Experimental Study on Sensitivity of Complex Lithology Reservoirs

The Huhehu Depression in the Hailaer Oilfield is a low-permeability reservoir with complex lithology, and the reservoir sensitivity has a great influence on the reservoir performance. The sensitivity of the reservoir may cause permanent and irreversible damage of the formation in the course of diffe...

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Veröffentlicht in:	Chemistry and technology of fuels and oils 2020-03, Vol.56 (1), p.96-106
1. Verfasser:	Pengfei, Tang
Format:	Artikel
Sprache:	eng
Schlagworte:	Analysis Chemistry Chemistry and Materials Science Clay minerals Computed tomography Damage prevention Geotechnical Engineering & Applied Earth Sciences Illite Industrial Chemistry/Chemical Engineering Kaolinite Lithofacies Lithology Mineral Resources Oil and gas exploration Oil exploration Oil field equipment Oil fields Oil recovery Permeability Petroleum mining Physical properties Porosity Reservoir performance Sensitivity Smectites Water injection
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container_title	Chemistry and technology of fuels and oils
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creator	Pengfei, Tang
description	The Huhehu Depression in the Hailaer Oilfield is a low-permeability reservoir with complex lithology, and the reservoir sensitivity has a great influence on the reservoir performance. The sensitivity of the reservoir may cause permanent and irreversible damage of the formation in the course of different stages of production, like drilling, completion, well stimulation, downhole operation, water injection, and oil recovery. Therefore, the study on the reservoir sensitivity is important for prevention of damage and developing a reasonable performance program. In this study we investigated the characteristics and sensitivity of the reservoir based on the summarized results of the core and assay analysis, core CT scan observation, physical properties, X-ray diffraction, pore structure, and sensitivity measurements. The results showed that the formation type in the study area was dominated by illite/smectite minerals (30%), followed by illite (56.67%), kaolinite (14.5%), and chlorite (5.5%). The sensitivity flow experiments showed that the reservoir demonstrated a moderately strong alkali sensitivity and moderately weak water and salt sensitivity. The reservoir sensitivity is mainly determined by the type of clay minerals in the reservoir and the pore structure of the reservoir. Based on the study results, we suggest that in oil and gas exploration and development, the effort should be focused on prevention and control of alkali sensitivity, water sensitivity and salt sensitivity, and the targeted measures to protect the reservoir.
doi_str_mv	10.1007/s10553-020-01115-9
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The sensitivity of the reservoir may cause permanent and irreversible damage of the formation in the course of different stages of production, like drilling, completion, well stimulation, downhole operation, water injection, and oil recovery. Therefore, the study on the reservoir sensitivity is important for prevention of damage and developing a reasonable performance program. In this study we investigated the characteristics and sensitivity of the reservoir based on the summarized results of the core and assay analysis, core CT scan observation, physical properties, X-ray diffraction, pore structure, and sensitivity measurements. The results showed that the formation type in the study area was dominated by illite/smectite minerals (30%), followed by illite (56.67%), kaolinite (14.5%), and chlorite (5.5%). The sensitivity flow experiments showed that the reservoir demonstrated a moderately strong alkali sensitivity and moderately weak water and salt sensitivity. The reservoir sensitivity is mainly determined by the type of clay minerals in the reservoir and the pore structure of the reservoir. 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The sensitivity of the reservoir may cause permanent and irreversible damage of the formation in the course of different stages of production, like drilling, completion, well stimulation, downhole operation, water injection, and oil recovery. Therefore, the study on the reservoir sensitivity is important for prevention of damage and developing a reasonable performance program. In this study we investigated the characteristics and sensitivity of the reservoir based on the summarized results of the core and assay analysis, core CT scan observation, physical properties, X-ray diffraction, pore structure, and sensitivity measurements. The results showed that the formation type in the study area was dominated by illite/smectite minerals (30%), followed by illite (56.67%), kaolinite (14.5%), and chlorite (5.5%). The sensitivity flow experiments showed that the reservoir demonstrated a moderately strong alkali sensitivity and moderately weak water and salt sensitivity. The reservoir sensitivity is mainly determined by the type of clay minerals in the reservoir and the pore structure of the reservoir. Based on the study results, we suggest that in oil and gas exploration and development, the effort should be focused on prevention and control of alkali sensitivity, water sensitivity and salt sensitivity, and the targeted measures to protect the reservoir.</abstract><cop>New York</cop><pub>Springer US</pub><doi>10.1007/s10553-020-01115-9</doi><tpages>11</tpages></addata></record>
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subjects	Analysis Chemistry Chemistry and Materials Science Clay minerals Computed tomography Damage prevention Geotechnical Engineering & Applied Earth Sciences Illite Industrial Chemistry/Chemical Engineering Kaolinite Lithofacies Lithology Mineral Resources Oil and gas exploration Oil exploration Oil field equipment Oil fields Oil recovery Permeability Petroleum mining Physical properties Porosity Reservoir performance Sensitivity Smectites Water injection
title	Experimental Study on Sensitivity of Complex Lithology Reservoirs
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