The Experts below are selected from a list of 324 Experts worldwide ranked by ideXlab platform
Kohei Akaku - One of the best experts on this subject based on the ideXlab platform.
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Reservoir Evaluation for the T1 Member of the Takinoue Formation at Tomakomai Candidate Site for CCS Demonstration Project in Japan
Energy Procedia, 2013Co-Authors: Tatsuhiko Matsuura, Jun Mikami, Daisuke Ito, Mitsuru Kamon, Takuya Maeda, Satoru Tomita, Takao Inamori, Naoshi Aoki, Arata Katoh, Kohei AkakuAbstract:Abstract This paper summarizes the results of a Reservoir Evaluation study for the T1 Member of the Takinoue Formation at Tomakomai candidate site for CCS demonstration project in Japan. The Takinoue Formation is modeled with 3D seismic and well data and total of fifty realizations are made by geostatistical method. CO2 injection is simulated with the realizations and it is confirmed that 250,000 ton/year of CO2 can be injected through 3 years injection period and be stored for 1000 years.
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Reservoir Evaluation for the Moebetsu Formation at Tomakomai candidate site for CCS demonstration project in Japan
Energy Procedia, 2013Co-Authors: Daisuke Ito, Tatsuhiko Matsuura, Mitsuru Kamon, Satoru Tomita, Takao Inamori, Arata Katoh, Kohei Akaku, Koji Kawada, Mizue Nishimura, Yoshinori YamanouchiAbstract:Abstract A Reservoir Evaluation study for the Moebetsu Formation at Tomakomai candidate site for carbon dioxide capture and storage (CCS) demonstration project in Japan was conducted. Geological interpretation, such as 3D seismic interpretation, sedimentary facies interpretation, and 3D seismic facies analysis was carried out to clarify the geological structure, sedimentary facies, 3D seismic facies of Moebetsu Formation. Geological model and simulation model were constructed by using the results of geological interpretation. Reservoir simulation study for CCS was carried out using simulation model. As a result, it was confirmed the possibility of injection CO2 at the target amount (2.5×105 tonne/year × 3 years, based on demonstration plan) and it was confirmed that caprock have sufficient seal capacity to CO2 long-term storage. From the results of this study, it is confirmed that Moebetsu Formation has desirable properties as the injection target of CCS Demonstration Project.
Tatsuhiko Matsuura - One of the best experts on this subject based on the ideXlab platform.
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Reservoir Evaluation for the T1 Member of the Takinoue Formation at Tomakomai Candidate Site for CCS Demonstration Project in Japan
Energy Procedia, 2013Co-Authors: Tatsuhiko Matsuura, Jun Mikami, Daisuke Ito, Mitsuru Kamon, Takuya Maeda, Satoru Tomita, Takao Inamori, Naoshi Aoki, Arata Katoh, Kohei AkakuAbstract:Abstract This paper summarizes the results of a Reservoir Evaluation study for the T1 Member of the Takinoue Formation at Tomakomai candidate site for CCS demonstration project in Japan. The Takinoue Formation is modeled with 3D seismic and well data and total of fifty realizations are made by geostatistical method. CO2 injection is simulated with the realizations and it is confirmed that 250,000 ton/year of CO2 can be injected through 3 years injection period and be stored for 1000 years.
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Reservoir Evaluation for the Moebetsu Formation at Tomakomai candidate site for CCS demonstration project in Japan
Energy Procedia, 2013Co-Authors: Daisuke Ito, Tatsuhiko Matsuura, Mitsuru Kamon, Satoru Tomita, Takao Inamori, Arata Katoh, Kohei Akaku, Koji Kawada, Mizue Nishimura, Yoshinori YamanouchiAbstract:Abstract A Reservoir Evaluation study for the Moebetsu Formation at Tomakomai candidate site for carbon dioxide capture and storage (CCS) demonstration project in Japan was conducted. Geological interpretation, such as 3D seismic interpretation, sedimentary facies interpretation, and 3D seismic facies analysis was carried out to clarify the geological structure, sedimentary facies, 3D seismic facies of Moebetsu Formation. Geological model and simulation model were constructed by using the results of geological interpretation. Reservoir simulation study for CCS was carried out using simulation model. As a result, it was confirmed the possibility of injection CO2 at the target amount (2.5×105 tonne/year × 3 years, based on demonstration plan) and it was confirmed that caprock have sufficient seal capacity to CO2 long-term storage. From the results of this study, it is confirmed that Moebetsu Formation has desirable properties as the injection target of CCS Demonstration Project.
Daisuke Ito - One of the best experts on this subject based on the ideXlab platform.
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Reservoir Evaluation for the T1 Member of the Takinoue Formation at Tomakomai Candidate Site for CCS Demonstration Project in Japan
Energy Procedia, 2013Co-Authors: Tatsuhiko Matsuura, Jun Mikami, Daisuke Ito, Mitsuru Kamon, Takuya Maeda, Satoru Tomita, Takao Inamori, Naoshi Aoki, Arata Katoh, Kohei AkakuAbstract:Abstract This paper summarizes the results of a Reservoir Evaluation study for the T1 Member of the Takinoue Formation at Tomakomai candidate site for CCS demonstration project in Japan. The Takinoue Formation is modeled with 3D seismic and well data and total of fifty realizations are made by geostatistical method. CO2 injection is simulated with the realizations and it is confirmed that 250,000 ton/year of CO2 can be injected through 3 years injection period and be stored for 1000 years.
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Reservoir Evaluation for the Moebetsu Formation at Tomakomai candidate site for CCS demonstration project in Japan
Energy Procedia, 2013Co-Authors: Daisuke Ito, Tatsuhiko Matsuura, Mitsuru Kamon, Satoru Tomita, Takao Inamori, Arata Katoh, Kohei Akaku, Koji Kawada, Mizue Nishimura, Yoshinori YamanouchiAbstract:Abstract A Reservoir Evaluation study for the Moebetsu Formation at Tomakomai candidate site for carbon dioxide capture and storage (CCS) demonstration project in Japan was conducted. Geological interpretation, such as 3D seismic interpretation, sedimentary facies interpretation, and 3D seismic facies analysis was carried out to clarify the geological structure, sedimentary facies, 3D seismic facies of Moebetsu Formation. Geological model and simulation model were constructed by using the results of geological interpretation. Reservoir simulation study for CCS was carried out using simulation model. As a result, it was confirmed the possibility of injection CO2 at the target amount (2.5×105 tonne/year × 3 years, based on demonstration plan) and it was confirmed that caprock have sufficient seal capacity to CO2 long-term storage. From the results of this study, it is confirmed that Moebetsu Formation has desirable properties as the injection target of CCS Demonstration Project.
Mitsuru Kamon - One of the best experts on this subject based on the ideXlab platform.
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Reservoir Evaluation for the T1 Member of the Takinoue Formation at Tomakomai Candidate Site for CCS Demonstration Project in Japan
Energy Procedia, 2013Co-Authors: Tatsuhiko Matsuura, Jun Mikami, Daisuke Ito, Mitsuru Kamon, Takuya Maeda, Satoru Tomita, Takao Inamori, Naoshi Aoki, Arata Katoh, Kohei AkakuAbstract:Abstract This paper summarizes the results of a Reservoir Evaluation study for the T1 Member of the Takinoue Formation at Tomakomai candidate site for CCS demonstration project in Japan. The Takinoue Formation is modeled with 3D seismic and well data and total of fifty realizations are made by geostatistical method. CO2 injection is simulated with the realizations and it is confirmed that 250,000 ton/year of CO2 can be injected through 3 years injection period and be stored for 1000 years.
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Reservoir Evaluation for the Moebetsu Formation at Tomakomai candidate site for CCS demonstration project in Japan
Energy Procedia, 2013Co-Authors: Daisuke Ito, Tatsuhiko Matsuura, Mitsuru Kamon, Satoru Tomita, Takao Inamori, Arata Katoh, Kohei Akaku, Koji Kawada, Mizue Nishimura, Yoshinori YamanouchiAbstract:Abstract A Reservoir Evaluation study for the Moebetsu Formation at Tomakomai candidate site for carbon dioxide capture and storage (CCS) demonstration project in Japan was conducted. Geological interpretation, such as 3D seismic interpretation, sedimentary facies interpretation, and 3D seismic facies analysis was carried out to clarify the geological structure, sedimentary facies, 3D seismic facies of Moebetsu Formation. Geological model and simulation model were constructed by using the results of geological interpretation. Reservoir simulation study for CCS was carried out using simulation model. As a result, it was confirmed the possibility of injection CO2 at the target amount (2.5×105 tonne/year × 3 years, based on demonstration plan) and it was confirmed that caprock have sufficient seal capacity to CO2 long-term storage. From the results of this study, it is confirmed that Moebetsu Formation has desirable properties as the injection target of CCS Demonstration Project.
Takao Inamori - One of the best experts on this subject based on the ideXlab platform.
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Reservoir Evaluation for the T1 Member of the Takinoue Formation at Tomakomai Candidate Site for CCS Demonstration Project in Japan
Energy Procedia, 2013Co-Authors: Tatsuhiko Matsuura, Jun Mikami, Daisuke Ito, Mitsuru Kamon, Takuya Maeda, Satoru Tomita, Takao Inamori, Naoshi Aoki, Arata Katoh, Kohei AkakuAbstract:Abstract This paper summarizes the results of a Reservoir Evaluation study for the T1 Member of the Takinoue Formation at Tomakomai candidate site for CCS demonstration project in Japan. The Takinoue Formation is modeled with 3D seismic and well data and total of fifty realizations are made by geostatistical method. CO2 injection is simulated with the realizations and it is confirmed that 250,000 ton/year of CO2 can be injected through 3 years injection period and be stored for 1000 years.
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Reservoir Evaluation for the Moebetsu Formation at Tomakomai candidate site for CCS demonstration project in Japan
Energy Procedia, 2013Co-Authors: Daisuke Ito, Tatsuhiko Matsuura, Mitsuru Kamon, Satoru Tomita, Takao Inamori, Arata Katoh, Kohei Akaku, Koji Kawada, Mizue Nishimura, Yoshinori YamanouchiAbstract:Abstract A Reservoir Evaluation study for the Moebetsu Formation at Tomakomai candidate site for carbon dioxide capture and storage (CCS) demonstration project in Japan was conducted. Geological interpretation, such as 3D seismic interpretation, sedimentary facies interpretation, and 3D seismic facies analysis was carried out to clarify the geological structure, sedimentary facies, 3D seismic facies of Moebetsu Formation. Geological model and simulation model were constructed by using the results of geological interpretation. Reservoir simulation study for CCS was carried out using simulation model. As a result, it was confirmed the possibility of injection CO2 at the target amount (2.5×105 tonne/year × 3 years, based on demonstration plan) and it was confirmed that caprock have sufficient seal capacity to CO2 long-term storage. From the results of this study, it is confirmed that Moebetsu Formation has desirable properties as the injection target of CCS Demonstration Project.