The effect of reservoir heterogeneity on gas production from hydrate accumulations in the permafrost

The quantity of hydrocarbon gases trapped in natural hydrate accumulations is enormous, leading to significant interest in the evaluation of their potential as an energy source. Large volumes of gas can be readily produced at high rates for long times from methane hydrate accumulations in the permaf...

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Bibliographic Details
Main Authors: Reagan, M. T., Kowalsky, M B., Moridis, G. J., Silpngarmlert, S.
Language:unknown
Published: 2010
Subjects:
54
58
DISSOCIATION
ENERGY SOURCES
ENGINEERS
EVALUATION
GAS HYDRATES
GASES
HYDRATES
HYDROCARBONS
NATURAL GAS
PERMAFROST
PETROLEUM
POROSITY
PRODUCTION
SATURATION
SOLAR PROTONS
STRATIFICATION
Methane hydrate
permafrost
Online Access:http://www.osti.gov/servlets/purl/991961
https://www.osti.gov/biblio/991961
id ftosti:oai:osti.gov:991961
record_format openpolar
spelling ftosti:oai:osti.gov:991961 2023-07-30T04:04:55+02:00 The effect of reservoir heterogeneity on gas production from hydrate accumulations in the permafrost Reagan, M. T. Kowalsky, M B. Moridis, G. J. Silpngarmlert, S. 2010-11-18 application/pdf http://www.osti.gov/servlets/purl/991961 https://www.osti.gov/biblio/991961 unknown http://www.osti.gov/servlets/purl/991961 https://www.osti.gov/biblio/991961 54 58 DISSOCIATION ENERGY SOURCES ENGINEERS EVALUATION GAS HYDRATES GASES HYDRATES HYDROCARBONS NATURAL GAS PERMAFROST PETROLEUM POROSITY PRODUCTION SATURATION SOLAR PROTONS STRATIFICATION 2010 ftosti 2023-07-11T08:49:17Z The quantity of hydrocarbon gases trapped in natural hydrate accumulations is enormous, leading to significant interest in the evaluation of their potential as an energy source. Large volumes of gas can be readily produced at high rates for long times from methane hydrate accumulations in the permafrost by means of depressurization-induced dissociation combined with conventional technologies and horizontal or vertical well configurations. Initial studies on the possibility of natural gas production from permafrost hydrates assumed homogeneity in intrinsic reservoir properties and in the initial condition of the hydrate-bearing layers (either due to the coarseness of the model or due to simplifications in the definition of the system). These results showed great promise for gas recovery from Class 1, 2, and 3 systems in the permafrost. This work examines the consequences of inevitable heterogeneity in intrinsic properties, such as in the porosity of the hydrate-bearing formation, or heterogeneity in the initial state of hydrate saturation. Heterogeneous configurations are generated through multiple methods: (1) through defining heterogeneous layers via existing well-log data, (2) through randomized initialization of reservoir properties and initial conditions, and (3) through the use of geostatistical methods to create heterogeneous fields that extrapolate from the limited data available from cores and well-log data. These extrapolations use available information and established geophysical methods to capture a range of deposit properties and hydrate configurations. The results show that some forms of heterogeneity, such as horizontal stratification, can assist in production of hydrate-derived gas. However, more heterogeneous structures can lead to complex physical behavior within the deposit and near the wellbore that may obstruct the flow of fluids to the well, necessitating revised production strategies. The need for fine discretization is crucial in all cases to capture dynamic behavior during production. Other/Unknown Material Methane hydrate permafrost SciTec Connect (Office of Scientific and Technical Information - OSTI, U.S. Department of Energy)
institution Open Polar
collection SciTec Connect (Office of Scientific and Technical Information - OSTI, U.S. Department of Energy)
op_collection_id ftosti
language unknown
topic 54
58
DISSOCIATION
ENERGY SOURCES
ENGINEERS
EVALUATION
GAS HYDRATES
GASES
HYDRATES
HYDROCARBONS
NATURAL GAS
PERMAFROST
PETROLEUM
POROSITY
PRODUCTION
SATURATION
SOLAR PROTONS
STRATIFICATION
spellingShingle 54
58
DISSOCIATION
ENERGY SOURCES
ENGINEERS
EVALUATION
GAS HYDRATES
GASES
HYDRATES
HYDROCARBONS
NATURAL GAS
PERMAFROST
PETROLEUM
POROSITY
PRODUCTION
SATURATION
SOLAR PROTONS
STRATIFICATION
Reagan, M. T.
Kowalsky, M B.
Moridis, G. J.
Silpngarmlert, S.
The effect of reservoir heterogeneity on gas production from hydrate accumulations in the permafrost
topic_facet 54
58
DISSOCIATION
ENERGY SOURCES
ENGINEERS
EVALUATION
GAS HYDRATES
GASES
HYDRATES
HYDROCARBONS
NATURAL GAS
PERMAFROST
PETROLEUM
POROSITY
PRODUCTION
SATURATION
SOLAR PROTONS
STRATIFICATION
description The quantity of hydrocarbon gases trapped in natural hydrate accumulations is enormous, leading to significant interest in the evaluation of their potential as an energy source. Large volumes of gas can be readily produced at high rates for long times from methane hydrate accumulations in the permafrost by means of depressurization-induced dissociation combined with conventional technologies and horizontal or vertical well configurations. Initial studies on the possibility of natural gas production from permafrost hydrates assumed homogeneity in intrinsic reservoir properties and in the initial condition of the hydrate-bearing layers (either due to the coarseness of the model or due to simplifications in the definition of the system). These results showed great promise for gas recovery from Class 1, 2, and 3 systems in the permafrost. This work examines the consequences of inevitable heterogeneity in intrinsic properties, such as in the porosity of the hydrate-bearing formation, or heterogeneity in the initial state of hydrate saturation. Heterogeneous configurations are generated through multiple methods: (1) through defining heterogeneous layers via existing well-log data, (2) through randomized initialization of reservoir properties and initial conditions, and (3) through the use of geostatistical methods to create heterogeneous fields that extrapolate from the limited data available from cores and well-log data. These extrapolations use available information and established geophysical methods to capture a range of deposit properties and hydrate configurations. The results show that some forms of heterogeneity, such as horizontal stratification, can assist in production of hydrate-derived gas. However, more heterogeneous structures can lead to complex physical behavior within the deposit and near the wellbore that may obstruct the flow of fluids to the well, necessitating revised production strategies. The need for fine discretization is crucial in all cases to capture dynamic behavior during production.
author Reagan, M. T.
Kowalsky, M B.
Moridis, G. J.
Silpngarmlert, S.
author_facet Reagan, M. T.
Kowalsky, M B.
Moridis, G. J.
Silpngarmlert, S.
author_sort Reagan, M. T.
title The effect of reservoir heterogeneity on gas production from hydrate accumulations in the permafrost
title_short The effect of reservoir heterogeneity on gas production from hydrate accumulations in the permafrost
title_full The effect of reservoir heterogeneity on gas production from hydrate accumulations in the permafrost
title_fullStr The effect of reservoir heterogeneity on gas production from hydrate accumulations in the permafrost
title_full_unstemmed The effect of reservoir heterogeneity on gas production from hydrate accumulations in the permafrost
title_sort effect of reservoir heterogeneity on gas production from hydrate accumulations in the permafrost
publishDate 2010
url http://www.osti.gov/servlets/purl/991961
https://www.osti.gov/biblio/991961
genre Methane hydrate
permafrost
genre_facet Methane hydrate
permafrost
op_relation http://www.osti.gov/servlets/purl/991961
https://www.osti.gov/biblio/991961
_version_ 1772816569981730816

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