Thermal risk in batch reactors: Theoretical framework for runaway and accident

Thermal safety and risk of accidents are still challenging topics in the case of batch reactors carrying exothermic reactions. In the present paper, the authors develop an integrated framework focusing on defining the governing parameters for the thermal runaway and evaluating the subsequent risk of...

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Published inJournal of loss prevention in the process industries Vol. 43; pp. 75 - 82
Main Authors Ni, Lei, Mebarki, Ahmed, Jiang, Juncheng, Zhang, Mingguang, Pensee, Vincent, Dou, Zhan
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier Ltd 01.09.2016
Elsevier Science Ltd
Elsevier
Subjects
Accident
Batch reactor
Chemical synthesis
Cooler failure
Cooling
Critical duration
Critical temperature
Engineering Sciences
Hydrogen peroxide
Monte Carlo simulation
Occupational accidents
Risk
Risk assessment
Thermal runaway
Cooler failure
Accident
Thermal runaway
Risk
Batch reactor
Critical temperature
Critical duration
Chemical synthesis
Online AccessGet full text
ISSN0950-4230
1873-3352
DOI10.1016/j.jlp.2016.04.004

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Abstract Thermal safety and risk of accidents are still challenging topics in the case of batch reactors carrying exothermic reactions. In the present paper, the authors develop an integrated framework focusing on defining the governing parameters for the thermal runaway and evaluating the subsequent risk of accident. A relevant set of criteria are identified in order to find the prior conditions for a thermal runaway: failure of the cooling system, critical temperature threshold, successive derivatives of the temperature (first and second namely) vs. time and no detection in due time (reaction time) of the runaway initiation. For illustrative purposes, the synthesis of peracetic acid (PAA) with hydrogen peroxide (HP) and acetic acid (AA) is considered as case study. The critical and threshold values for the runaway accident are identified for selected sets of input data. Under the conditional probability of prior cooling system failure, Monte Carlo simulations are performed in order to estimate the risk of thermal runaway accident in batch reactors. It becomes then possible to predict the ratio of reactors, within an industrial plant, potentially subject to thermal runaway accident. •Proposal of an integrated framework defining the governing parameters for the thermal runaway and evaluating the subsequent risk of accident.•Identification of the criteria: first and second derivatives of the temperature and time before detection.•Probabilistic description of the prior failure of cooling system for an accident by thermal runaway: evaluation of this accident risk.•Application to a case study: the synthesis of peracetic acid (PAA).
AbstractList Thermal safety and risk of accidents are still challenging topics in the case of batch reactors carrying exothermic reactions. In the present paper, the authors develop an integrated framework focusing on defining the governing parameters for the thermal runaway and evaluating the subsequent risk of accident. A relevant set of criteria are identified in order to find the prior conditions for a thermal runaway: failure of the cooling system, critical temperature threshold, successive derivatives of the temperature (first and second namely) vs. time and no detection in due time (reaction time) of the runaway initiation. For illustrative purposes, the synthesis of peracetic acid (PAA) with hydrogen peroxide (HP) and acetic acid (AA) is considered as case study. The critical and threshold values for the runaway accident are identified for selected sets of input data. Under the conditional probability of prior cooling system failure, Monte Carlo simulations are performed in order to estimate the risk of thermal runaway accident in batch reactors. It becomes then possible to predict the ratio of reactors, within an industrial plant, potentially subject to thermal runaway accident.
Thermal safety and risk of accidents are still challenging topics in the case of batch reactors carrying exothermic reactions. In the present paper, the authors develop an integrated framework focusing on defining the governing parameters for the thermal runaway and evaluating the subsequent risk of accident. A relevant set of criteria are identified in order to find the prior conditions for a thermal runaway: failure of the cooling system, critical temperature threshold, successive derivatives of the temperature (first and second namely) vs. time and no detection in due time (reaction time) of the runaway initiation. For illustrative purposes, the synthesis of peracetic acid (PAA) with hydrogen peroxide (HP) and acetic acid (AA) is considered as case study. The critical and threshold values for the runaway accident are identified for selected sets of input data. Under the conditional probability of prior cooling system failure, Monte Carlo simulations are performed in order to estimate the risk of thermal runaway accident in batch reactors. It becomes then possible to predict the ratio of reactors, within an industrial plant, potentially subject to thermal runaway accident. •Proposal of an integrated framework defining the governing parameters for the thermal runaway and evaluating the subsequent risk of accident.•Identification of the criteria: first and second derivatives of the temperature and time before detection.•Probabilistic description of the prior failure of cooling system for an accident by thermal runaway: evaluation of this accident risk.•Application to a case study: the synthesis of peracetic acid (PAA).
Author Dou, Zhan
Mebarki, Ahmed
Jiang, Juncheng
Zhang, Mingguang
Ni, Lei
Pensee, Vincent
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Keywords Cooler failure
Accident
Thermal runaway
Risk
Batch reactor
Critical temperature
Critical duration
Chemical synthesis
Language English
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Snippet Thermal safety and risk of accidents are still challenging topics in the case of batch reactors carrying exothermic reactions. In the present paper, the...
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SubjectTerms Accident
Batch reactor
Chemical synthesis
Cooler failure
Cooling
Critical duration
Critical temperature
Engineering Sciences
Hydrogen peroxide
Monte Carlo simulation
Occupational accidents
Risk
Risk assessment
Thermal runaway
Title Thermal risk in batch reactors: Theoretical framework for runaway and accident
URI https://dx.doi.org/10.1016/j.jlp.2016.04.004
https://www.proquest.com/docview/1824296131
https://hal.science/hal-01314537
Volume 43
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