Evaluation of carbon dioxide sequestration in Japan with a mathematical model

Akimoto, Keigo; Kotsubo, Hironori; Asami, Takayoshi; Li, Xiaochun; Uno, Motoo; Tomoda, Toshimasa; Ohsumi, Takashi

doi:10.1016/j.energy.2004.03.058

Cited by 15 publications

(4 citation statements)

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“…Akimoto et al applied sourceesink match models to integrally study the optimal development paths of Japanese energy sector, which included CCS projects, under different scenarios of future energy demands and emission reduction requirements (Akimoto et al, 2004(Akimoto et al, , 2007. The models simultaneously considered transporting CO 2 via pipeline and tanker (Akimoto et al, 2004(Akimoto et al, , 2007. Klokk et al applied sourceesink match models to optimally design pipeline networks in Norway (Klokk, 2010).…”

Section: Previous Studies On Models For Ccs Pipeline Network Designmentioning

confidence: 99%

“…B. Poiencot and C. Brown applied sourceesink match models to study the optimal pipeline network design in Florida, USA, while only CO 2 transport costs were taken into consideration (Poiencot and Brown, 2011). Akimoto et al applied sourceesink match models to integrally study the optimal development paths of Japanese energy sector, which included CCS projects, under different scenarios of future energy demands and emission reduction requirements (Akimoto et al, 2004(Akimoto et al, , 2007. The models simultaneously considered transporting CO 2 via pipeline and tanker (Akimoto et al, 2004(Akimoto et al, , 2007.…”

Section: Previous Studies On Models For Ccs Pipeline Network Designmentioning

confidence: 99%

See 1 more Smart Citation

Superstructure-Based Optimal Design of Pipeline Network for CO2 Transport in Large-Scale Carbon Capture and Sequestration

Zhou

Liu

Pistikopoulos

2015

Computer Aided Chemical Engineering

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Section: Previous Studies On Models For Ccs Pipeline Network Designmentioning

confidence: 99%

Section: Previous Studies On Models For Ccs Pipeline Network Designmentioning

confidence: 99%

Superstructure-Based Optimal Design of Pipeline Network for CO2 Transport in Large-Scale Carbon Capture and Sequestration

Zhou

Liu

Pistikopoulos

2015

Computer Aided Chemical Engineering

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“…The model is constructed based on two major assumptions, the "one direction rule" [18] and the "fifteen year rule" [19]. The "one direction rule" requires that one source be only able to match one sink in a selected time horizon, while the geological reservoirs are allowed to accept CO 2 from more than one source if they hold enough storage capacity.…”

Section: Modelmentioning

confidence: 99%

CO2 capture and sequestration source-sink match optimization in Jing-Jin-Ji region of China

Zheng

Gao

et al. 2009

Front. Energy Power Eng. China

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Carbon dioxide capture and sequestration (CCS) is considered to be an important option for climate change mitigation. A key problem for the implementation of CCS technology is the source-sink match design and optimization when considering both economic and environmental requirement. This paper presents a genericoptimization-based model for the strategic planning and design of future CCS source-sink matching. The features and capabilities of the model are illustrated through a detailed case study for the Jing-Jin-Ji (Beijing, Tianjin and Hebei Province) region in China. It shows how the model helps make a compromise in arriving at a strategic decision for CCS source-sink matching by providing the tradeoff frontiers between economic and environmental performance, and the features of match solutions with the best economic performance or with the best environmental performance.

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“…The untraditional technique of isolated CO2 from the atmosphere in industrial factory area by using capture pipeline underground geological and transported to terminals or permanently storage (Fanchi et al, 2016). It coasted 11000 U$/tC/250km (Akimoto et al, 2004). On the other hand, afforestation still appears to be a relatively low-cost approach to reducing CO2 concentrations (Andrew, 1999).…”

Section: Introductionmentioning

confidence: 99%

Carbon content studies in some timber trees grown on the El-kassasin Horticulture Research station.

El-Kader

Gharib

El-Megeed

2021

Egyptian Journal of Agricultural Research

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The objective of this study determination total storage of carbon content weight for three tree species namely Eucalyptus gomphocephala, Casuarina equisetifolia and Casuarina glauca during 2019. On this concerning carbon content decreased in available merchantable portions which decreased carbon content as environment balance region and economic value. E. gomphocephala and C. equisetifolia have recorded total tree biomass values (378.49 and 327.95 kg/tree) respectively which were significantly higher when compared to C. glauca (148.95 kg/tree). On the other hand evaluating total weight of carbon content on merchantable fewer portions had stayed on the same area. E. gomphocephala and C. equisetifolia had significantly enhanced carbon content weight values on merchantable fewer portions (146.45 and 138.34 kg/tree) respectively compared to C. glauca (32.99 kg/tree) more fourfold increment approximately. The investigated study was carried out at the Experimental Farm of El-

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Evaluation of carbon dioxide sequestration in Japan with a mathematical model

Cited by 15 publications

References 1 publication

Superstructure-Based Optimal Design of Pipeline Network for CO2 Transport in Large-Scale Carbon Capture and Sequestration

Superstructure-Based Optimal Design of Pipeline Network for CO2 Transport in Large-Scale Carbon Capture and Sequestration

CO2 capture and sequestration source-sink match optimization in Jing-Jin-Ji region of China

Carbon content studies in some timber trees grown on the El-kassasin Horticulture Research station.

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