Guidelines for Use of Vapor Cloud Dispersion Models, 2nd Edition
1. Background and Objectives.
2. Overview of Modeling Procedures, Including Rationale for Selecting Scenarios for Worked Examples.
2.1 Types of Scenarios and Models.
2.2 Gross Screening Analysis.
2.3 Scenarios Selected for Worked Examples.
3. Input Data Required.
3.1 Source data.
3.2 Site Characteristics.
3.3 Meteorological Data and Formulas for Calculating Input Parameters.
3.4 Receptor Related Data.
4. Source Emission Models.
4.1 Conceptual Process for Source Term Determination.
4.2 Calculation of Source Terms.
4.2.1 Gas Jet Releases.
4.2.2 Liquid Jet Releases.
4.2.3 Two-Phase Jet Releases.
4.2.4 Liquid Pool Spreading.
4.2.5 Liquid Pool Evaporation.
4.3 Uncertainties in Source Term Estimation.
5. Dispersion Models.
5.1 Critical Richardson Number Criterion.
5.2 Jet Trajectory and Entrainment.
5.2.1 Momentum-Dominated Jets.
5.2.2 Elevated Dense Gas Jets.
5.2.3 Positively Buoyant Plumes.
5.3 Dense Gas Release at grade.
5.3.1 Background and Overview.
5.3.2 Dense Gas Clouds in the Absence of Heat Exchange.
5.3.3 Dense Gas Clouds in the Presence of Heat Exchanges.
5.4 Transport and Dispersion of Neutrally Buoyant of Passive Gas Clouds.
5.5 Simple Nomograms for Calculating the Dilution of Dense Gas Release.
5.6 Three-Dimensional Numerical Models of Dense Gas Dispersion.
5.7 Transport and Dispersion Near Buildings.
5.7.1 Plume Confinement by Canyons.
5.7.2 Concentrations on Building Faces Due to Releases from Vents.
5.7.3 Concentrations on the Building Downwind Face (the Near-Wake) Due to Releases from Sources on the Building.
5.7.4 Other Effects of Buildings.
5.8 Worst Case Meteorological Conditions.
5.9 Removal by Dry and Wet Deposition.
5.9.1 Gravitational Settling of Large Particles of Aerosols.
5.9.2 Dry Deposition of Small particles and Gases.
5.9.3 Removal of Particles and Gases by Participation and Clouds (Wet Deposition).
6. Averaging Times, Concentration Fluctuations, and Modeling Uncertainties.
6.1 Overview of Physical Considerations Related to Averaging Time.
6.2 Overview of Characteristics of Concentration Fluctuations in Plumes.
6.3 Predictions of Concentrations on the Plume Centerline at a Given Downwind Distance as a Function of Averaging Time, T<sub>a</sub>.
6.4 Predictions of Concentrations at a Given Receptor Position as a Function of Averaging Time, T<sub>a</sub>.
6.5 Threshold Crossing Probability.
6.6 A general Structure for the Analysis of Model Uncertainties.
7. Overview of Operational Vapor Cloud Models in Common Use.
7.1 Summary of Commonly used Models.
7.2 Characteristics of Commonly Used Vapor Cloud Dispersion Models.
8. Evaluation of Models with Field Data.
8.1 Description of Field Data Sets.
8.2 Model Evaluation Procedures.
8.3 Models Evaluated.
8.4 Results of Model Evaluations.
9. Summary of Seven Worked Examples.
9.1 Description of Seven Scenarios Used for Worked Examples.
9.2 Overview of Predicted Concentrations.
Appendix A. Scenario 1: Release of Pressurized Liquid Chlorine.
Appendix B. Scenario 2: Liquid (Cryogenic) Spill of Refrigerated Chlorine.
Appendix C. Scenario 3: Liquid (Noncryogenic) Spill of Liquid Acetone.
Appendix D. Scenario 4: Vertical Jet Release of a Dense Gas (Normal Butane).
Appendix E. Scenario 5: Release of SO<sub>3</sub> within a Building and Subsequent Dispersion of H<sub>2</sub>SO<sub>4</sub> from a Vent on the Building.
Appendix F. Scenario 6: Pressurized Horizontal Gas Jet Release of a Multicomponent Mixture.
Appendix G. Scenario 7: Transient (Mitigated) Area-Source Release of Hydrogen Fluoride.
|Guidelines for Use of Vapor Cloud Dispersion Models, 2nd Edition
Guidelines for Use of Vapor Cloud Dispersion Models, 2nd Edition: This floppy diskette contains the input and output files for all models and all runs described in Section 9 and Appendices
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