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E-raamat: Optimization of Solid Waste Conversion Process and Risk Control of Groundwater Pollution

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Optimization of Solid Waste Conversion Process and Risk Control of Groundwater PollutionSuurem pilt
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This book focuses on the treatment anddisposal technology used for solid waste in China, puts forward an optimalmanagement scheme that takes into account the complete lifecycle, andintroduces a new technical model that reflects the synergies of resourceutilization and secondary pollution control. In addition, it provides a set ofmethods for professional on-site investigation, risk assessment, classificationmanagement and control to minimize the risk of groundwater contamination bysolid waste at landfill. Given the extent and depth of knowledge and experiencegathered in the book, it offers an important reference guide for governmentmanagers, environmental researchers, and all those involved in and concernedabout solid waste disposal.

Introduction.- Cycle and transformation of solid waste and optimization management of multi-objective control.- Separated treatment and resuscitation of solid waste and its control of secondary pollution.- Treatment and disposal technology for hazardous waste.- Management situation of groundwater pollution of solid waste landfill.- Investigation and risk assessment of groundwater pollution of solid waste landfill.- Risk classification management of groundwater pollution of solid waste landfill.
1 Introduction
1(2)
2 Solid Waste Conversion and Dynamic Multi-objective Optimization
3(30)
2.1 Overview
3(1)
2.2 Law of Solid Waste Conversion and the Environmental Effects
4(16)
2.2.1 Humification of Organic Waste
4(6)
2.2.2 Anaerobic Digestion of Organic Waste
10(5)
2.2.3 Solid Waste Landfill
15(5)
2.3 Technical Methods for Dynamic Multi-objective Optimization of Solid Waste Management
20(13)
2.3.1 Construction of the Model for Dynamic Multi-objective Optimization Under Uncertainty
21(2)
2.3.2 Model for Dynamic Multi-objective Optimization Under Uncertainty
23(8)
References
31(2)
3 Classified Resourcization of Solid Waste and Process-Wide Control of Secondary Pollution
33(20)
3.1 Overview
33(1)
3.2 Technologies for Classified Solid Waste Collection and Transportation, Biological Pretreatment, and Mechanical Sorting
34(4)
3.2.1 Precompression
34(1)
3.2.2 Biological Pretreatment and Mechanical Sorting
35(3)
3.3 Technologies for Classified Utilization of Solid Waste
38(4)
3.3.1 Biofortification Composting
38(1)
3.3.2 Efficient Anaerobic Digestion
39(2)
3.3.3 Pyrolysis and Gasification
41(1)
3.4 Technologies for the Control of Secondary Pollution
42(4)
3.4.1 In Situ Reduction of Landfill Leachate
42(2)
3.4.2 Malodorous Gas Generation and Treatment
44(2)
3.4.3 Biogas Residue Production and Resourcization
46(1)
3.5 Technologies for Integrated Solid Waste Treatment and Management System Optimization
46(7)
References
50(3)
4 Solid Waste Disposal and Synergetic Pollution Control
53(22)
4.1 Bioreactor Landfill and Synergetic Pollution Control
53(9)
4.1.1 Organic Matter Reduction Dynamics and Stabilization Technologies
54(5)
4.1.2 Nitrogen Conversion Process and In Situ Removal Optimization Mechanism
59(1)
4.1.3 Interaction of Pollutants in the Leachate and Discontinuous Permeable Reactive Barrier (PRB)
59(2)
4.1.4 Engineering Applications for Rapid Stabilization of Bioreactor Landfill and Collaborative Control of Secondary Pollution
61(1)
4.2 Hazardous Waste Treatment and Synergetic Cement Kiln Treatment
62(13)
4.2.1 Treatment and Disposal of Typical Hazardous Waste
62(10)
4.2.2 Synergetic Hazardous Waste Treatment in Cement Kiln
72(1)
References
73(2)
5 Groundwater Pollution and Its Risk in Solid Waste Disposal Site
75(30)
5.1 Groundwater Pollution in Solid Waste Disposal Site
75(11)
5.1.1 Household Waste Landfill Site
75(4)
5.1.2 Hazardous Waste Landfill Site
79(7)
5.2 Survey of the Groundwater Pollution in Solid Waste Disposal Site
86(13)
5.2.1 Survey Content and Procedures
86(3)
5.2.2 Layout of Groundwater Monitoring Wells and Sampling
89(10)
5.3 Optimization and Application of 3MRA Model
99(6)
5.3.1 Introduction of the Model System
99(1)
5.3.2 Risk Assessment of Groundwater in China's Landfill Areas Based on the 3MRA Model
99(5)
References
104(1)
6 Ranking Management Technology System for Groundwater Pollution Risk of Landfill
105(18)
6.1 Index System for Groundwater Pollution Risk Ranking of Landfill
105(5)
6.1.1 Establishment Principles for Index System
105(1)
6.1.2 Methods and Procedures for Construction of Index System
106(1)
6.1.3 Construction of Index System
107(1)
6.1.4 Index Weight Assignment
107(3)
6.2 Technical Methods for Groundwater Pollution Risk Ranking of Landfill
110(7)
6.2.1 Risk Ranking Methods
110(1)
6.2.2 Case Analysis
111(6)
6.3 Ranking Management of Groundwater Contamination in Landfill
117(6)
6.3.1 Connotation of Risk Ranking Management
117(1)
6.3.2 Procedures and Methods of Ranking Management
118(4)
References
122(1)
Index 123
Professor Xi Beidou is 2013 The National Outstanding Youth in China, engaged in the field of environmental engineering more than 20 years. Now, he is the chief expert of Groundwater and Environmental Systems Engineering Innovation Base in Chinese Research Academy of Environmental Sciences (CRAES). CRAES is attached to the Ministry of Environmental Protection of China. The authors were familiar in the environmental policy and participated in writing strategic research and national development plan frequently. Aimed at solid waste resources and its effect on groundwater pollution, we take charge of 20 related projects. Based on the work we have done, over 200 papers have been published, 25 environmental patents were registered, and different kinds of scientific prizes were awarded.
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