书籍详情
污染场地蒸气入侵的风险评估(英文版)
作者:尧一骏,陈樯
出版社:科学出版社
出版时间:2023-03-01
ISBN:9787030740168
定价:¥199.00
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内容简介
这本书研究在土壤蒸气入侵(挥发性污染物室内吸入)过程中,地下挥发性污染物迁移的规律。土壤蒸气侵入是建筑物居住者接触地下化学物质的主要途径,其风险评估决定了土地再开发中土壤/地下水中挥发性污染物的标准。本书介绍了蒸气侵入**的理论和实践进展,包括蒸气侵入的分析和数值模拟,美国环境保护署的蒸气入侵和石油蒸气入侵数据库的统计结果,石油蒸气入侵的挑战,以及在已开发污染场地和土地再开发中进行蒸气侵入风险评估的现场实践。此外,还总结了目前在蒸汽入侵风险评估中各种应用方法的优势和局限性,为今后更好地理解土壤蒸气入侵风险特征的研究奠定了基础。
作者简介
暂缺《污染场地蒸气入侵的风险评估(英文版)》作者简介
目录
Contents
“土壤环境与污染修复丛书”序
Chapter 1 Screening Models of Vapor Intrusion 1
1.1 Introduction 1
1.2 The general equation governing soil gas transport 4
1.2.1 Soil gas transport involving no biodegradation 6
1.2.2 The role of biodegradation in VI 10
1.2.3 Soil gas transport involving biodegradation 12
1.3 Contaminant soil gas entry into buildings 21
1.3.1 The equation governing escape of contaminant from the soil 21
1.3.2 Indoor air concentration calculation 25
1.4 The limits of VI screening tools 28
References 32
Chapter 2 Numerical Models of Vapor Intrusion 41
2.1 The soil gas transport involving no biodegradation 41
2.2 The soil gas transport involving biodegradation 45
2.3 Soil gas entry into the building 48
2.4 Calculation of indoor air concentration 50
References 52
Chapter 3 US EPA’s Vapor Intrusion Database and Generic Attenuation Factor 57
3.1 Introduction of US EPA’s vapor intrusion database 57
3.2 Examinations of the database based on modeling 58
3.3 Examinations of the database based on environmental factors 61
3.4 The generic attenuation factors and influences of background sources 62
3.5 The importance of appropriate source characterization 66
References 71
Chapter 4 US EPA’s PVI Database and Vertical Screening Distances 74
4.1 US EPA’s petroleum vapor intrusion database 74
4.2 Vertical screening distances 75
4.3 The capillary effect in cases of dissolve sources 75
4.3.1 Model validation 76
4.3.2 Examinations for cases with source in the dissolved phase 77
4.3.3 Numerical simulations for different soil textures 80
4.4 The role of soil texture in NAPL source cases 86
4.4.1 Numerical simulations 86
4.4.2 Analytical analysis 89
4.4.3 Refined vertical separation distances based on soil types 91
References 94
Chapter 5 Preferential Pathways and the Building Pressure Cycling Method 96
5.1 Introduction of preferential pathway and building pressure cycling 96
5.2 Numerical simulations of VI involving preferential pathway and BPC 97
5.2.1 Model validation 98
5.2.2 The influences of soil permeability and BPC on indoor quality 100
5.3 The analytical solutions for the BPC performance in the short term 103
5.4 Numerical simulations for the BPC performance in the short term 108
5.4.1 Model validation 109
5.4.2 Influences of environmental factors 110
5.4.3 Requirements for an effective BPC application 112
5.5 The application of building pressure cycling to generate aerobic barrier in petroleum vapor intrusion 116
References 121
Chapter 6 Vapor Intrusion Risk Assessments in Brownfield Redevelopment 124
6.1 The basic concept and process of vapor intrusion 126
6.2 The basic theory of the J-E model 128
6.2.1 Fluxes from the source to the soil near the building calculation 130
6.2.2 Calculation of the flux from the soil around the base of the building to the interior of the building 130
6.2.3 Derivation of indoor gas-phase concentration and attenuation factor 131
6.3 Differences between Volasoil model and J-E model 132
6.3.1 Source concentration calculation 133
6.3.2 Calculation of indoor air exposure concentration 133
6.4 Study of vapor intrusion risk assessment 134
6.5 Application of brownfield vapor intrusion risk assessment 137
6.6 The future of vapor intrusion risk assessment in brownfield redevelopment 141
References 142
“土壤环境与污染修复丛书”序
Chapter 1 Screening Models of Vapor Intrusion 1
1.1 Introduction 1
1.2 The general equation governing soil gas transport 4
1.2.1 Soil gas transport involving no biodegradation 6
1.2.2 The role of biodegradation in VI 10
1.2.3 Soil gas transport involving biodegradation 12
1.3 Contaminant soil gas entry into buildings 21
1.3.1 The equation governing escape of contaminant from the soil 21
1.3.2 Indoor air concentration calculation 25
1.4 The limits of VI screening tools 28
References 32
Chapter 2 Numerical Models of Vapor Intrusion 41
2.1 The soil gas transport involving no biodegradation 41
2.2 The soil gas transport involving biodegradation 45
2.3 Soil gas entry into the building 48
2.4 Calculation of indoor air concentration 50
References 52
Chapter 3 US EPA’s Vapor Intrusion Database and Generic Attenuation Factor 57
3.1 Introduction of US EPA’s vapor intrusion database 57
3.2 Examinations of the database based on modeling 58
3.3 Examinations of the database based on environmental factors 61
3.4 The generic attenuation factors and influences of background sources 62
3.5 The importance of appropriate source characterization 66
References 71
Chapter 4 US EPA’s PVI Database and Vertical Screening Distances 74
4.1 US EPA’s petroleum vapor intrusion database 74
4.2 Vertical screening distances 75
4.3 The capillary effect in cases of dissolve sources 75
4.3.1 Model validation 76
4.3.2 Examinations for cases with source in the dissolved phase 77
4.3.3 Numerical simulations for different soil textures 80
4.4 The role of soil texture in NAPL source cases 86
4.4.1 Numerical simulations 86
4.4.2 Analytical analysis 89
4.4.3 Refined vertical separation distances based on soil types 91
References 94
Chapter 5 Preferential Pathways and the Building Pressure Cycling Method 96
5.1 Introduction of preferential pathway and building pressure cycling 96
5.2 Numerical simulations of VI involving preferential pathway and BPC 97
5.2.1 Model validation 98
5.2.2 The influences of soil permeability and BPC on indoor quality 100
5.3 The analytical solutions for the BPC performance in the short term 103
5.4 Numerical simulations for the BPC performance in the short term 108
5.4.1 Model validation 109
5.4.2 Influences of environmental factors 110
5.4.3 Requirements for an effective BPC application 112
5.5 The application of building pressure cycling to generate aerobic barrier in petroleum vapor intrusion 116
References 121
Chapter 6 Vapor Intrusion Risk Assessments in Brownfield Redevelopment 124
6.1 The basic concept and process of vapor intrusion 126
6.2 The basic theory of the J-E model 128
6.2.1 Fluxes from the source to the soil near the building calculation 130
6.2.2 Calculation of the flux from the soil around the base of the building to the interior of the building 130
6.2.3 Derivation of indoor gas-phase concentration and attenuation factor 131
6.3 Differences between Volasoil model and J-E model 132
6.3.1 Source concentration calculation 133
6.3.2 Calculation of indoor air exposure concentration 133
6.4 Study of vapor intrusion risk assessment 134
6.5 Application of brownfield vapor intrusion risk assessment 137
6.6 The future of vapor intrusion risk assessment in brownfield redevelopment 141
References 142
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