Modeling of reservoir temperature upon preheating in SAGD wells considering phase change of bitumen

•Properties of oil sands and crude bitumen in Karamay and Alberta are investigated.•Heat transfer considering phase change is proposed to describe process of preheating.•Temperature propagation with latent heat is analytically and numerically predicted. Steam circulation prior to production is usual...

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Published inInternational journal of heat and mass transfer Vol. 144; p. 118650
Main Authors Gao, Yanfang, Chen, Mian, Lin, Botao, Jin, Yan
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 01.12.2019
Elsevier BV
Subjects
Bitumen
Bitumens
Circulation
Gas hydrates
Heat
Heat flux
Heating
High temperature effects
Laboratory tests
Latent heat
Mathematical models
Natural gas
Numerical models
Numerical prediction
Oil field equipment
Oil fields
Oil sand
Oil sands
Phase change
Phase transitions
Preheating
Propagation
Reservoirs
Steam circulation
Switching
Temperature
Temperature
Steam circulation
Oil sand
Preheating
Phase change
Bitumen
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Abstract •Properties of oil sands and crude bitumen in Karamay and Alberta are investigated.•Heat transfer considering phase change is proposed to describe process of preheating.•Temperature propagation with latent heat is analytically and numerically predicted. Steam circulation prior to production is usually employed to establish inter-well thermal communication and create an expected initial steam chamber in the process of bitumen recovery using steam assisted gravity drainage (SAGD). To realistically evaluate the efficiency of steam circulation, and to find the indicator for terminating the steam circulation and switching to SAGD production, modeling of the temperature propagation considering the bitumen-rich oil sand reservoir properties and oilfield operations is required. This study proposed two new modified methodologies, including an analytical model as well as a numerical model, in which the latent heat effect caused by the phase change of bitumen was involved for thermo-phase change coupled analyses. The modeling was conducted for a real SAGD steam circulation project in an oilfield located in Karamay, northwest of China, using oilfield operation parameters and thermo-dynamical properties obtained from laboratory tests. The models can predict the temperature propagation and bitumen phase change behavior in the domain encompassing dual wells. In general, the predicted results obtained from both analytical and numerical approaches agree well with those in published articles in terms of the cooling time derived from temperature falloff tests and inter-well midpoint temperature. The modeling draws major conclusions that the temperature drops rapidly with the distance to wellbore in the fusion zone, but decreases slowly in the solid zone. The heat flux on wellbore exhibits an exponential reduction in the beginning, but ultimately tends to be a constant. The moving speed of phase change interface decreases with injection time, and finally increases up to only a short distance. The inter-well midpoint temperature is heated to exceed the threshold temperature, and the whole inter-well area is ultimately occupied by the fusion zone. These findings not only can provide a criterion for evaluating the efficiency of steam circulation and an indicator for terminating the steam circulation and switching to production, but also the approaches proposed may be used to analyze these heat injection and phase change problems occurring in other types of oil and gas-rich reservoirs like the natural gas hydrate formation.
AbstractList Steam circulation prior to production is usually employed to establish inter-well thermal communication and create an expected initial steam chamber in the process of bitumen recovery using steam assisted gravity drainage (SAGD). To realistically evaluate the efficiency of steam circulation, and to find the indicator for terminating the steam circulation and switching to SAGD production, modeling of the temperature propagation considering the bitumen-rich oil sand reservoir properties and oilfield operations is required. This study proposed two new modified methodologies, including an analytical model as well as a numerical model, in which the latent heat effect caused by the phase change of bitumen was involved for thermo-phase change coupled analyses. The modeling was conducted for a real SAGD steam circulation project in an oilfield located in Karamay, northwest of China, using oilfield operation parameters and thermo-dynamical properties obtained from laboratory tests. The models can predict the temperature propagation and bitumen phase change behavior in the domain encompassing dual wells. In general, the predicted results obtained from both analytical and numerical approaches agree well with those in published articles in terms of the cooling time derived from temperature falloff tests and inter-well midpoint temperature. The modeling draws major conclusions that the temperature drops rapidly with the distance to wellbore in the fusion zone, but decreases slowly in the solid zone. The heat flux on wellbore exhibits an exponential reduction in the beginning, but ultimately tends to be a constant. The moving speed of phase change interface decreases with injection time, and finally increases up to only a short distance. The inter-well midpoint temperature is heated to exceed the threshold temperature, and the whole inter-well area is ultimately occupied by the fusion zone. These findings not only can provide a criterion for evaluating the efficiency of steam circulation and an indicator for terminating the steam circulation and switching to production, but also the approaches proposed may be used to analyze these heat injection and phase change problems occurring in other types of oil and gas-rich reservoirs like the natural gas hydrate formation.
•Properties of oil sands and crude bitumen in Karamay and Alberta are investigated.•Heat transfer considering phase change is proposed to describe process of preheating.•Temperature propagation with latent heat is analytically and numerically predicted. Steam circulation prior to production is usually employed to establish inter-well thermal communication and create an expected initial steam chamber in the process of bitumen recovery using steam assisted gravity drainage (SAGD). To realistically evaluate the efficiency of steam circulation, and to find the indicator for terminating the steam circulation and switching to SAGD production, modeling of the temperature propagation considering the bitumen-rich oil sand reservoir properties and oilfield operations is required. This study proposed two new modified methodologies, including an analytical model as well as a numerical model, in which the latent heat effect caused by the phase change of bitumen was involved for thermo-phase change coupled analyses. The modeling was conducted for a real SAGD steam circulation project in an oilfield located in Karamay, northwest of China, using oilfield operation parameters and thermo-dynamical properties obtained from laboratory tests. The models can predict the temperature propagation and bitumen phase change behavior in the domain encompassing dual wells. In general, the predicted results obtained from both analytical and numerical approaches agree well with those in published articles in terms of the cooling time derived from temperature falloff tests and inter-well midpoint temperature. The modeling draws major conclusions that the temperature drops rapidly with the distance to wellbore in the fusion zone, but decreases slowly in the solid zone. The heat flux on wellbore exhibits an exponential reduction in the beginning, but ultimately tends to be a constant. The moving speed of phase change interface decreases with injection time, and finally increases up to only a short distance. The inter-well midpoint temperature is heated to exceed the threshold temperature, and the whole inter-well area is ultimately occupied by the fusion zone. These findings not only can provide a criterion for evaluating the efficiency of steam circulation and an indicator for terminating the steam circulation and switching to production, but also the approaches proposed may be used to analyze these heat injection and phase change problems occurring in other types of oil and gas-rich reservoirs like the natural gas hydrate formation.
ArticleNumber 118650
Author Gao, Yanfang
Lin, Botao
Jin, Yan
Chen, Mian
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Keywords Temperature
Steam circulation
Oil sand
Preheating
Phase change
Bitumen
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Snippet •Properties of oil sands and crude bitumen in Karamay and Alberta are investigated.•Heat transfer considering phase change is proposed to describe process of...
Steam circulation prior to production is usually employed to establish inter-well thermal communication and create an expected initial steam chamber in the...
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StartPage 118650
SubjectTerms Bitumen
Bitumens
Circulation
Gas hydrates
Heat
Heat flux
Heating
High temperature effects
Laboratory tests
Latent heat
Mathematical models
Natural gas
Numerical models
Numerical prediction
Oil field equipment
Oil fields
Oil sand
Oil sands
Phase change
Phase transitions
Preheating
Propagation
Reservoirs
Steam circulation
Switching
Temperature
Title Modeling of reservoir temperature upon preheating in SAGD wells considering phase change of bitumen
URI https://dx.doi.org/10.1016/j.ijheatmasstransfer.2019.118650
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