This paper studies a novel control methodology aimed at regulating and tracking turbo machinery synchronous speed and fuel cell mass flow rate of a SOFC/GT hardware simulation facility with the sole use of airflow bypass valves. The hybrid facility under consideration consists of a 120 kW auxiliary power unit gas turbine coupled to a 300 kW SOFC hardware simulator. The hybrid simulator allows testing of a wide variety of fuel cell models under a hardware-in-the-loop configuration. Small changes in fuel cell cathode airflow have shown to have a large impact on system performance. Without simultaneous control of turbine speed via load or auxiliary fuel, fuel cell airflow tracking requires an alternate actuator methodology. The use of bypass valves to control mass flow rate and decouple turbine speed allows for a greater flexibility and feasibility of implementation at the larger scale, where synchronous speeds are required. This work utilizes empirically derived transfer functions (TF) as the system model and applies a fuzzy logic (FL) control algorithm that can be easily incorporated to nonlinear models of direct fired recuperated hybrid plants having similar configurations. This methodology is tested on a SIMULINK/matlab platform for various perturbations of turbine load and fuel cell heat exhaust.
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e-mail: alex.tsai@uscga.edu
e-mail: david.tucker@netl.doe.gov
e-mail: david.c.clippinger@uscga.edu
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December 2011
This article was originally published in
Journal of Fuel Cell Science and Technology
Research Papers
Simultaneous Turbine Speed Regulation and Fuel Cell Airflow Tracking of a SOFC/GT Hybrid Plant With the Use of Airflow Bypass Valves
Alex Tsai,
Alex Tsai
Assistant Professor
e-mail: alex.tsai@uscga.edu
United States Coast Guard Academy Department of Engineering
, McAllister Hall, 27 Mohegan Ave., New London, CT 06320
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David Tucker,
David Tucker
Research Scientist Department of Energy,
e-mail: david.tucker@netl.doe.gov
National Energy Technology Laboratory
, 3610 Collins Ferry Rd., Morgantown, WV 26505
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David Clippinger
David Clippinger
Assistant Professor
e-mail: david.c.clippinger@uscga.edu
United States Coast Guard Academy Department of Engineering
, McAllister Hall, 27 Mohegan Ave., New London, CT 05320
Search for other works by this author on:
Alex Tsai
Assistant Professor
United States Coast Guard Academy Department of Engineering
, McAllister Hall, 27 Mohegan Ave., New London, CT 06320e-mail: alex.tsai@uscga.edu
David Tucker
Research Scientist Department of Energy,
National Energy Technology Laboratory
, 3610 Collins Ferry Rd., Morgantown, WV 26505e-mail: david.tucker@netl.doe.gov
David Clippinger
Assistant Professor
United States Coast Guard Academy Department of Engineering
, McAllister Hall, 27 Mohegan Ave., New London, CT 05320e-mail: david.c.clippinger@uscga.edu
J. Fuel Cell Sci. Technol. Dec 2011, 8(6): 061018 (10 pages)
Published Online: September 30, 2011
Article history
Received:
May 24, 2011
Revised:
June 25, 2011
Online:
September 30, 2011
Published:
September 30, 2011
Citation
Tsai, A., Tucker, D., and Clippinger, D. (September 30, 2011). "Simultaneous Turbine Speed Regulation and Fuel Cell Airflow Tracking of a SOFC/GT Hybrid Plant With the Use of Airflow Bypass Valves." ASME. J. Fuel Cell Sci. Technol. December 2011; 8(6): 061018. https://doi.org/10.1115/1.4004643
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