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VDI 3783 Blatt 5:1999-11

Current

Current

The latest, up-to-date edition.

Environmental meteorology - Models for the gas-phase chemistry of the troposphere

Available format(s)

Hardcopy , PDF

Language(s)

German - English

Published date

01-11-1999

€133.83
Excluding VAT

Preliminary note
Scope and objective
List of relevant symbols
Terms and definitions
1 Introduction
2 Quantitative formulation of chemical
  reactions - an example
3 Model concept of a gas-phase chemical
  reaction mechanism
4 Input parameters
5 Application examples
6 Error sources
7 Comparability with measured data
8 Conclusion
Annex A - Instructions for evaluating chemical
          mechanisms
Annex B - Implementation of the chemical part
          of the balance equations
Annex C - Data for the intercomparison of
          chemical mechanisms for the troposphere
References

Provides the criteria to be satisfied by reaction mechanisms for modeling the chemical reaction dynamics of trace gases in the troposphere.

DocumentType
Standard
Pages
64
PublisherName
Verlag des Vereins Deutscher Ingenieure
Status
Current
Supersedes

VDI 2596:2009-02 Emission control - Slaughtering facilities
VDI 3783 Blatt 19:2017-04 Environmental meteorology - Reaction mechanism for the determination of the nitrogen dioxide concentration
VDI 3945 Blatt 3:2000-09 Environmental meteorology - Atmospheric dispersion models - Particle model
VDI 3783 Blatt 18:2017-04 Environmental meteorology - Photolysis frequencies for calculating pollutant concentrations in the troposphere

VDI 3945 Blatt 3:2000-09 Environmental meteorology - Atmospheric dispersion models - Particle model
VDI 3783 Blatt 9:2017-05 Environmental meteorology - Prognostic microscale wind field models - Evaluation for flow around buildings and obstacles
VDI 3783 Blatt 10:2010-03 Environmental meteorology - Diagnostic microscale wind field models - Air-flow around buildings and obstacles
VDI 3783 Blatt 7:2017-05 Environmental meteorology - Prognostic mesoscale wind field models - Evaluation for dynamically and thermally induced flow fields

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