found in the full information published by the China Wisdom Information Investment Research Network! 】
Chapter 1: Overview of the development of China's aquaculture waste treatment industry.
1.1 Overview of the aquaculture waste treatment industry.
1.1.1 Conceptual analysis of aquaculture waste treatment.
1.1.2 Waste analysis of large-scale farms.
1) Types of waste.
2) Nutrient composition of waste.
1.1.3 Analysis of the way of breeding waste disposal.
1) Energy utilization.
2) Fertilizer utilization.
3) Industrial processing.
1.1.4 Influencing factors of aquaculture waste treatment and utilization.
1) Breeding scale.
2) Breeding methods.
3) Pollution prevention and control technology.
4) Economic costs.
5) Policy design.
1.2. Analysis of the development environment of the aquaculture waste treatment industry.
1.2.1. Analysis of the economic environment of the industry.
1) Current status of macroeconomic development.
2) China's aquaculture industry is developing rapidly.
1.2.2 Analysis of the industry policy environment.
1) Industry-related standards.
2) Industry-related policies.
3) Industry development planning.
1.2.3. Analysis of the social environment of the industry.
1) Analysis of urban residents' income.
2) Analysis of urban residents' consumption.
1.2.4. Analysis of the technical environment of the industry.
1) The number of patent applications in the industry.
2) The number of patents published in the industry.
3) Analysis of key technology enterprises.
4) Popular technical analysis in the industry.
1.3 Analysis of development opportunities and threats in the aquaculture waste treatment industry.
Chapter 2: Analysis of the development status of China's aquaculture waste treatment industry.
2.1 Analysis of the necessity of aquaculture waste treatment in China.
2.1.1 Livestock and poultry manure has become the main source of agricultural non-point source pollution.
1) The total amount of pollutant emissions from livestock and poultry breeding.
2) The total amount of pollutants in livestock and poultry breeding.
2.1.2. The comprehensive utilization rate of livestock and poultry breeding is not high.
2.1.3. There is a huge space for the utilization of livestock and poultry breeding waste.
2.2 Analysis of the development status of China's aquaculture waste treatment industry.
2.2.1 Summary of the status description of the aquaculture waste treatment industry.
2.2.2 Analysis of the economic characteristics of the aquaculture waste treatment industry.
2.2.3 Analysis of the market size of aquaculture waste disposal.
2.2.4 Analysis of the management mode of aquaculture waste treatment industry.
1) China's livestock and poultry breeding business model.
1) Large-scale livestock and poultry farms.
2) Livestock and poultry farming community.
3) Decentralized livestock and poultry farmers.
2) Management mode of aquaculture waste disposal industry.
1) Characteristic ecological breeding treatment mode.
2) Standardized healthy breeding treatment mode.
3) Comprehensive utilization of circular aquaculture treatment mode.
4) Four mononutrient combination nutrient balance management models.
2.2.5. Analysis of aquaculture waste treatment technology and method.
1) Harmless treatment method of breeding garbage.
1) Rain and sewage diversion.
2) Solid-liquid separation.
3) Anaerobic treatment.
4) Composting method.
2) Harmless treatment technology of breeding waste.
1) Aerobic fermentation treatment replaces anaerobic fermentation treatment.
2) Biological and natural ecological treatment technology.
3) Combination of traditional and modern technology.
3) Analysis of waste treatment technology at different breeding stages.
1) Prenatal care.
2) In-production governance.
3) Postpartum care.
2.2.6 Analysis of typical cases of aquaculture waste treatment.
1) Henan Huaying Group Duck Farm Sewage Treatment Project.
1) Project size.
2) Influent indicators.
3) Process flow.
2) Eagle Group 300 tons of aquaculture boiling water treatment project.
1) Project size.
2) Influent indicators.
3) Process flow.
3) Shaoguan Animal Husbandry Industry *** pig farm sewage treatment transformation.
1) Project size.
2) Influent indicators.
3) Process flow.
2.2.7. Analysis of the development pain points of the aquaculture waste treatment industry.
1) There is a serious disconnect between the breeding industry and the planting industry.
2) The layout of livestock and poultry breeding is unreasonable.
3) Insufficient investment and backward technical equipment.
4) Lack of competitiveness in energy products.
2.3 Analysis of the competitive landscape of the aquaculture waste treatment industry.
2.3.1 Analysis of existing competitors in the industry.
2.3.2 Potential entrant threats in the industry.
2.3.3 Industry Substitute Threat Analysis.
2.3.4. Analysis of the bargaining power of the industry.
2.3.5 Analysis of the bargaining power of industry buyers.
2.3.6 Summary of industry competition.
2.4 Analysis of the industry chain of aquaculture waste treatment.
2.4.1 Introduction to the aquaculture waste treatment industry chain.
2.4.2 Aquaculture waste treatment equipment market analysis.
2.4.3. Analysis of the construction of aquaculture waste treatment facilities.
Chapter 3: Analysis of the development of aquaculture waste treatment industry in key provinces and cities in China.
3.1 Analysis of the development of aquaculture waste treatment market in Hebei Province.
3.1.1 Analysis of the development status of aquaculture industry in Hebei Province.
3.1.2 Analysis of aquaculture waste disposal policy in Hebei Province.
1) Relevant policies.
2) Emission standards.
3.1.3 Analysis of the development status of aquaculture waste treatment in Hebei Province.
1) Aquaculture waste discharge.
2) The development status of aquaculture waste treatment.
3.1.4 Analysis on the development prospect of aquaculture waste treatment in Hebei Province.
3.2 Analysis of the development of aquaculture waste treatment market in Henan Province.
3.2.1 Analysis of the development status of aquaculture industry in Henan Province.
3.2.2 Analysis of aquaculture waste disposal policy in Henan Province.
1) Relevant policies.
2) Emission standards.
3.2.3 Analysis of the development status of aquaculture waste treatment in Henan Province.
1) Aquaculture waste discharge.
2) The development status of aquaculture waste treatment.
3.2.4 Analysis of the development prospect of aquaculture waste treatment in Henan Province.
3.3 Analysis of the development of aquaculture waste treatment market in Shandong Province.
3.3.1 Analysis of the development status of aquaculture industry in Shandong Province.
3.3.2 Analysis of aquaculture waste disposal policy in Shandong Province.
1) Relevant policies.
2) Emission standards.
3.3.3 Analysis of the development status of aquaculture waste treatment in Shandong Province.
1) Aquaculture waste discharge.
2) The development status of aquaculture waste treatment.
3.3.4 Analysis of the development prospect of aquaculture waste treatment in Shandong Province.
3.4 Analysis of the development of aquaculture waste treatment market in Hunan Province.
3.4.1 Analysis of the development status of aquaculture industry in Hunan Province.
3.4.2 Analysis of aquaculture waste disposal policy in Hunan Province.
1) Relevant policies.
2) Emission standards.
3.4.3 Analysis of the development status of aquaculture waste treatment in Hunan Province.
1) Aquaculture waste discharge.
2) The development status of aquaculture waste treatment.
3.4.4 Analysis of the development prospect of aquaculture waste treatment in Hunan Province.
3.5 Analysis of the development of aquaculture waste treatment market in Hubei Province.
3.5.1 Analysis of the development status of aquaculture industry in southern Hubei Province.
3.5.2 Analysis of aquaculture waste disposal policy in Hubei Province.
1) Relevant policies.
2) Emission standards.
3.5.3 Analysis of the development status of aquaculture waste treatment in Hubei Province.
1) Aquaculture waste discharge.
2) The development status of aquaculture waste treatment.
3.5.4 Analysis of the development prospect of aquaculture waste treatment in Hubei Province.
3.6 Analysis of the development of aquaculture waste treatment market in Jiangxi Province.
3.6.1 Analysis of the development status of aquaculture industry in southwest Jiangxi Province.
3.6.2 Analysis of aquaculture waste disposal policy in Jiangxi Province.
1) Relevant policies.
2) Emission standards.
3.6.3 Analysis of the development status of aquaculture waste treatment in Jiangxi Province.
1) Aquaculture waste discharge.
2) The development status of aquaculture waste treatment.
3.6.4 Analysis of the development prospect of aquaculture waste treatment in Jiangxi Province.
3.7 Analysis of the development of aquaculture waste treatment market in Sichuan Province.
3.7.1 Analysis of the development status of aquaculture industry in southern Sichuan Province.
3.7.2 Analysis of aquaculture waste treatment policy in Sichuan Province.
1) Relevant policies.
2) Emission standards.
3.7.3 Analysis of the development status of aquaculture waste treatment in Sichuan Province.
1) Aquaculture waste discharge.
2) The development status of aquaculture waste treatment.
3.7.4 Analysis of the development prospect of aquaculture waste treatment in Sichuan Province.
3.8 Analysis of the development of aquaculture waste treatment market in Yunnan Province.
3.8.1 Analysis of the development status of aquaculture industry in southern Yunnan Province.
3.8.2 Analysis of aquaculture waste disposal policy in Yunnan Province.
1) Relevant policies.
2) Emission standards.
3.8.3 Analysis of the development status of aquaculture waste treatment in Yunnan Province.
1) Aquaculture waste discharge.
2) The development status of aquaculture waste treatment.
3.8.4 Analysis of the development prospect of aquaculture waste treatment in Yunnan Province.
3.9 Analysis of the development of aquaculture waste treatment market in Guangdong Province.
3.9.1 Analysis of the development status of aquaculture industry in Guangdong Province.
3.9.2 Analysis of aquaculture waste disposal policy in Guangdong Province.
1) Relevant policies.
2) Emission standards.
3.9.3 Analysis of the development status of aquaculture waste treatment in Guangdong Province.
1) Aquaculture waste discharge.
2) The development status of aquaculture waste treatment.
3.9.4 Analysis of the development prospect of aquaculture waste treatment in Guangdong Province.
3.10 Analysis of the development of aquaculture waste treatment market in Guangxi Province.
3.10.1 Analysis of the development status of aquaculture industry in Guangxi Province.
3.10.2 Analysis of aquaculture waste disposal policy in Guangxi Province.
1) Relevant policies.
2) Emission standards.
3.10.3 Analysis of the development status of aquaculture waste treatment in Guangxi Province.
1) Aquaculture waste discharge.
2) The development status of aquaculture waste treatment.
3.10.4 Analysis of the development prospect of aquaculture waste treatment in Guangxi Province.
Chapter 4: Analysis of Key Enterprises in China's Aquaculture Waste Treatment Industry.
4.1 Analysis of the development status of China's aquaculture waste treatment enterprises.
4.2 Jiangsu Kangtai Environmental Protection Co., Ltd. ***
4.2.1. Brief analysis of enterprise development.
4.2.2. Analysis of business operations.
4.2.3. Analysis of enterprise qualification and ability.
4.2.4. Analysis of enterprise aquaculture waste treatment business.
4.2.5 Enterprise sales channel and network analysis.
4.2.6. Analysis of the advantages and disadvantages of enterprise development.
4.2.7. Analysis of the latest development trends of the enterprise.
4.3 Nanjing Ruijiete membrane separation technology***
4.3.1. Brief analysis of enterprise development.
4.3.2. Analysis of business operations.
4.3.3. Analysis of enterprise qualification and ability.
4.3.4. Analysis of enterprise aquaculture waste treatment business.
4.3.5 Enterprise sales channel and network analysis.
4.3.6. Analysis of the advantages and disadvantages of enterprise development.
4.3.7. Analysis of the latest development trends of the enterprise.
4.4 Guangzhou AVIC Environmental Protection Technology***
4.4.1. Brief analysis of enterprise development.
4.4.2. Analysis of business operations.
4.4.3. Analysis of enterprise qualification and ability.
4.4.4. Analysis of enterprise aquaculture waste treatment business.
4.4.5 Enterprise sales channel and network analysis.
4.4.6. Analysis of the advantages and disadvantages of enterprise development.
4.4.7. Analysis of the latest development trends of the enterprise.
4.5 Guangzhou Green Day Environmental Protection Technology***
4.5.1. Brief analysis of enterprise development.
4.5.2. Analysis of business operations.
4.5.3. Analysis of enterprise qualification and ability.
4.5.4. Analysis of enterprise aquaculture waste treatment business.
4.5.5 Enterprise sales channel and network analysis.
4.5.6. Analysis of the advantages and disadvantages of enterprise development.
4.5.7. Analysis of the latest development trends of the enterprise.
4.6 Gaia Zhongnan Environmental Protection Technology***
4.6.1. Brief analysis of enterprise development.
4.6.2. Analysis of business operations.
4.6.3. Analysis of enterprise qualification and ability.
4.6.4. Analysis of enterprise aquaculture waste treatment business.
4.6.5 Enterprise sales channel and network analysis.
4.6.6. Analysis of the advantages and disadvantages of enterprise development.
4.6.7. Analysis of the latest development trends of the enterprise.
4.7 Hangzhou Dinglong Environmental Protection Technology***
4.7.1. Brief analysis of enterprise development.
4.7.2. Analysis of business operations.
4.7.3. Analysis of enterprise qualification and ability.
4.7.4. Analysis of enterprise aquaculture waste treatment business.
4.7.5 Enterprise sales channel and network analysis.
4.7.6. Analysis of the advantages and disadvantages of enterprise development.
4.7.7. Analysis of the latest development trends of the enterprise.
4.8 Zhejiang Yiqing Environmental Protection Project***
4.8.1. Brief analysis of enterprise development.
4.8.2. Analysis of business operations.
4.8.3. Analysis of enterprise qualification and ability.
4.8.4. Analysis of enterprise aquaculture waste treatment business.
4.8.5 Enterprise sales channel and network analysis.
4.8.6. Analysis of the advantages and disadvantages of enterprise development.
4.8.7. Analysis of the latest development trends of the enterprise.
4.9 Hunan Haishang Environmental Biotechnology Co., Ltd. ***
4.9.1. Brief analysis of enterprise development.
4.9.2. Analysis of business operations.
4.9.3. Analysis of enterprise qualification and ability.
4.9.4. Analysis of enterprise aquaculture waste treatment business.
4.9.5 Enterprise sales channel and network analysis.
4.9.6. Analysis of the advantages and disadvantages of enterprise development.
4.9.7. Analysis of the latest development trends of the enterprise.
4.10 Henan Huanyuan Environmental Protection Technology***
4.10.1. Brief analysis of enterprise development.
4.10.2. Analysis of business operations.
4.10.3. Analysis of enterprise qualification and ability.
4.10.4. Analysis of enterprise aquaculture waste treatment business.
4.10.5 Enterprise sales channel and network analysis.
4.10.6. Analysis of the advantages and disadvantages of enterprise development.
4.10.7. Analysis of the latest development trends of the enterprise.
4.11 Jiangsu Swift Biotechnology***
4.11.1. Brief analysis of enterprise development.
4.11.2. Analysis of business operations.
4.11.3. Analysis of enterprise qualification and ability.
4.11.4. Analysis of enterprise aquaculture waste treatment business.
4.11.5 Enterprise sales channel and network analysis.
4.11.6. Analysis of the advantages and disadvantages of enterprise development.
4.11.7. Analysis of the latest development trends of the enterprise.
Chapter 5: Development Prospects** and Investment Recommendations for Aquaculture Waste Treatment Industry.
5.1. Development prospects of aquaculture waste treatment industry**.
5.1.1 Industry Life Cycle Analysis.
5.1.2 Industry development prospects**.
5.1.3 Industry Development Trends**.
5.2 Analysis of investment potential in aquaculture waste treatment industry.
5.2.1 Analysis of the investment boom in the industry.
5.2.2 Analysis of industry barriers to entry.
1) Qualification barriers.
2) Technical barriers.
3) Talent barriers.
4) Financial barriers.
5.2.3. Early warning of industry investment risks.
1) Policy risk.
2) Market competition risk.
3) Operational risks.
5.2.4. Analysis of industry investment entities.
1) Composition of industry investment entities.
2) The way in which each entity invests.
3) Analysis of the investment advantages of each entity.
5.3 Investment strategies and suggestions for aquaculture waste treatment industry.
5.3.1 Industry investment opportunity analysis.
5.3.2 Industry investment strategies and suggestions.
Table of Contents of Charts. Figure 1: A brief analysis of the composition of farm waste.
Figure 2: Chemical composition of aquaculture waste disposal.
Figure 3: Composition of aquaculture waste (unit: %)
Figure 4: China's GDP from 2017 to 2023 (unit: 100 million yuan, %)
Figure 5: Summary of China's aquaculture waste treatment standards as of 2023.
Figure 6: Policy analysis of China's aquaculture waste treatment industry as of 2023.
Figure 7: Income level of urban and rural residents in China from 2017 to 2023 (unit: yuan, %)
Figure 8: China's final consumption expenditure as a percentage of GDP from 2017 to 2023 (unit: %)
Figure 9: China's total retail sales of consumer goods and year-on-year growth rate from 2017 to 2023 (unit: trillion yuan, %)
Figure 10: Changes in the number of patent applications related to aquaculture waste treatment in China from 2017 to 2023 (unit: items).
Figure 11: Changes in the number of patents published related to aquaculture waste treatment in China from 2017 to 2023 (unit: items).
Figure 12: Comprehensive comparison of patent applicants (top 10) related to aquaculture waste treatment as of 2023 (unit: items).
Figure 13: Distribution of patents related to aquaculture waste treatment as of 2023 (top 10) (unit: items).
Figure 14: Analysis of development opportunities and threats in China's aquaculture waste treatment industry.
Figure 15: Emissions of pollutants from livestock and poultry farming from 2017 to 2023 (unit: 100 million tons, %)
Figure 16: Emissions of specific pollutants from livestock and poultry breeding from 2017 to 2023 (unit: 10,000 tons).
Figure 17: Comprehensive utilization rate of pollutants from livestock and poultry breeding from 2017 to 2023 (unit: %)
Figure 18: Livestock and poultry breeding pollutant treatment market capacity from 2017 to 2023 (unit: 100 million yuan).
Exhibit 19: Summary of the status description of China's aquaculture waste treatment industry in 2023.
Figure 20: Analysis of the economic characteristics of China's aquaculture waste treatment industry.
Figure 21: 2017-2023 aquaculture waste treatment market investment scale (unit: 100 million tons, %, 10,000 tons, 100 million yuan).
Exhibit 22: Analysis of existing competitors in the aquaculture waste treatment industry.
Exhibit 23: Analysis of potential entrant threats to the aquaculture waste treatment industry.
Exhibit 24: Analysis of upstream bargaining power in the aquaculture waste treatment industry.
Exhibit 25: Analysis of the bargaining power of downstream purchasers in the aquaculture waste treatment industry.
Exhibit 26: Summary of competition in the aquaculture waste treatment industry.
Figure 27: Introduction to the livestock and poultry breeding waste treatment industry chain.
Figure 28: Market size of livestock and poultry breeding waste treatment equipment from 2017 to 2023 (unit: 100 million yuan).
Figure 29: Construction scale of livestock and poultry breeding waste treatment facilities from 2017 to 2023 (unit: 100 million yuan, household).
Figure 30: Summary of the construction of livestock and poultry breeding waste treatment facilities in 2023.
Figure 31: Market size of aquaculture industry in Hebei Province from 2017 to 2023 (unit: 100 million yuan).
Figure 32: Major livestock and poultry breeding volume in Hebei Province from 2017 to 2023 (unit: 10,000 heads).
Figure 33: Interpretation of aquaculture waste treatment policies in Hebei Province as of 2023.
Figure 34: Summary of aquaculture waste discharge standards in Hebei Province as of 2023.
Figure 35: Aquaculture waste emissions in Hebei Province from 2017 to 2023.
Figure 36: 2017-2023 aquaculture waste treatment development scale in Hebei Province (unit: 100 million yuan).
Figure 37: Estimation of the capacity of the aquaculture waste treatment market in Hebei Province from 2024 to 2030 (unit: 100 million yuan).
Figure 38: Market size of aquaculture industry in Henan Province from 2017 to 2023 (unit: 100 million yuan).
Figure 39: Major livestock and poultry breeding volume in Henan Province from 2017 to 2023 (unit: 10,000 heads).
Figure 40: Interpretation of aquaculture waste disposal policies in Henan Province as of 2023.
Figure 41: Summary of aquaculture waste discharge standards in Henan Province as of 2023.
Figure 42: Aquaculture waste emissions in Henan Province from 2017 to 2023.
Figure 43: 2017-2023 aquaculture waste treatment development scale in Henan Province (unit: 100 million yuan).
Figure 44: Estimation of the capacity of the aquaculture waste treatment market in Henan Province from 2024 to 2030 (unit: 100 million yuan).
Figure 45: Market size of aquaculture industry in Shandong Province from 2017 to 2023 (unit: 100 million yuan).
Figure 46: Major livestock and poultry breeding volume in Shandong Province from 2017 to 2023 (unit: 10,000 heads).
Figure 47: Interpretation of aquaculture waste treatment policies in Shandong Province as of 2023.
Figure 48: Summary of aquaculture waste discharge standards in Shandong Province as of 2023.
Figure 49: Aquaculture waste emissions in Shandong Province from 2017 to 2023.
Figure 50: 2017-2023 development scale of aquaculture waste treatment in Shandong Province (unit: 100 million yuan).
Figure 51: Estimation of the capacity of the aquaculture waste treatment market in Shandong Province from 2024 to 2030 (unit: 100 million yuan).
Figure 52: Market size of aquaculture industry in Hunan Province from 2017 to 2023 (unit: 100 million yuan).
Figure 53: Major livestock and poultry breeding volume in Hunan Province from 2017 to 2023 (unit: 10,000 heads).
Figure 54: Interpretation of aquaculture waste treatment policies in Hunan Province as of 2023.
Figure 55: Summary of aquaculture waste discharge standards in Hunan Province as of 2023.
Figure 56: Aquaculture waste emissions in Hunan Province from 2017 to 2023.
Figure 57: 2017-2023 Hunan Province aquaculture waste treatment development scale (unit: 100 million yuan).
Figure 58: Estimation of the capacity of the aquaculture waste treatment market in Hunan Province from 2024 to 2030 (unit: 100 million yuan).
Figure 59: Market size of aquaculture industry in Hubei Province from 2017 to 2023 (unit: 100 million yuan).
Figure 60: Major livestock and poultry breeding volume in Hubei Province from 2017 to 2023 (unit: 10,000 heads).
Figure 61: Interpretation of aquaculture waste treatment policies in Hubei Province as of 2023.
Figure 62: Summary of aquaculture waste discharge standards in Hubei Province as of 2023.
Figure 63: Aquaculture waste emissions in Hubei Province from 2017 to 2023.
Figure 64: 2017-2023 Hubei Province aquaculture waste treatment development scale (unit: 100 million yuan).
Figure 65: Estimation of the capacity of the aquaculture waste treatment market in Hubei Province from 2024 to 2030 (unit: 100 million yuan).
Figure 66: Market size of aquaculture industry in Jiangxi Province from 2017 to 2023 (unit: 100 million yuan).
Figure 67: Main livestock and poultry breeding volume in Jiangxi Province from 2017 to 2023 (unit: 10,000 heads).
Figure 68: Interpretation of aquaculture waste disposal policies in Jiangxi Province as of 2023.
Figure 69: Summary of aquaculture waste discharge standards in Jiangxi Province as of 2023.
Figure 70: Aquaculture waste emissions in Jiangxi Province from 2017 to 2023.
Figure 71: 2017-2023 development scale of aquaculture waste treatment in Jiangxi Province (unit: 100 million yuan).
Figure 72: Estimation of the market capacity of aquaculture waste treatment in Jiangxi Province from 2024 to 2030 (unit: 100 million yuan).
Figure 73: Market size of aquaculture industry in Sichuan Province from 2017 to 2023 (unit: 100 million yuan).
Figure 74: Major livestock and poultry breeding volume in Sichuan Province from 2017 to 2023 (unit: 10,000 heads).
Figure 75: Interpretation of aquaculture waste disposal policies in Sichuan Province as of 2023.
Figure 76: Summary of aquaculture waste discharge standards in Sichuan Province as of 2023.
Figure 77: Aquaculture waste emissions in Sichuan Province from 2017 to 2023.
Figure 78: 2017-2023 Sichuan Province aquaculture waste treatment development scale (unit: 100 million yuan).
Figure 79: Estimation of the capacity of the aquaculture waste treatment market in Sichuan Province from 2024 to 2030 (unit: 100 million yuan).
Figure 80: Market size of aquaculture industry in Yunnan Province from 2017 to 2023 (unit: 100 million yuan).
Figure 81: Major livestock and poultry breeding volume in Yunnan Province from 2017 to 2023 (unit: 10,000 heads).
Figure 82: Interpretation of aquaculture waste treatment policies in Yunnan Province as of 2023.
Figure 83: Summary of aquaculture waste discharge standards in Yunnan Province as of 2023.
Figure 84: Aquaculture waste emissions in Yunnan Province from 2017 to 2023.
Figure 85: 2017-2023 development scale of aquaculture waste treatment in Yunnan Province (unit: 100 million yuan).
Figure 86: Estimation of the capacity of the aquaculture waste treatment market in Yunnan Province from 2024 to 2030 (unit: 100 million yuan).
Figure 87: Market size of aquaculture industry in Guangdong Province from 2017 to 2023 (unit: 100 million yuan).
Figure 88: Major livestock and poultry breeding volume in Guangdong Province from 2017 to 2023 (unit: 10,000 heads).
Figure 89: Interpretation of aquaculture waste treatment policies in Guangdong Province as of 2023.
Figure 90: Summary of aquaculture waste discharge standards in Guangdong Province as of 2023.
Figure 91: Aquaculture waste emissions in Guangdong Province from 2017 to 2023.
Figure 92: 2017-2023 Guangdong Province aquaculture waste treatment development scale (unit: 100 million yuan).
Figure 93: Estimation of the capacity of the aquaculture waste treatment market in Guangdong Province from 2024 to 2030 (unit: 100 million yuan).
Figure 94: Market size of aquaculture industry in Guangxi Province from 2017 to 2023 (unit: 100 million yuan).
Figure 95: Major livestock and poultry breeding volume in Guangxi Province from 2017 to 2023 (unit: 10,000 heads).
Figure 96: Interpretation of aquaculture waste treatment policies in Guangxi Province as of 2023.
Figure 97: Summary of aquaculture waste discharge standards in Guangxi Province as of 2023.
Figure 98: Aquaculture waste emissions in Guangxi Province from 2017 to 2023.
Figure 99: 2017-2023 Guangxi Province aquaculture waste treatment development scale (unit: 100 million yuan).
Figure 100: Estimation of the capacity of the aquaculture waste treatment market in Guangxi Province from 2024 to 2030 (unit: 100 million yuan).
Chart 101: Jiangsu Kangtai Environmental Protection Co., Ltd. *** basic information table.
Chart 102: Analysis of the main economic indicators of Jiangsu Kangtai Environmental Protection Co., Ltd. from 2017 to 2023 (unit: 10,000 yuan).
Chart 103: Analysis of the advantages and disadvantages of Jiangsu Kangtai Environmental Protection Co., Ltd.
Exhibit 104: Basic information table of Nanjing Ruijiete membrane separation technology.
Figure 105: Analysis of the main economic indicators of Nanjing Ruijiete membrane separation technology from 2017 to 2023 (unit: 10,000 yuan).
Figure 106: Analysis of the advantages and disadvantages of Nanjing Ruijiete membrane separation technology.
Exhibit 107: Guangzhou AVIC Environmental Protection Technology *** Basic Information Table.
Chart 108: Analysis of the main economic indicators of Guangzhou AVIC Environmental Protection Technology from 2017 to 2023 (unit: 10,000 yuan).
Exhibit 109: Analysis of the advantages and disadvantages of Guangzhou AVIC Environmental Protection Technology.
Exhibit 110: Guangzhou Green Day Environmental Protection Technology *** Basic Information Table.
Figure 111: Analysis of the main economic indicators of Guangzhou Green Day Environmental Protection Technology from 2017 to 2023 (unit: 10,000 yuan).
Figure 112: Analysis of the advantages and disadvantages of Guangzhou Green Day Environmental Protection Technology.
Exhibit 113: Basic information table of Gaia Zhongnan Environmental Protection Technology***.
Figure 114: Analysis of the main economic indicators of Gaia Central South Environmental Protection Technology from 2017 to 2023 (unit: 10,000 yuan).
Exhibit 115: Analysis of the advantages and disadvantages of Gaia Zhongnan Environmental Protection Technology.
Chart 116: Hangzhou Dinglong Environmental Protection Technology *** Basic Information Table.
Figure 117: Analysis of the main economic indicators of Hangzhou Dinglong Environmental Protection Technology from 2017 to 2023 (unit: 10,000 yuan).
Figure 118: Analysis of the advantages and disadvantages of Hangzhou Dinglong Environmental Protection Technology.
Chart 119: Zhejiang Yiqing Environmental Protection Project *** Basic Information Table.
Figure 120: Analysis of the main economic indicators of Zhejiang Yiqing Environmental Protection Project from 2017 to 2023 (unit: 10,000 yuan).
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