Endex stabilization of thermally unstable and explosive liquid phase systems

Rowena Ball

Endex stabilization of thermally unstable and explosive liquid phase systems

^*Corresponding author for this work

Research output: Contribution to journal › Conference article › peer-review

Abstract

In Endex coupling of reactive systems an exothermic reaction is directly coupled to an endothermic reaction. This work demonstrates the potential of Endex storage systems for safe storage of explosive and dangerous substances. Rigorous criteria are derived for which thermal runaway is forbidden in an Endex storage system, which is thus intrinsically safe. For several industrial organic peroxides that undergo exothermic thermal decomposition, endothermic reaction partners are chosen from hydrated metal salts that undergo endothermic dehydrations. Thermokinetic data from the literature are used to test Endex stabilization of these systems numerically. It is found that Endex stabilization is successful for periods of at least one week even when therokinetic matching is not ideal. Some of the difficulties of Endex stabilization of peroxides thaat undergo multistage decomposition are highlighted.

Original language	English
Journal	Institution of Chemical Engineers Symposium Series
Issue number	159
Publication status	Published - 2014
Event	Hazards 24 - Edinburgh, United Kingdom Duration: 7 May 2014 → 9 May 2014

Cite this

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title = "Endex stabilization of thermally unstable and explosive liquid phase systems",

abstract = "In Endex coupling of reactive systems an exothermic reaction is directly coupled to an endothermic reaction. This work demonstrates the potential of Endex storage systems for safe storage of explosive and dangerous substances. Rigorous criteria are derived for which thermal runaway is forbidden in an Endex storage system, which is thus intrinsically safe. For several industrial organic peroxides that undergo exothermic thermal decomposition, endothermic reaction partners are chosen from hydrated metal salts that undergo endothermic dehydrations. Thermokinetic data from the literature are used to test Endex stabilization of these systems numerically. It is found that Endex stabilization is successful for periods of at least one week even when therokinetic matching is not ideal. Some of the difficulties of Endex stabilization of peroxides thaat undergo multistage decomposition are highlighted.",

keywords = "Endex, Organic peroxides, Thermal runaway, Thermal stabilization",

author = "Rowena Ball",

note = "Publisher Copyright: {\textcopyright} IChemE.; Hazards 24 ; Conference date: 07-05-2014 Through 09-05-2014",

year = "2014",

language = "English",

journal = "Institution of Chemical Engineers Symposium Series",

issn = "0307-0492",

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T1 - Endex stabilization of thermally unstable and explosive liquid phase systems

AU - Ball, Rowena

N1 - Publisher Copyright: © IChemE.

PY - 2014

Y1 - 2014

N2 - In Endex coupling of reactive systems an exothermic reaction is directly coupled to an endothermic reaction. This work demonstrates the potential of Endex storage systems for safe storage of explosive and dangerous substances. Rigorous criteria are derived for which thermal runaway is forbidden in an Endex storage system, which is thus intrinsically safe. For several industrial organic peroxides that undergo exothermic thermal decomposition, endothermic reaction partners are chosen from hydrated metal salts that undergo endothermic dehydrations. Thermokinetic data from the literature are used to test Endex stabilization of these systems numerically. It is found that Endex stabilization is successful for periods of at least one week even when therokinetic matching is not ideal. Some of the difficulties of Endex stabilization of peroxides thaat undergo multistage decomposition are highlighted.

AB - In Endex coupling of reactive systems an exothermic reaction is directly coupled to an endothermic reaction. This work demonstrates the potential of Endex storage systems for safe storage of explosive and dangerous substances. Rigorous criteria are derived for which thermal runaway is forbidden in an Endex storage system, which is thus intrinsically safe. For several industrial organic peroxides that undergo exothermic thermal decomposition, endothermic reaction partners are chosen from hydrated metal salts that undergo endothermic dehydrations. Thermokinetic data from the literature are used to test Endex stabilization of these systems numerically. It is found that Endex stabilization is successful for periods of at least one week even when therokinetic matching is not ideal. Some of the difficulties of Endex stabilization of peroxides thaat undergo multistage decomposition are highlighted.

KW - Endex

KW - Organic peroxides

KW - Thermal runaway

KW - Thermal stabilization

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M3 - Conference article

AN - SCOPUS:84908193783

SN - 0307-0492

JO - Institution of Chemical Engineers Symposium Series

JF - Institution of Chemical Engineers Symposium Series

IS - 159

T2 - Hazards 24

Y2 - 7 May 2014 through 9 May 2014

ER -

Endex stabilization of thermally unstable and explosive liquid phase systems

Abstract

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