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An apparently appropriate control scheme for PEM fuel cells may actually lead to an inoperable plant when it is connected to other unit operations in a process with recycle streams and energy integration. PEM Fuel Cells with Bio-Ethanol Processor Systems presents a control system design that provides basic regulation of the hydrogen production process with PEM fuel cells. It then goes on to construct a fault diagnosis system to improve plant safety above this control structure.
PEM Fuel Cells with Bio-Ethanol Processor Systems is divided into two parts: the first covers fuel cells and the second discusses plants for hydrogen production from bio-ethanol to feed PEM fuel cells. Both parts give detailed analyses of modeling, simulation, advanced control, and fault diagnosis. They give an extensive, in-depth discussion of the problems that can occur in fuel cell systems and propose a way to control these systems through advanced control algorithms. A significant part of the book is also given over to computer-aided engineering software tools that can be used to evaluate the dynamic performance of the overall plant.
PEM Fuel Cells with Bio-Ethanol Processor Systems is intended for use by researchers and advanced students on chemical, electrical-electronic and mechanical engineering courses in which dynamics and control are incorporated with the traditional steady-state coverage of flowsheet synthesis, engineering economics and optimization.
Inhaltsverzeichnis
From the contents:
Description of PEM Fuel Cells System.- Advanced Control Strategies for Oxygen in the Cathode.- Simulation and Control of Thermal Behavior.- Design of Observers for Fuel Cell.- Fault Diagnosis for Water Management.- Fault Diagnosis Based on the Relative Sensitivities and Fault Tolerant Control.- Fuel Cell Hybrid Systems (FCHS).- Energy Management Strategies for Fuel Cell Hybrid Systems: Part I.- Energy Management Strategies for Fuel Cell Hybrid Systems: Part II.- Control Structure of Integrated Bio-Ethanol Processor for PEMF Fuel Cell.- Control-Oriented Model of Fuel Processor System.- Mathematical Model Implementation for Simulation Purposes.- Plant-Wide Control for Fuel Processor System with PEM: Control Structure Selection and Optimal Sensor Location.- Fault Detectability Index for Optimal Monitoring System Design.
Über den Autor / die Autorin
Marta S. Basualdo
is a researcher for CIFASIS-(CONICET-UNR-UPCAM), Rosario, Argentina. She is also a professor for the Chemical and Electric Engineering Departments of FRRo-UTN and she leads the Computer Aided Process Engineering Group (CAPEG).
Diego Feroldi
is a researcher for CIFASIS-(CONICET-UNR-UPCAM), Rosario, Argentina. He is also a professor in the Computer Science Department at FCEIA-UNR.
Rachid Outbib
works in the Laboratoire des Sciences de l'Information et des Systèmes at the Domaine Universitaire de Saint Jérôme, Marseille, France.
Zusammenfassung
An apparently appropriate control scheme for PEM fuel cells may actually lead to an inoperable plant when it is connected to other unit operations in a process with recycle streams and energy integration.
PEM Fuel Cells with Bio-Ethanol Processor Systems
presents a control system design that provides basic regulation of the hydrogen production process with PEM fuel cells. It then goes on to construct a fault diagnosis system to improve plant safety above this control structure.
PEM Fuel Cells with Bio-Ethanol Processor Systems
is divided into two parts: the first covers fuel cells and the second discusses plants for hydrogen production from bio-ethanol to feed PEM fuel cells. Both parts give detailed analyses of modeling, simulation, advanced control, and fault diagnosis. They give an extensive, in-depth discussion of the problems that can occur in fuel cell systems and propose a way to control these systems through advanced control algorithms. A significant part of the book is also given over to computer-aided engineering software tools that can be used to evaluate the dynamic performance of the overall plant.
PEM Fuel Cells with Bio-Ethanol Processor Systems
is intended for use by researchers and advanced students on chemical, electrical-electronic and mechanical engineering courses in which dynamics and control are incorporated with the traditional steady-state coverage of flowsheet synthesis, engineering economics and optimization.
