The Bhopal Gas Leak, India 1984 is the largest chemical industrial
accident ever. Haddon's and Berger's models for injury analysis have
been tested, together with the project planning tool Logical Framework
Approach (LFA). The three models provide the same main message: That
irrespectively of the direct cause to the leakage, it is only two
parties that are responsible for the magnitude of the disaster: Union
Carbide Corporation and the Governments of India and Madhya Pradesh.
The models give somewhat different images of the process of the accident.
Models developed for analysis of injuries can be used for analysing
a complicated mega accident like the Bhopal gas leak, although different
models might stress different aspects.
%0 Journal Article
%1 Eckerman:2005
%A Eckerman, Ingrid
%B Selected Papers Presented at the International Conference on Bhopal
Gas Tragedy and its Effects on Process Safety
%D 2005
%J Journal of Loss Prevention in the Process Industries
%K Bhopal Haddon, Injury Logical MIC, Methyl-isocyanate, analysis, approach framework gas leak,
%N 4-6
%P 213--217
%R http://dx.doi.org/10.1016/j.jlp.2005.07.007
%T The Bhopal gas leak: Analyses of causes and consequences by three
different models
%U http://www.sciencedirect.com/science/article/B6TGH-4GWC0T0-7/2/fac32f0c412f14f92a8bc475d695868a
%V 18
%X The Bhopal Gas Leak, India 1984 is the largest chemical industrial
accident ever. Haddon's and Berger's models for injury analysis have
been tested, together with the project planning tool Logical Framework
Approach (LFA). The three models provide the same main message: That
irrespectively of the direct cause to the leakage, it is only two
parties that are responsible for the magnitude of the disaster: Union
Carbide Corporation and the Governments of India and Madhya Pradesh.
The models give somewhat different images of the process of the accident.
Models developed for analysis of injuries can be used for analysing
a complicated mega accident like the Bhopal gas leak, although different
models might stress different aspects.
@article{Eckerman:2005,
abstract = {The Bhopal Gas Leak, India 1984 is the largest chemical industrial
accident ever. Haddon's and Berger's models for injury analysis have
been tested, together with the project planning tool Logical Framework
Approach (LFA). The three models provide the same main message: That
irrespectively of the direct cause to the leakage, it is only two
parties that are responsible for the magnitude of the disaster: Union
Carbide Corporation and the Governments of India and Madhya Pradesh.
The models give somewhat different images of the process of the accident.
Models developed for analysis of injuries can be used for analysing
a complicated mega accident like the Bhopal gas leak, although different
models might stress different aspects.},
added-at = {2010-01-05T23:12:10.000+0100},
author = {Eckerman, Ingrid},
biburl = {https://www.bibsonomy.org/bibtex/28629000005190bb354e103d0971f10b2/sjp},
booktitle = {Selected Papers Presented at the International Conference on Bhopal
Gas Tragedy and its Effects on Process Safety},
doi = {http://dx.doi.org/10.1016/j.jlp.2005.07.007},
interhash = {91552eff4a8dd6f3c03f634e218b71dd},
intrahash = {8629000005190bb354e103d0971f10b2},
journal = {Journal of Loss Prevention in the Process Industries},
keywords = {Bhopal Haddon, Injury Logical MIC, Methyl-isocyanate, analysis, approach framework gas leak,},
number = {4-6},
pages = {213--217},
timestamp = {2010-01-19T17:39:44.000+0100},
title = {The Bhopal gas leak: Analyses of causes and consequences by three
different models},
url = {http://www.sciencedirect.com/science/article/B6TGH-4GWC0T0-7/2/fac32f0c412f14f92a8bc475d695868a},
volume = 18,
year = 2005
}