Air pollution control engineering
著者
書誌事項
Air pollution control engineering
(Handbook of environmental engineering, v. 1)
Humana Press, c2004
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注記
Includes bibliographical references and index
内容説明・目次
内容説明
A panel of respected air pollution control educators and practicing professionals critically survey the both principles and practices underlying control processes, and illustrate these with a host of detailed design examples for practicing engineers. The authors discuss the performance, potential, and limitations of the major control processes-including fabric filtration, cyclones, electrostatic precipitation, wet and dry scrubbing, and condensation-as a basis for intelligent planning of abatement systems,. Additional chapters critically examine flare processes, thermal oxidation, catalytic oxidation, gas-phase activated carbon adsorption, and gas-phase biofiltration. The contributors detail the Best Available Technologies (BAT) for air pollution control and provide cost data, examples, theoretical explanations, and engineering methods for the design, installation, and operation of air pollution process equipment. Methods of practical design calculation are illustrated by numerous numerical calculations.
目次
Air Quality and Pollution Control
Lawrence K. Wang, Jerry R. Taricska, Yung-Tse Hung, and Kathleen Hung Li
1. Introduction
2. Characteristics of Air Pollutants
3. Standards
3.1. Ambient Air Quality Standards
3.2. Emission Standards
4. Sources
5. Effects
6. Measurements
6.1. Ambient Sampling
6.2. Source Sampling
6.3. Sample Locations
6.4. Gas Flow Rates
6.5. Relative Humidity
6.6. Sample Train
6.7. Determination of Size Distribution
7. Gas Stream Calculations
7.1. General
7.2. Emission Stream Flow Rate and Temperature Calculations
7.3. Moisture Content, Dew Point Content, and Sulfur Trioxide Calculations
7.4. Particulate Matter Loading
7.5. Heat Content Calculations
7.6. Dilution Air Calculations
8. Gas Stream Conditioning
8.1. General
8.2. Mechanical Collectors
8.3. Gas Coolers
8.4. Gas Preheaters
9. Air Quality Management
9.1. Recent Focus
9.2. Ozone
9.3. Air Toxics
9.4. Greenhouse Gases Reduction and Industrial Ecology Approach
9.5. Environmental Laws
10. Control
11. Conclusions
12. Examples
12.1. Example 1
12.2. Example 2
Nomenclature
References
Fabric Filtration
Lawrence K. Wang, Clint Williford, and Wei-Yin Chen
1. Introduction
2. Principle and Theory
3. Application
3.1. General
3.2. Gas Cleaning
3.3. Efficiency
4. Engineering Design
4.1. Pretreatment of an Emission Stream
4.2. Air-to-Cloth Ratio
4.3. Fabric Cleaning Design
4.4. Baghouse Configuration
4.5. Construction Materials
4.6. Design Range of Effectiveness
5. Operation
5.1. General Considerations
5.2. Collection Efficiency
5.3. System Pressure Drop
5.4. Power Requirements
5.5. Filter Bag Replacement
6. Management
6.1. Evaluation of Permit Application
6.2. Economics
6.3. New Technology Awareness
7. Design Examples and Questions
Nomenclature
References
Appendix 1: HAP Emission Stream Data Form
Appendix 2: Metric Conversions
Cyclones
Jose Renato Coury, Reinaldo Pisani Jr., and Yung-Tse Hung
1. Introduction
2. Cyclones for Industrial Applications
2.1. General Description
2.2. Correlations for Cyclone Efficiency
2.3. Correlations for Cyclone Pressure Drop
2.4. Other Relations of Interest
2.5. Application Examples
3. Costs of Cyclone and Auxiliary Equipment
3.1. Cyclone Purchase Cost
3.2. Fan Purchase Cost
3.3. Ductwork Purchase Cost
3.4. Stack Purchase Cost
3.5. Damper Purchase Cost
3.6. Calculation of Present and Future Costs
3.7. Cost Estimation Examples
4. Cyclones for Airborne Particulate Sampling
4.1. Particulate Matter in the Atmosphere
4.2. General Correlation for Four Commercial Cyclones
4.3. A Semiempirical Approach
4.4. The 'Cyclone Family' Approach
4.5. PM2.5 Sampler
4.6. Examples
Nomenclature
References
Electrostatic Precipitation
Chung-Shin J. Yuan and Thomas T. Shen
1. Introduction
2. Principles of Operation
2.1. Corona Discharge
2.2. Electrical Field Characteristics
2.3. Particle Charging
2.4. Particle Collection
3. Design Methodology and Considerations
3.1. Precipitator Size
3.2. Particulate Resistivity
3.3. Internal Configuration
3.4. Electrode Systems
3.5. Power Requirements
3.6. Gas Flow Systems
3.7. Precipitator Housing
3.8. Flue Gas Conditioning
3.9. Removal of Collected Particles
3.10. Instrumentation
4. Applications
4.1. Electric Power Industry
4.2. Pulp and Paper Industry
4.3. Metallurgical Industry
4.4. Cement Industry
4.5. Chemical Industry
4.6. Municipal Solid-Waste Incinerators
4.7. Petroleum
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