A comparative study of heavy oil oxidation thermal behavior in the presence of Cu-Mn tallates

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Zeitschriftentitel:	IOP Conference Series: Earth and Environmental Science
Personen und Körperschaften:	Khelkhal, M, Eskin, A, Vakhin, A
In:	IOP Conference Series: Earth and Environmental Science, 282, 2019, 1, S. 012013
Format:	E-Article
Sprache:	Unbestimmt
veröffentlicht:	IOP Publishing

author_facet	Khelkhal, M Eskin, A Vakhin, A Khelkhal, M Eskin, A Vakhin, A
author	Khelkhal, M Eskin, A Vakhin, A
spellingShingle	Khelkhal, M Eskin, A Vakhin, A IOP Conference Series: Earth and Environmental Science A comparative study of heavy oil oxidation thermal behavior in the presence of Cu-Mn tallates
author_sort	khelkhal, m
spelling	Khelkhal, M Eskin, A Vakhin, A 1755-1307 1755-1315 IOP Publishing http://dx.doi.org/10.1088/1755-1315/282/1/012013 <jats:title>Abstract</jats:title> <jats:p>Heavy oil in-situ combustion process has many benefits among other thermal enhancing oil recovery methods. However, its application is still a complex task due to the irregular propagation of combustion front in the reservoir and its early breaking down. Recent finding regarding in-situ combustion development have led to use catalysts based on transition metals in order to stabilize and enhance combustion front flow. Transition metals was chosen rather than other types of catalysts because of their practical, feasible and economic impact in a wide range of industrial processes.</jats:p> <jats:p>Current solutions to catalytic in-situ combustion are inconsistent with their application in real fields due the problems associated to the injection of catalysts in the reservoir from one side and to the high cost that can be generated from the use of certain type of catalysts. In this context, we studied the effect of copper and manganese tallates in different metal ratios on the oxidation of heavy oil by applying various physical and physical-chemical methods. As a result, we have obtained accurate results demonstrating the potential effect of Cu-Mn tallates in stabilizing combustion front during high temperature oxidation reactions.</jats:p> A comparative study of heavy oil oxidation thermal behavior in the presence of Cu-Mn tallates IOP Conference Series: Earth and Environmental Science
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title	A comparative study of heavy oil oxidation thermal behavior in the presence of Cu-Mn tallates
title_unstemmed	A comparative study of heavy oil oxidation thermal behavior in the presence of Cu-Mn tallates
title_full	A comparative study of heavy oil oxidation thermal behavior in the presence of Cu-Mn tallates
title_fullStr	A comparative study of heavy oil oxidation thermal behavior in the presence of Cu-Mn tallates
title_full_unstemmed	A comparative study of heavy oil oxidation thermal behavior in the presence of Cu-Mn tallates
title_short	A comparative study of heavy oil oxidation thermal behavior in the presence of Cu-Mn tallates
title_sort	a comparative study of heavy oil oxidation thermal behavior in the presence of cu-mn tallates
url	http://dx.doi.org/10.1088/1755-1315/282/1/012013
publishDate	2019
physical	012013
description	<jats:title>Abstract</jats:title> <jats:p>Heavy oil in-situ combustion process has many benefits among other thermal enhancing oil recovery methods. However, its application is still a complex task due to the irregular propagation of combustion front in the reservoir and its early breaking down. Recent finding regarding in-situ combustion development have led to use catalysts based on transition metals in order to stabilize and enhance combustion front flow. Transition metals was chosen rather than other types of catalysts because of their practical, feasible and economic impact in a wide range of industrial processes.</jats:p> <jats:p>Current solutions to catalytic in-situ combustion are inconsistent with their application in real fields due the problems associated to the injection of catalysts in the reservoir from one side and to the high cost that can be generated from the use of certain type of catalysts. In this context, we studied the effect of copper and manganese tallates in different metal ratios on the oxidation of heavy oil by applying various physical and physical-chemical methods. As a result, we have obtained accurate results demonstrating the potential effect of Cu-Mn tallates in stabilizing combustion front during high temperature oxidation reactions.</jats:p>
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author	Khelkhal, M, Eskin, A, Vakhin, A
author_facet	Khelkhal, M, Eskin, A, Vakhin, A, Khelkhal, M, Eskin, A, Vakhin, A
author_sort	khelkhal, m
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container_title	IOP Conference Series: Earth and Environmental Science
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description	<jats:title>Abstract</jats:title> <jats:p>Heavy oil in-situ combustion process has many benefits among other thermal enhancing oil recovery methods. However, its application is still a complex task due to the irregular propagation of combustion front in the reservoir and its early breaking down. Recent finding regarding in-situ combustion development have led to use catalysts based on transition metals in order to stabilize and enhance combustion front flow. Transition metals was chosen rather than other types of catalysts because of their practical, feasible and economic impact in a wide range of industrial processes.</jats:p> <jats:p>Current solutions to catalytic in-situ combustion are inconsistent with their application in real fields due the problems associated to the injection of catalysts in the reservoir from one side and to the high cost that can be generated from the use of certain type of catalysts. In this context, we studied the effect of copper and manganese tallates in different metal ratios on the oxidation of heavy oil by applying various physical and physical-chemical methods. As a result, we have obtained accurate results demonstrating the potential effect of Cu-Mn tallates in stabilizing combustion front during high temperature oxidation reactions.</jats:p>
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spelling	Khelkhal, M Eskin, A Vakhin, A 1755-1307 1755-1315 IOP Publishing http://dx.doi.org/10.1088/1755-1315/282/1/012013 <jats:title>Abstract</jats:title> <jats:p>Heavy oil in-situ combustion process has many benefits among other thermal enhancing oil recovery methods. However, its application is still a complex task due to the irregular propagation of combustion front in the reservoir and its early breaking down. Recent finding regarding in-situ combustion development have led to use catalysts based on transition metals in order to stabilize and enhance combustion front flow. Transition metals was chosen rather than other types of catalysts because of their practical, feasible and economic impact in a wide range of industrial processes.</jats:p> <jats:p>Current solutions to catalytic in-situ combustion are inconsistent with their application in real fields due the problems associated to the injection of catalysts in the reservoir from one side and to the high cost that can be generated from the use of certain type of catalysts. In this context, we studied the effect of copper and manganese tallates in different metal ratios on the oxidation of heavy oil by applying various physical and physical-chemical methods. As a result, we have obtained accurate results demonstrating the potential effect of Cu-Mn tallates in stabilizing combustion front during high temperature oxidation reactions.</jats:p> A comparative study of heavy oil oxidation thermal behavior in the presence of Cu-Mn tallates IOP Conference Series: Earth and Environmental Science
spellingShingle	Khelkhal, M, Eskin, A, Vakhin, A, IOP Conference Series: Earth and Environmental Science, A comparative study of heavy oil oxidation thermal behavior in the presence of Cu-Mn tallates
title	A comparative study of heavy oil oxidation thermal behavior in the presence of Cu-Mn tallates
title_full	A comparative study of heavy oil oxidation thermal behavior in the presence of Cu-Mn tallates
title_fullStr	A comparative study of heavy oil oxidation thermal behavior in the presence of Cu-Mn tallates
title_full_unstemmed	A comparative study of heavy oil oxidation thermal behavior in the presence of Cu-Mn tallates
title_short	A comparative study of heavy oil oxidation thermal behavior in the presence of Cu-Mn tallates
title_sort	a comparative study of heavy oil oxidation thermal behavior in the presence of cu-mn tallates
title_unstemmed	A comparative study of heavy oil oxidation thermal behavior in the presence of Cu-Mn tallates
url	http://dx.doi.org/10.1088/1755-1315/282/1/012013