Fuel_cell_fuel-proc.bib

@inproceedings{Pukrushpan2004d,
  author = {Pukrushpan, Jay and Stefanopoulou, Anna and Varigonda, Subbarao},
  title = {Control-Oriented Model of Fuel Processor for Hydrogen
	
	Generation in Fuel Cell Applications},
  booktitle = {IFAC Symposium in Adavnces in Automotive Systems,},
  year = {2004},
  address = {Salerno},
  file = {FuelCellPdf/fps_ifac.pdf},
  owner = {siegeljb},
  timestamp = {2009.09.24}
}
@inproceedings{Pukrushpan2004d,
  author = {Pukrushpan, Jay and Stefanopoulou, Anna and Varigonda, Subbarao},
  title = {Control-Oriented Model of Fuel Processor for Hydrogen
	
	Generation in Fuel Cell Applications},
  booktitle = {IFAC Symposium in Adavnces in Automotive Systems,},
  year = {2004},
  address = {Salerno},
  file = {FuelCellPdf/fps_ifac.pdf},
  owner = {siegeljb},
  timestamp = {2009.09.24}
}
@article{Pukrushpan2005,
  author = {Pukrushpan, J. T. and Stefanopoulou, A. G. and Varigonda, S. and
	Pedersen, L. M. and Ghosh, S. and Huei Peng},
  title = {Control of natural gas catalytic partial oxidation for hydrogen generation
	in fuel cell applications},
  journal = {IEEE Transactions on Control Systems Technology},
  year = {2005},
  volume = {13},
  pages = {3--14},
  number = {1},
  month = {Jan. },
  doi = {10.1109/TCST.2004.833649},
  file = {FuelCellPdf/fpsconTCSTsub.pdf},
  owner = {siegeljb},
  timestamp = {2009.02.06}
}
@inproceedings{Pukrushpan2003,
  author = {Pukrushpan, J. T. and Stefanopoulou, A. G. and Varigonda, S. and
	Pedersen, L. M. and Ghosh, S. and Huei Peng},
  title = {Control of natural gas catalytic partial oxidation for hydrogen generation
	in fuel cell applications},
  booktitle = {Proc. American Control Conference the 2003},
  year = {2003},
  volume = {3},
  pages = {2030-2036},
  month = {June },
  doi = {10.1109/ACC.2003.1243373},
  file = {FuelCellPdf/ACC03_INV2902_final.pdf},
  owner = {siegeljb},
  timestamp = {2009.02.06}
}
@inproceedings{Tsourapas2005,
  author = {Tsourapas, V. and Stefanopoulou, A. and Jing Sun},
  title = {Dynamics, optimization and control of a fuel cell based combined
	heat power (CHP) system for shipboard applications},
  booktitle = {Proc. American Control Conference the 2005},
  year = {2005},
  pages = {1993--1998},
  month = {8--10 June },
  doi = {10.1109/ACC.2005.1470262},
  file = {FuelCellPdf/FC_CHPACC05.pdf},
  owner = {siegeljb},
  timestamp = {2009.02.06}
}
@article{Tsourapas2007a,
  author = {Vasilis Tsourapas and Anna G. Stefanopoulou and Jing Sun},
  title = {Model-Based Control of an Integrated Fuel Cell and Fuel Processor
	With Exhaust Heat Recirculation},
  journal = {Control Systems Technology, IEEE Transactions on},
  year = {2007},
  volume = {15},
  pages = {233-245},
  number = {2},
  month = {March },
  abstract = {In this paper, we consider the dynamic and controlled operation of
	an integrated natural gas fuel processor system (FPS), a proton exchange
	membrane fuel cell (PEM-FC), and a catalytic burner (CB). The FC
	provides power based on the electrochemical reaction of hydrogen.
	The FPS generates the hydrogen from natural gas through catalytic
	partial oxidation (CPOX) and the CB provides the energy for preheating
	the FPS inlet flows by burning any excess hydrogen from the FC exhaust.
	The coupling of these three systems poses a challenging optimization
	and control problem. Optimization is performed to generate the air
	and fuel flow intake setpoints to the FPS for various load levels.
	The optimal flow setpoints are used in a static feedforward map that
	ensures maximum efficiency at steady state. Linear quadratic techniques
	are then used to develop a controller to mitigate hydrogen starvation
	in the fuel cell and regulate CPOX reactor temperatures. We show
	in simulations that the designed observer-based feedback controller,
	which relies on temperature measurements of two reactors, speeds
	up the transient response fourfold, as compared to the baseline when
	the static feedforward controller is employed},
  doi = {10.1109/TCST.2006.886431},
  keywords = {catalysis, electrochemistry, exhaust systems, feedback, feedforward,
	fuel processing industries, hydrogen, linear quadratic control, natural
	gas technology, observers, proton exchange membrane fuel cells, transient
	responsecatalytic burner, catalytic partial oxidation, electrochemical
	reaction, exhaust heat recirculation, hydrogen, integrated natural
	gas fuel processor system, linear quadratic techniques, model-based
	control, observer-based feedback control, optimal flow setpoints,
	proton exchange membrane fuel cell, static feedforward control, transient
	response},
  owner = {siegeljb},
  timestamp = {2009.09.22}
}
@article{Tsourapas2009,
  author = {Tsourapas, V. and Jing Sun and Stefanopoulou, A.},
  title = {Incremental Step Reference Governor for Load Conditioning of Hybrid
	Fuel Cell and Gas Turbine Power Plants},
  journal = {Control Systems Technology, IEEE Transactions on},
  year = {2009},
  volume = {17},
  pages = {756-767},
  number = {4},
  month = {July },
  abstract = {A hybrid solid oxide fuel cell and gas turbine (SOFC/GT) system exploits
	the complementary features of the two power plants, where the GT
	recuperates the energy in the SOFC exhaust stream and thereby boosting
	the overall system efficiency. Through model based transient analysis,
	however, it is shown that the intricate coupling dynamics make the
	transient load following very challenging. Power shutdown has been
	observed when the load is changed abruptly in the generator. In this
	work, a novel closed-loop reference governor controller is proposed
	to mitigate the shutdown phenomenon. The reference governor utilizes
	the region of attraction of a reduced order SOFC/GT model to determine
	if an incremental step change is allowable, i.e., it does not cause
	a shutdown. It is shown that with a moderate computational cost,
	the speed of the hybrid power system response can be improved significantly
	compared to the fastest conventional load filter. Several design
	parameters, such as the sampling rate and incremental step-size,
	are also explored to understand the trade-offs between computational
	complexity and performance improvement.},
  doi = {10.1109/TCST.2008.2010554},
  issn = {1063-6536},
  keywords = {closed loop systems, computational complexity, fuel cell power plants,
	gas turbine power stations, hybrid power systems, power station control,
	solid oxide fuel cells, transient analysisSOFC exhaust stream, closed-loop
	reference governor controller, computational complexity, gas turbine
	power plants, hybrid fuel cell power plants, hybrid solid oxide fuel
	cell system, incremental step reference governor, load conditioning,
	load filter, power shutdown, shutdown phenomenon, transient analysis},
  owner = {siegeljb},
  timestamp = {2009.09.22}
}
@article{Tsourapas2009a,
  author = {Vasilis Tsourapas and Jing Sun and Anna Stefanopoulou},
  title = {Control Oriented Analysis of a Hybrid Solid Oxide Fuel Cell and Gas
	Turbine System},
  journal = {Journal of Fuel Cell Science and Technology},
  year = {2009},
  volume = {6},
  pages = {041008},
  number = {4},
  eid = {041008},
  doi = {10.1115/1.3081467},
  keywords = {feedback; fuel cell power plants; gas turbines; open loop systems;
	power generation control; solid oxide fuel cells; transient analysis},
  numpages = {11},
  owner = {siegeljb},
  publisher = {ASME},
  timestamp = {2010.01.06},
  url = {http://link.aip.org/link/?FCT/6/041008/1}
}
@conference{Tsourapas2006,
  author = {Vasilis Tsourapas and Jing Sun and Anna Stefanopoulou},
  title = {Performance Evaluation of a Thermally Integrated Fuel Cell System
	in the Presence of Uncertainties},
  year = {2006},
  volume = {2006},
  number = {42479},
  pages = {291-300},
  publisher = {ASME},
  doi = {10.1115/FUELCELL2006-97164},
  journal = {ASME Conference Proceedings},
  owner = {siegeljb},
  timestamp = {2009.09.22},
  url = {http://link.aip.org/link/abstract/ASMECP/v2006/i42479/p291/s1}
}
@article{VasilisTsourapas2004,
  author = {Tsourapas,Vasilis and Sun, Jing and Stefanopoulou, Anna},
  title = {Modeling and Dynamics of a Fuel Cell Combined Heat Power System for
	
	Marine Applications},
  journal = {IASME Transactions},
  year = {2004},
  volume = {2},
  pages = {288-293},
  number = {1},
  file = {FuelCellPdf/WSEAS_paper_04_FINAL.pdf},
  owner = {siegeljb},
  timestamp = {2009.09.24}
}
@article{Tsourapas2007,
  author = {Tsourapas, V. and Vasilis Tsourapas and Stefanopoulou, A. G. },
  title = {Model-Based Control of an Integrated Fuel Cell and Fuel Processor
	With Exhaust Heat Recirculation},
  journal = {IEEE Transactions on Control Systems Technology},
  year = {2007},
  volume = {15},
  pages = {233--245},
  number = {2},
  month = {March },
  doi = {10.1109/TCST.2006.886431},
  owner = {siegeljb},
  timestamp = {2009.02.06}
}
@inproceedings{Varigonda2003,
  author = {Varigonda,S. and Pukrushpan, J. and Stefanopoulou, A. G.},
  title = {Challenges in Fuel Cell Power Plant Control: The Role of System Level
	Models},
  booktitle = {AIChE Spring Meeting},
  year = {2003},
  file = {FuelCellPdf/aiche31.pdf},
  owner = {siegeljb},
  timestamp = {2009.09.24}
}
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