High Temperature Anode Recycle Blower for Solid Oxide Fuel Cell Email Page
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Performer: Mohawk Innovative Technology, Inc.
Notional proposed axial flow A-RCB.
Notional proposed axial flow A-RCB.
Website: Mohawk Innovative Technology, Inc.
Award Number: FE0027895
Project Duration: 10/01/2016 – 03/31/2018
Total Award Value: $758,855
DOE Share: $598,855
Performer Share: $160,000
Technology Area: Solid Oxide Fuel Cells
Key Technology: Core Technology
Location: Albany, NY

Project Description

The goal of this project is to develop a modular oil-free and high-temperature anode off-gas recycle blower (A-RCB) for solid oxide fuel cell (SOFC) power plants to enhance overall performance and efficiency. Mohawk Innovative Technology, Inc. (MiTi) will review requirements and develop a balance of plant A-RCB to meet the needs of a 100 kilowatt SOFC power plant. Specific objectives of this effort include: (1) the design of a modular and scalable oil-free blower to efficiently recover and recycle high temperature anode off gas from a SOFC system, (2) verification that the technology is suitable for use with SOFC systems and their off-gas products through proof of concept testing, and (3) validation through cost benefit analysis that the technology is economically viable. The overall scope of work includes a definition of requirements for an A-RCB for a selected SOFC system, followed by design, fabrication, and testing of an oil-free and high-temperature capable A-RCB. The design will be implemented in prototype hardware for proof of concept testing followed by benefits assessments of the A-RCB based on research findings.

Project Benefits

The development of an A-RCB by MiTi will overcome the current limitation of ejectors in cost and performance penalties while also addressing the need for a high-temperature recycle blower to help increase overall SOFC efficiency by eliminating the need for an external water supply (by recycling the anode off gas directly to take advantage of the water in the anode recycle stream for the fuel reforming process). MiTi's oil-free technology will result in maintenance-free and long life blowers, superior to the current state of the art. Alternate applications that can take advantage of a high-temperature blower will also be examined, including cathode off gas recirculation blowers and high-temperature syngas blowers.

Contact Information

Federal Project Manager Arun Bose: arun.bose@netl.doe.gov
Technology Manager Shailesh Vora: shailesh.vora@netl.doe.gov
Principal Investigator Hooshang Heshmat: hheshmat@miti.cc


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