Addition of malodorants to lighter gas

The phase equilibrium properties of mixtures of lighter gas and selected substances

Vasu Neela, Nicolas von Solms

Research output: Contribution to journalJournal articleResearchpeer-review

Abstract

Relevant thermodynamic and phase behavior of mixtures created by adding malodorants to lighter gas to discourage its abuse have been studied. The influence of physical factors such as temperature, pressure and concentration of the selected substances with lighter gas is studied. This work represents one component in a larger study examining the feasibility of adding malodorants to lighter gas and focuses on the physical chemistry or chemical engineering aspects of the problem. An initial set of 27 compounds was selected based on deterrent effect (odor) in order to find suitable additives to lighter gas components. The aim is to find substances that not only have the correct physiological effect (discourage abuse) but also the correct physical behavior upon addition to lighter gas (solubility, phase behavior). Specifically the way the malodorant partitions between the vapor and liquid phase is modeled. Furthermore, addition of the malodorants should not affect the normal use of the lighter. Thus of the 27 initial components chosen, nine were found that could be suitable additives. In this work we used the thermodynamic models COSMOtherm - an activity coefficient model - and Cubic-Plus-Association (CPA) - an equation of state - to model the fluid phase and solubility behavior of the mixtures formed by the various additives with butane.
Original languageEnglish
JournalChemical Engineering Research & Design
Volume92
Pages (from-to)2851-2860
ISSN0263-8762
DOIs
Publication statusPublished - 2014

Keywords

  • Lighter gas
  • Malodorants
  • Phase behavior
  • COSMOtherm
  • Equation of state
  • CPA

Cite this

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title = "Addition of malodorants to lighter gas: The phase equilibrium properties of mixtures of lighter gas and selected substances",
abstract = "Relevant thermodynamic and phase behavior of mixtures created by adding malodorants to lighter gas to discourage its abuse have been studied. The influence of physical factors such as temperature, pressure and concentration of the selected substances with lighter gas is studied. This work represents one component in a larger study examining the feasibility of adding malodorants to lighter gas and focuses on the physical chemistry or chemical engineering aspects of the problem. An initial set of 27 compounds was selected based on deterrent effect (odor) in order to find suitable additives to lighter gas components. The aim is to find substances that not only have the correct physiological effect (discourage abuse) but also the correct physical behavior upon addition to lighter gas (solubility, phase behavior). Specifically the way the malodorant partitions between the vapor and liquid phase is modeled. Furthermore, addition of the malodorants should not affect the normal use of the lighter. Thus of the 27 initial components chosen, nine were found that could be suitable additives. In this work we used the thermodynamic models COSMOtherm - an activity coefficient model - and Cubic-Plus-Association (CPA) - an equation of state - to model the fluid phase and solubility behavior of the mixtures formed by the various additives with butane.",
keywords = "Lighter gas, Malodorants, Phase behavior, COSMOtherm, Equation of state, CPA",
author = "Vasu Neela and {von Solms}, Nicolas",
year = "2014",
doi = "10.1016/j.cherd.2014.09.012",
language = "English",
volume = "92",
pages = "2851--2860",
journal = "Chemical Engineering Research & Design",
issn = "0263-8762",
publisher = "Elsevier",

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Addition of malodorants to lighter gas : The phase equilibrium properties of mixtures of lighter gas and selected substances. / Neela, Vasu; von Solms, Nicolas.

In: Chemical Engineering Research & Design, Vol. 92, 2014, p. 2851-2860.

Research output: Contribution to journalJournal articleResearchpeer-review

TY - JOUR

T1 - Addition of malodorants to lighter gas

T2 - The phase equilibrium properties of mixtures of lighter gas and selected substances

AU - Neela, Vasu

AU - von Solms, Nicolas

PY - 2014

Y1 - 2014

N2 - Relevant thermodynamic and phase behavior of mixtures created by adding malodorants to lighter gas to discourage its abuse have been studied. The influence of physical factors such as temperature, pressure and concentration of the selected substances with lighter gas is studied. This work represents one component in a larger study examining the feasibility of adding malodorants to lighter gas and focuses on the physical chemistry or chemical engineering aspects of the problem. An initial set of 27 compounds was selected based on deterrent effect (odor) in order to find suitable additives to lighter gas components. The aim is to find substances that not only have the correct physiological effect (discourage abuse) but also the correct physical behavior upon addition to lighter gas (solubility, phase behavior). Specifically the way the malodorant partitions between the vapor and liquid phase is modeled. Furthermore, addition of the malodorants should not affect the normal use of the lighter. Thus of the 27 initial components chosen, nine were found that could be suitable additives. In this work we used the thermodynamic models COSMOtherm - an activity coefficient model - and Cubic-Plus-Association (CPA) - an equation of state - to model the fluid phase and solubility behavior of the mixtures formed by the various additives with butane.

AB - Relevant thermodynamic and phase behavior of mixtures created by adding malodorants to lighter gas to discourage its abuse have been studied. The influence of physical factors such as temperature, pressure and concentration of the selected substances with lighter gas is studied. This work represents one component in a larger study examining the feasibility of adding malodorants to lighter gas and focuses on the physical chemistry or chemical engineering aspects of the problem. An initial set of 27 compounds was selected based on deterrent effect (odor) in order to find suitable additives to lighter gas components. The aim is to find substances that not only have the correct physiological effect (discourage abuse) but also the correct physical behavior upon addition to lighter gas (solubility, phase behavior). Specifically the way the malodorant partitions between the vapor and liquid phase is modeled. Furthermore, addition of the malodorants should not affect the normal use of the lighter. Thus of the 27 initial components chosen, nine were found that could be suitable additives. In this work we used the thermodynamic models COSMOtherm - an activity coefficient model - and Cubic-Plus-Association (CPA) - an equation of state - to model the fluid phase and solubility behavior of the mixtures formed by the various additives with butane.

KW - Lighter gas

KW - Malodorants

KW - Phase behavior

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KW - Equation of state

KW - CPA

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M3 - Journal article

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