Opportunity Notice for Partners to Assist NETL in Adapting CCSI Tool Set

Funding Opportunity ID: 294089
Opportunity Number: OPPORTUNITY-NOTICE
Opportunity Title: Opportunity Notice for Partners to Assist NETL in Adapting CCSI Tool Set
Opportunity Category: Discretionary
Opportunity Category Explanation:
Funding Instrument Type: Other
Category of Funding Activity: Energy
Category Explanation: Opportunity Notice for Partners to Assist NETL in Adapting CCSI Tool Set
CFDA Number(s): 00.000
Eligible Applicants: Unrestricted (i.e., open to any type of entity above), subject to any clarification in text field entitled “Additional Information on Eligibility”
Additional Information on Eligibility:
Agency Code: DOE-NETL
Agency Name: Department of Energy
National Energy Technology Laboratory
Posted Date: May 25, 2017
Close Date: Jun 21, 2017
Last Updated Date: May 25, 2017
Award Ceiling: $0
Award Floor: $0
Estimated Total Program Funding:
Expected Number of Awards:
Description: Opportunity Notice for Partners to Assist NETL in Adapting CCSI Tool Set **A copy of the entire Opportunity Notice can be found on the NETL Business Page (https://www.netl.doe.gov/business/solicitations/details?title=9be6ddc5-5acc-43d3-bce6-7975c0b17260)** Background A large amount of the research and development of post-combustion carbon capture technology focuses on three main technologies: adsorption, absorption and membranes. Each of these technologies have energy and techno-economic advantages and disadvantages. However, an optimal process may involve the integration of multiple technologies into a single, hybrid, transformative process that is more economical and energy efficient. The challenge of developing this type of process is the integration of rigorous process sub-models into a single framework, where hybrid designs can be evaluated and optimized. The National Energy Technology Laboratory (NETL) has significant expertise in the development of rigorous process models and modeling for the advancement and acceleration of the commercialization of carbon capture process systems. A large part of the effort is the Carbon Capture Simulation Initiative (CCSI) [Reference 1]. The computational tools and multi-scale modeling techniques comprising the CCSI Toolset can be broadly applied for the development of a wide variety of technologies well beyond carbon capture including chemicals production, petroleum refining, natural gas processing and biofuel production.
Version: Synopsis 1

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