Intermountain West Energy Sustainability & Transitions Initiative: CO2 Transport and Geologic Storage Modeling Results

Morgan, David; Guinan, Allison; Warner, Travis; Vikara, Derek

doi:10.18141/1890177

Title: Intermountain West Energy Sustainability & Transitions Initiative: CO2 Transport and Geologic Storage Modeling Results

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Abstract

These resources provide the full set of cost modeling results and methods as part of the I-WEST Roadmap Initiative that were used to compile figures as part of the "Pathways to CO2 Utilization and Storage for the Intermountain West Region" chapter. The data were generated from a series of National Energy Technology Laboratory (NETL) cost models and relate to carbon dioxide (CO2) transport costs, CO2 enhanced oil recovery (CO2-EOR) economics, and saline storage economics. These models were used to analyze various business cases given changes in technical and financial assumptions for the I-WEST region as a means to explore how these assumptions influence CO2 transport and storage costs, as well as to evaluate the effect of changing oil prices on the viability of CO2-EOR and the mass of CO2 stored via CO2-EOR. The accompanying report titled "Intermountain West Energy Sustainability & Transitions Initiative: CO2 Transport and Geologic Storage Modeling Results" provides a detailed overview on the models, assumptions, and parameters used in the modeling, as well as example results..

Authors:

Morgan, David; Guinan, Allison; Warner, Travis; Vikara, Derek

National Energy Technology Laboratory

Publication Date:: Mon Oct 31 04:00:00 UTC 2022

Other Number(s):: f2c24fc8-15f2-4933-99da-fa07a29e4d03

DOE Contract Number:: FE0025912

Research Org.:: National Energy Technology Laboratory - Energy Data eXchange; NETL

Sponsoring Org.:: USDOE Office of Fossil Energy (FE)

Subject:: CO2 EOR costs,CO2 Storage Costs,CO2 transportation costs,I-WEST,Intermountain West

OSTI Identifier:: 1890177

DOI:: https://doi.org/10.18141/1890177

Citation Formats


                    Morgan, David, Guinan, Allison, Warner, Travis, and Vikara, Derek. Intermountain West Energy Sustainability & Transitions Initiative: CO2 Transport and Geologic Storage Modeling Results.  United States: N. p., 2022. 
        Web.  doi:10.18141/1890177.

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                    Morgan, David, Guinan, Allison, Warner, Travis, & Vikara, Derek. Intermountain West Energy Sustainability & Transitions Initiative: CO2 Transport and Geologic Storage Modeling Results.  United States.  doi:https://doi.org/10.18141/1890177

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                    Morgan, David, Guinan, Allison, Warner, Travis, and Vikara, Derek. 2022.  
"Intermountain West Energy Sustainability & Transitions Initiative: CO2 Transport and Geologic Storage Modeling Results".  United States.  doi:https://doi.org/10.18141/1890177.  https://www.osti.gov/servlets/purl/1890177. Pub date:Mon Oct 31 04:00:00 UTC 2022

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@article{osti_1890177,

  title        = {Intermountain West Energy Sustainability & Transitions Initiative: CO2 Transport and Geologic Storage Modeling Results},

  author       = {Morgan, David and Guinan, Allison and Warner, Travis and Vikara, Derek},

  abstractNote = {These resources provide the full set of cost modeling results and methods as part of the I-WEST Roadmap Initiative that were used to compile figures as part of the "Pathways to CO2 Utilization and Storage for the Intermountain West Region" chapter. The data were generated from a series of National Energy Technology Laboratory (NETL) cost models and relate to carbon dioxide (CO2) transport costs, CO2 enhanced oil recovery (CO2-EOR) economics, and saline storage economics. These models were used to analyze various business cases given changes in technical and financial assumptions for the I-WEST region as a means to explore how these assumptions influence CO2 transport and storage costs, as well as to evaluate the effect of changing oil prices on the viability of CO2-EOR and the mass of CO2 stored via CO2-EOR. The accompanying report titled "Intermountain West Energy Sustainability & Transitions Initiative: CO2 Transport and Geologic Storage Modeling Results" provides a detailed overview on the models, assumptions, and parameters used in the modeling, as well as example results..},

  doi          = {10.18141/1890177},

  journal      = {},

  number       = ,

  volume       = ,

  place        = {United States},

  year         = {Mon Oct 31 04:00:00 UTC 2022},

  month        = {Mon Oct 31 04:00:00 UTC 2022}

}

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DOI: https://doi.org/10.18141/1890177

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