Simultaneous Hpam/Sds Injection In Heterogeneous/Layered Models

Although lots of experiments have been done in enhanced oil recovery, the number of experiments which consider the effects of local and global heterogeneity on efficiency of enhanced oil recovery based on the polymer-surfactant flooding is low and rarely done. In this research, we have done numerous...

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Main Authors: M. H. Sedaghat, A. Zamani, S. Morshedi, R. Janamiri, M. Safdari, I. Mahdavi, A. Hosseini, A. Hatampour
Format: Text
Language:English
Published: Zenodo 2013
Subjects:
Layered Reservoir
Micromodel
Local Heterogeneity
Polymer-Surfactant Flooding
Enhanced Oil Recovery.
Webb
north slope
Alaska
Online Access:https://dx.doi.org/10.5281/zenodo.1087637
https://zenodo.org/record/1087637
id ftdatacite:10.5281/zenodo.1087637
record_format openpolar
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language English
topic Layered Reservoir
Micromodel
Local Heterogeneity
Polymer-Surfactant Flooding
Enhanced Oil Recovery.
spellingShingle Layered Reservoir
Micromodel
Local Heterogeneity
Polymer-Surfactant Flooding
Enhanced Oil Recovery.
M. H. Sedaghat
A. Zamani
S. Morshedi
R. Janamiri
M. Safdari
I. Mahdavi
A. Hosseini
A. Hatampour
Simultaneous Hpam/Sds Injection In Heterogeneous/Layered Models
topic_facet Layered Reservoir
Micromodel
Local Heterogeneity
Polymer-Surfactant Flooding
Enhanced Oil Recovery.
description Although lots of experiments have been done in enhanced oil recovery, the number of experiments which consider the effects of local and global heterogeneity on efficiency of enhanced oil recovery based on the polymer-surfactant flooding is low and rarely done. In this research, we have done numerous experiments of water flooding and polymer-surfactant flooding on a five spot glass micromodel in different conditions such as different positions of layers. In these experiments, five different micromodels with three different pore structures are designed. Three models with different layer orientation, one homogenous model and one heterogeneous model are designed. In order to import the effect of heterogeneity of porous media, three types of pore structures are distributed accidentally and with equal ratio throughout heterogeneous micromodel network according to random normal distribution. The results show that maximum EOR recovery factor will happen in a situation where the layers are orthogonal to the path of mainstream and the minimum EOR recovery factor will happen in a situation where the model is heterogeneous. This experiments show that in polymer-surfactant flooding, with increase of angles of layers the EOR recovery factor will increase and this recovery factor is strongly affected by local heterogeneity around the injection zone. : {"references": ["Dosher, T.M., Wise, F.A., 1976. Enhanced oil recovery potential. An \nestimate. Paper SPE 5800. Journal of Petroleum Technology 575.", "Mohanty, K.K., Davis, H.T. & Scriven, L.E. 1987. Physics of Oil \nEntrapment in Water-Wet Rock. SPE Res. Eng., 2: 113-128. SPE 9406-\nPA. doi: 10.2118/9406-PA.", "Hallam R.J., Plekenbrock E.J., Abou-Sayed A.S., Garon A.M., Putnam \nT.W., Weggeland M.C., Webb K.J. 1992. Resource Description and \nDevelopment Potential of the Ugnu Reservoir, North Slope, Alaska. SPE \nForm Eval, 7 (3): 211-218. SPE-21779-PA. doi: 10.2118/21779-PA.", "Thomas S., Farouq Ali S.M. 2001. Miceller Flooding and ASP-Chemical \nMethods for Enhanced Oil Recovery. J.Cdn.Pet.Tech, 40 (2).", "Martin, F.D. and Oxley, J.C. 1985. Effect of Various Alkaline Chemicals \non Phase Behavior of Surfactant/Brine/Oil Mixtures. Paper SPE 13575 presented at the International Symposium on Oilfield and Geothermal \nChemistry, Phoenix, AZ, USA, 9-11 April. doi: 10.2118/13575-MS.", "Rekvig, L., Kranenberg, M., Hafskjold, B., Smit, B. 2003. Effect of \nSurfactant Structure on Interfacial Properties. Euro physics Letters, 63 \n(6) 902-907.", "Nelson, R.C., Lawson, J.B., Thigpen, D.R., Stegemeier, G.L. 1984. \nCosurfactant-Enhanced Alkaline Flooding. Paper SPE 12672 presented \nat the SPE Enhanced Oil Recovery Symposium, Tulsa, Oklahoma, 15-18 \nApril. doi: 10.2118/12672-MS.", "Van Poollen, H.K. (1980). Fundamentals of Enhanced Oil Recovery. \nPennWell Books, Tulsa, Oklahoma.", "Emami Meybodi, H., Kharrat, R., Ghazanfari, m. H., Effect of \nHeterogeneity of Layered Reservoirs on Polymer Flooding: An \nExperimental Approach Using Five-Spot Glass Micromodel, SPE \nEuropec/EAGE Annual Conference and Exhibition, Rome, Italy, 9\u201312 \nJune 2008. \n[10] Sedaghat, M.H., Ghazanfari, M.H., Parvazdavani, M., Morshedi, S.. \nExperimental Investigation of Polymer Flooding in Fractures Heavy Oil \nFive Spot Systems, Journal of Energy Resources Technology."]}
format Text
author M. H. Sedaghat
A. Zamani
S. Morshedi
R. Janamiri
M. Safdari
I. Mahdavi
A. Hosseini
A. Hatampour
author_facet M. H. Sedaghat
A. Zamani
S. Morshedi
R. Janamiri
M. Safdari
I. Mahdavi
A. Hosseini
A. Hatampour
author_sort M. H. Sedaghat
title Simultaneous Hpam/Sds Injection In Heterogeneous/Layered Models
title_short Simultaneous Hpam/Sds Injection In Heterogeneous/Layered Models
title_full Simultaneous Hpam/Sds Injection In Heterogeneous/Layered Models
title_fullStr Simultaneous Hpam/Sds Injection In Heterogeneous/Layered Models
title_full_unstemmed Simultaneous Hpam/Sds Injection In Heterogeneous/Layered Models
title_sort simultaneous hpam/sds injection in heterogeneous/layered models
publisher Zenodo
publishDate 2013
url https://dx.doi.org/10.5281/zenodo.1087637
https://zenodo.org/record/1087637
long_lat ENVELOPE(146.867,146.867,-67.867,-67.867)
geographic Webb
geographic_facet Webb
genre north slope
Alaska
genre_facet north slope
Alaska
op_relation https://dx.doi.org/10.5281/zenodo.1087638
op_rights Open Access
Creative Commons Attribution 4.0
https://creativecommons.org/licenses/by/4.0
info:eu-repo/semantics/openAccess
op_rightsnorm CC-BY
op_doi https://doi.org/10.5281/zenodo.1087637
https://doi.org/10.5281/zenodo.1087638
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spelling ftdatacite:10.5281/zenodo.1087637 2023-05-15T17:40:16+02:00 Simultaneous Hpam/Sds Injection In Heterogeneous/Layered Models M. H. Sedaghat A. Zamani S. Morshedi R. Janamiri M. Safdari I. Mahdavi A. Hosseini A. Hatampour 2013 https://dx.doi.org/10.5281/zenodo.1087637 https://zenodo.org/record/1087637 en eng Zenodo https://dx.doi.org/10.5281/zenodo.1087638 Open Access Creative Commons Attribution 4.0 https://creativecommons.org/licenses/by/4.0 info:eu-repo/semantics/openAccess CC-BY Layered Reservoir Micromodel Local Heterogeneity Polymer-Surfactant Flooding Enhanced Oil Recovery. Text Journal article article-journal ScholarlyArticle 2013 ftdatacite https://doi.org/10.5281/zenodo.1087637 https://doi.org/10.5281/zenodo.1087638 2021-11-05T12:55:41Z Although lots of experiments have been done in enhanced oil recovery, the number of experiments which consider the effects of local and global heterogeneity on efficiency of enhanced oil recovery based on the polymer-surfactant flooding is low and rarely done. In this research, we have done numerous experiments of water flooding and polymer-surfactant flooding on a five spot glass micromodel in different conditions such as different positions of layers. In these experiments, five different micromodels with three different pore structures are designed. Three models with different layer orientation, one homogenous model and one heterogeneous model are designed. In order to import the effect of heterogeneity of porous media, three types of pore structures are distributed accidentally and with equal ratio throughout heterogeneous micromodel network according to random normal distribution. The results show that maximum EOR recovery factor will happen in a situation where the layers are orthogonal to the path of mainstream and the minimum EOR recovery factor will happen in a situation where the model is heterogeneous. This experiments show that in polymer-surfactant flooding, with increase of angles of layers the EOR recovery factor will increase and this recovery factor is strongly affected by local heterogeneity around the injection zone. : {"references": ["Dosher, T.M., Wise, F.A., 1976. Enhanced oil recovery potential. An \nestimate. Paper SPE 5800. Journal of Petroleum Technology 575.", "Mohanty, K.K., Davis, H.T. & Scriven, L.E. 1987. Physics of Oil \nEntrapment in Water-Wet Rock. SPE Res. Eng., 2: 113-128. SPE 9406-\nPA. doi: 10.2118/9406-PA.", "Hallam R.J., Plekenbrock E.J., Abou-Sayed A.S., Garon A.M., Putnam \nT.W., Weggeland M.C., Webb K.J. 1992. Resource Description and \nDevelopment Potential of the Ugnu Reservoir, North Slope, Alaska. SPE \nForm Eval, 7 (3): 211-218. SPE-21779-PA. doi: 10.2118/21779-PA.", "Thomas S., Farouq Ali S.M. 2001. Miceller Flooding and ASP-Chemical \nMethods for Enhanced Oil Recovery. J.Cdn.Pet.Tech, 40 (2).", "Martin, F.D. and Oxley, J.C. 1985. Effect of Various Alkaline Chemicals \non Phase Behavior of Surfactant/Brine/Oil Mixtures. Paper SPE 13575 presented at the International Symposium on Oilfield and Geothermal \nChemistry, Phoenix, AZ, USA, 9-11 April. doi: 10.2118/13575-MS.", "Rekvig, L., Kranenberg, M., Hafskjold, B., Smit, B. 2003. Effect of \nSurfactant Structure on Interfacial Properties. Euro physics Letters, 63 \n(6) 902-907.", "Nelson, R.C., Lawson, J.B., Thigpen, D.R., Stegemeier, G.L. 1984. \nCosurfactant-Enhanced Alkaline Flooding. Paper SPE 12672 presented \nat the SPE Enhanced Oil Recovery Symposium, Tulsa, Oklahoma, 15-18 \nApril. doi: 10.2118/12672-MS.", "Van Poollen, H.K. (1980). Fundamentals of Enhanced Oil Recovery. \nPennWell Books, Tulsa, Oklahoma.", "Emami Meybodi, H., Kharrat, R., Ghazanfari, m. H., Effect of \nHeterogeneity of Layered Reservoirs on Polymer Flooding: An \nExperimental Approach Using Five-Spot Glass Micromodel, SPE \nEuropec/EAGE Annual Conference and Exhibition, Rome, Italy, 9\u201312 \nJune 2008. \n[10] Sedaghat, M.H., Ghazanfari, M.H., Parvazdavani, M., Morshedi, S.. \nExperimental Investigation of Polymer Flooding in Fractures Heavy Oil \nFive Spot Systems, Journal of Energy Resources Technology."]} Text north slope Alaska DataCite Metadata Store (German National Library of Science and Technology) Webb ENVELOPE(146.867,146.867,-67.867,-67.867)

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