Subtopic 3E: Advanced Solvents and Solid Sorbents-Based Separation Systems

The summary for the Subtopic 3E: Advanced Solvents and Solid Sorbents-Based Separation Systems Federal Grant is detailed below. It contains information such as the Catalog of Federal Domestic Assistance (CFDA) number, who is eligible for the grant, how much grant money will be awarded, important deadlines, and a sampling of similar government grants. Verify the accuracy of the data FederalGrants.com provides by visiting the webpage noted in the Link to Full Announcement section or by contacting the appropriate person listed in the Grant Announcement Contact section. If these sections are incomplete, please visit the website of the government agency that is offering this grant.

	Federal Grant Title:	Subtopic 3E: Advanced Solvents and Solid Sorbents-Based Separation Systems
	CFDA Number:	81.089
	CFDA Description:	Fossil Energy Research and Development
	Federal Agency Name:	Headquarters
	Category of Funding Activity:	Energy
	Category Explanation:	Information not provided
	Opportunity Category:	Discretionary
	Funding Opportunity Number:	DE-PS26-04NT42249-3E
	Document Type:	Grants Notice
	Funding Instrument Type:	Cooperative Agreement
	Posted Date:	Jul 26, 2004
	Creation Date:	Jul 26, 2004
	Original Closing Date for Applications:	Oct 05, 2004
	Current Closing Date for Applications:	Information not provided
	Archive Date:	Nov 26, 2004
	Expected Number of Awards:	Information not provided
	Estimated Total Program Funding:	Information not provided
	Federal Grant Award Ceiling:	Information not provided
	Federal Grant Award Floor:	Information not provided
	Cost Sharing or Matching Requirement:	Yes

Applicants Eligible for this Grant

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

Information not provided

Grant Description

Program Area of Interest 3: Coal Fuels and Hydrogen Background: The Coal Fuels and Hydrogen program sponsors coal-based research directed toward developing: 1) processes to produce clean liquid transportation fuels and hydrogen; 2) more efficient processes for manufacturing carbon products and chemicals; and 3) advanced separation processes. Overall Program Goals Enhance the Nation apos;s energy security by sponsoring the development of technologies that offer the opportunity to produce affordable, clean liquid transportation fuels and hydrogen from coal. Provide the technical foundation for producing high value carbon products and chemicals from coal. Develop the underlying scientific and engineering principles relating to solid-solid and solid-liquid separations, especially as they are applied to the mining industry. Reduce CO2 and other greenhouse gases from coal-based processes through life cycle engineering. Research Objectives for Program Area of Interest 3 Subtopics Program Area of Interest 3 has seven Subtopics: Subtopic 3A - Hydrogen Storage; Subtopic 3B - Production of High Hydrogen Content Coal - Derived Liquids; Subtopic 3C - Process Intensification; Subtopic 3D - Advanced Water-Gas Shift Membrane Reactor; Subtopic 3E - Advanced Solvents and Solid Sorbents - Based Separation Systems; Subtopic 3F - Advanced Fuels Research; and Subtopic 3G - Advanced Solid Separation Technologies. NOTE: The project narrative for Program Areas of Interest 1, 2 and 3 shall not exceed 30 pages (excluding the cover page and table of contents). Subtopic 3E: Advanced Solvents and Solid Sorbents - Based Separation Systems Funding Opportunity Announcement No. DE-PS26-04NT42249-3E The current commercial technologies that could be used in the hydrogen from coal plant include a separation step based on physical adsorption by liquid solvents to remove H2S and CO2, followed by a PSA step to purify the hydrogen stream by removing the trace impurities with solid adsorbents. In these separations, there is potential to further improve the solvents and adsorbents with the specific aim of adapting them for coal-based H2 production applications with improved system efficiency. These technologies could lower the cost and improve efficiency of hydrogen separation until more advanced technologies, such as membranes, are available. Membrane technologies, except for porous membrane are still in the early research stage. Advanced, solvent separation technology could be an interim advancement to achieve higher performance and less costly approaches to current solvent separation systems. IT IS IMPERATIVE THAT YOU READ THE FUNDING OPPORTUNITY MASTER ANNOUNCEMENT.doc (SEE THE LINK BELOW) FOR PERTINENT INFORMATION (HOW TO PREPARE AN APPLICATION, FUNDING LIMITATIONS, PAGE LIMITATIONS, ETC.) IN ORDER TO SUBMIT AN APPLICATION FOR CONSIDERATION. https://e-center.doe.gov/iips/faopor.nsf/1be0f2271893ba198525644b006bc0be/a32ab5 fbea345d9785256edd0079cb25?OpenDocument

Link to Full Grant Announcement

Visit this URL to view the Opportunity
https://e-center.doe.gov/iips/faopor.nsf/UNID/F0AB2DB766B5731785256EDE000165EB?OpenDocument

Grant Announcement Contact

Contact the DOE Contract Officer with questionsregarding the funding opportunity askew@netl.doe.gov Kenneth Askew

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