Decrease in Reservoir Permeability due to Deposition of Silica Dissolved in Geothermal Injection Water —Numerical Simulation in a Radial Flow System—

Ryuichi Itoi; Michihiro Fukuda; Kenji Jinno; Takushi Yokoyama; Kazzuo Hirowatari; Tsuneto Tomita

doi:10.11367/grsj1979.11.1

Decrease in Reservoir Permeability due to Deposition of Silica Dissolved in Geothermal Injection Water —Numerical Simulation in a Radial Flow System—

Ryuichi Itoi, Michihiro Fukuda, Kenji Jinno, Takushi Yokoyama, Kazzuo Hirowatari, Tsuneto Tomita

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Abstract

A mathematical model to simulate permeability decrease caused by the deposition of silica in a reservoir near an injection well has been developed. Isothermal and steady state water flow is assumed in the reservoir. Sensitivity study has been carried out with the model under injecting geothermal water of 90 Degree C And Of 522 Mg/l Mono-Silicic Acid At A Constant Injection Rate, 60 M³/h. Reservoir Porosity gives serious effect both on the injectivity decrease of the well and on the extention of permeability damaged area due to the silica deposition. Reservoir thickness also gives the effect on the injectivity decrease with time.

Original language	English
Pages (from-to)	1-19
Number of pages	19
Journal	journal of the geothermal research society of japan
Volume	11
Issue number	1
DOIs	https://doi.org/10.11367/grsj1979.11.1
Publication status	Published - 1989

All Science Journal Classification (ASJC) codes

Geophysics

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10.11367/grsj1979.11.1

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abstract = "A mathematical model to simulate permeability decrease caused by the deposition of silica in a reservoir near an injection well has been developed. Isothermal and steady state water flow is assumed in the reservoir. Sensitivity study has been carried out with the model under injecting geothermal water of 90 Degree C And Of 522 Mg/l Mono-Silicic Acid At A Constant Injection Rate, 60 M3/h. Reservoir Porosity gives serious effect both on the injectivity decrease of the well and on the extention of permeability damaged area due to the silica deposition. Reservoir thickness also gives the effect on the injectivity decrease with time.",

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T1 - Decrease in Reservoir Permeability due to Deposition of Silica Dissolved in Geothermal Injection Water —Numerical Simulation in a Radial Flow System—

AU - Itoi, Ryuichi

AU - Fukuda, Michihiro

AU - Jinno, Kenji

AU - Yokoyama, Takushi

AU - Hirowatari, Kazzuo

AU - Tomita, Tsuneto

PY - 1989

Y1 - 1989

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AB - A mathematical model to simulate permeability decrease caused by the deposition of silica in a reservoir near an injection well has been developed. Isothermal and steady state water flow is assumed in the reservoir. Sensitivity study has been carried out with the model under injecting geothermal water of 90 Degree C And Of 522 Mg/l Mono-Silicic Acid At A Constant Injection Rate, 60 M3/h. Reservoir Porosity gives serious effect both on the injectivity decrease of the well and on the extention of permeability damaged area due to the silica deposition. Reservoir thickness also gives the effect on the injectivity decrease with time.

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Decrease in Reservoir Permeability due to Deposition of Silica Dissolved in Geothermal Injection Water —Numerical Simulation in a Radial Flow System—

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