DETONATION

ADVANCED NUMEREICAL STUDY OF FLAME ACCELERATION AND DETONATION IN VAPOUR CLOUD EXPLOSIONS

 Coordinatore KINGSTON UNIVERSITY HIGHER EDUCATION CORPORATION 

 Organization address address: RIVER HOUSE HIGH STREET 53-57
city: KINGSTON UPON THAMES
postcode: KT1 1LQ

contact info
Titolo: Ms.
Nome: Joanna
Cognome: Haigh
Email: send email
Telefono: +442085472000 ext. 64741
Fax: 442085000000

 Nazionalità Coordinatore United Kingdom [UK]
 Totale costo 240˙289 €
 EC contributo 240˙289 €
 Programma FP7-PEOPLE
Specific programme "People" implementing the Seventh Framework Programme of the European Community for research, technological development and demonstration activities (2007 to 2013)
 Code Call FP7-PEOPLE-2009-IIF
 Funding Scheme MC-IIF
 Anno di inizio 2011
 Periodo (anno-mese-giorno) 2011-07-21   -   2013-07-20

 Partecipanti

# participant  country  role  EC contrib. [€] 
1    KINGSTON UNIVERSITY HIGHER EDUCATION CORPORATION

 Organization address address: RIVER HOUSE HIGH STREET 53-57
city: KINGSTON UPON THAMES
postcode: KT1 1LQ

contact info
Titolo: Ms.
Nome: Joanna
Cognome: Haigh
Email: send email
Telefono: +442085472000 ext. 64741
Fax: 442085000000

UK (KINGSTON UPON THAMES) coordinator 240˙289.60

Mappa


 Word cloud

Esplora la "nuvola delle parole (Word Cloud) per avere un'idea di massima del progetto.

effect    transition    combustion    explosions    vapour    acceleration    flame    above    chemistry    tackle    cloud    data    gas    obstacles    validate    detonation    basis    examine    model   

 Obiettivo del progetto (Objective)

'The proposed research aims to tackle the extremely complex problem of flame acceleration, the conditions for transition from turbulent deflagration to detonation and detonation. These physical phenomena are highly multidisciplinary which involve fluid mechanics, combustion, shock dynamics and detonation. We will start with small scales for model development and validation. In such analysis advanced combustion models for flame acceleration will be coupled with detailed chemistry together with special measures to tackle the stiffness issues associated with the chemistry. On this basis, modelling techniques will be developed for large scale problems using simplified chemistry. The key objectives of the proposed research, which is tailored for the Fellow to transfer knowledge to the host and/or bring knowledge to Europe, are as follows: • To deliver a robust sub-model for predicting flame acceleration around obstacles on the basis of the coherent flame model which is a variant of the flame surface density approach; • To validate the above model with laboratory scale test data and DNS predictions; • To apply the above model to examine flame acceleration in vapour cloud explosions, and examine in particular the effect of repeated obstacles on flame acceleration and possible transition to detonation. • To implement a reaction model and combine it with fine tuned chemistry to predict vapour cloud detonation pressure and velocity. • To test and validate the model with large scale detonation test data. • To apply the above model to analyse some recent proprietary experimental data from industrial collaborators, previously published test results as well as historical accident scenarios in which there was strong possibility that large vapour cloud detonated. In particular the effect of cloud height and thickness on the development of overpressure and its decay will be examined. • To draw conclusions and guidelines from the research.'

Introduzione (Teaser)

An EU project modelled how gas explosions move around obstacles. Using a combination of scientific disciplines, the study accurately determined the complex processes for both hydrogen and natural gas.

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