Simulation of the Consequences of the Ammonium Nitrate Explosion Following the Truck Accident Next to MihDileEti Village (Romania) in 2004

Model-based evaluation of major accident consequences and effects occurring during the transport of dangerous substances presents a great interest, because it allows derivation of relevant conclusions on the cause-effect close relationship. Such a numerical (in-silico) analysis helps to improve safe...

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Published inChemical and biochemical engineering quarterly Vol. 34; no. 4; pp. 277 - 287
Main Authors Khwayyir, Hasan Hadi Salman, Maria, G., Dinculescu, Daniel
Format Journal Article
LanguageEnglish
Published 2021
Online AccessGet full text
ISSN0352-9568
1846-5153
DOI10.15255/CABEQ.2020.1901

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Abstract Model-based evaluation of major accident consequences and effects occurring during the transport of dangerous substances presents a great interest, because it allows derivation of relevant conclusions on the cause-effect close relationship. Such a numerical (in-silico) analysis helps to improve safety regulations for the transport of hazardous substances aimed at preventing dramatic accidents causing many deaths, injuries, and structural damage. By using the standard TNT equivalency math model, coupled with the Probit functions technique, the consequences and effects of an accidental blast have been estimated.1,2 The approached case study here refers to the accidental explosion of a truck while transporting 20 t of ammonium nitrate (AN) in the proximity of MihDileEti village (Romania) on 24 May 2004. The model-based simulated accident consequences and effects match the data taken on the spot after the accident. Multiple simulations lead to deriving relevant conclusions of practiced value for improving the transport safety of hazardous substances.
AbstractList Model-based evaluation of major accident consequences and effects occurring during the transport of dangerous substances presents a great interest, because it allows derivation of relevant conclusions on the cause-effect close relationship. Such a numerical (in-silico) analysis helps to improve safety regulations for the transport of hazardous substances aimed at preventing dramatic accidents causing many deaths, injuries, and structural damage. By using the standard TNT equivalency math model, coupled with the Probit functions technique, the consequences and effects of an accidental blast have been estimated.1,2 The approached case study here refers to the accidental explosion of a truck while transporting 20 t of ammonium nitrate (AN) in the proximity of MihDileEti village (Romania) on 24 May 2004. The model-based simulated accident consequences and effects match the data taken on the spot after the accident. Multiple simulations lead to deriving relevant conclusions of practiced value for improving the transport safety of hazardous substances.
Author Khwayyir, Hasan Hadi Salman
Dinculescu, Daniel
Maria, G.
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  givenname: Hasan Hadi Salman
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  fullname: Khwayyir, Hasan Hadi Salman
  organization: Al-Furat Al-Awsat Technical University, Al-Najaf, Iraq
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  surname: Maria
  fullname: Maria, G.
  organization: University Politehnica of Bucharest, Department of Chemical and Biochemical Engineering, Polizu 1, 011061 Bucharest, Romania; c)Romanian Academy, Calea Victoriei, 125, Bucharest, Romania
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  givenname: Daniel
  surname: Dinculescu
  fullname: Dinculescu, Daniel
  organization: University Politehnica of Bucharest, Department of Chemical and Biochemical Engineering, Polizu 1, 011061 Bucharest, Romania
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