Multi-stage and multi-time scale feedback control of linear systems with applications to fuel cells. ([2019])
- Record Type:
- Book
- Title:
- Multi-stage and multi-time scale feedback control of linear systems with applications to fuel cells. ([2019])
- Main Title:
- Multi-stage and multi-time scale feedback control of linear systems with applications to fuel cells
- Further Information:
- Note: Verica Radisavljević-Gajić, Miloš Milanović, Patrick Rose.
- Authors:
- Radisavljević-Gajić, Verica
Milanović, Miloš
Rose, Patrick - Contents:
- Intro; Preface; Contents; Chapter 1: Introduction; 1.1 General Remarks; 1.2 Applications to Other Classes of Dynamic Systems; 1.3 Improved System Robustness, Reliability, and Security; 1.4 Book Organization; 1.5 Notes; Chapter 2: Continuous-Time Two-Stage Feedback Controller Design; 2.1 Two-Stage Design of Linear Feedback Controllers; 2.2 Two-Stage Feedback Design for Systems with Slow and Fast Modes; 2.3 Two-Stage Control of a Hydrogen Gas Reformer Slow-Fast Dynamics; 2.3.1 Hydrogen Gas Reformer Operation and Modeling; 2.3.2 Eigenvalue Assignment for the Hydrogen Gas Reformer 2.3.3 Optimal Slow and Eigenvalue Assigned Fast Subsystems2.4 Two-Stage Feedback Control of a Two-Time-Scale PEM Fuel Cell; 2.4.1 PEM Fuel Cell Dynamics Mathematical Model; 2.4.2 Two-Time-Scale Structure of the PEM Fuel Cell; 2.4.3 PEM Fuel Cell Slow-Fast Two-Stage Controller Design Simulation; 2.5 PEM Fuel Cell Observer Design; 2.6 Notes; Chapter 3: Discrete-Time Two-Stage Feedback Controller Design; 3.1 Discrete-Time Two-Stage Feedback Controller Design; 3.2 Slow-Fast Design for Systems Defined in the Slow Time Scale; 3.2.1 Example: A Power System 3.3 Slow-Fast Design for Systems Defined in the Fast Time Scale3.3.1 Example: A Steam Power System; 3.4 Notes; Chapter 4: Three-Stage Continuous-Time Feedback Controller Design; 4.1 Introduction; 4.2 Three-Stage Design of Continuous-Time Feedback Controllers; 4.3 Three-Stage Three-Time Scale Linear Control Systems; 4.4 Application to a Proton ExchangeIntro; Preface; Contents; Chapter 1: Introduction; 1.1 General Remarks; 1.2 Applications to Other Classes of Dynamic Systems; 1.3 Improved System Robustness, Reliability, and Security; 1.4 Book Organization; 1.5 Notes; Chapter 2: Continuous-Time Two-Stage Feedback Controller Design; 2.1 Two-Stage Design of Linear Feedback Controllers; 2.2 Two-Stage Feedback Design for Systems with Slow and Fast Modes; 2.3 Two-Stage Control of a Hydrogen Gas Reformer Slow-Fast Dynamics; 2.3.1 Hydrogen Gas Reformer Operation and Modeling; 2.3.2 Eigenvalue Assignment for the Hydrogen Gas Reformer 2.3.3 Optimal Slow and Eigenvalue Assigned Fast Subsystems2.4 Two-Stage Feedback Control of a Two-Time-Scale PEM Fuel Cell; 2.4.1 PEM Fuel Cell Dynamics Mathematical Model; 2.4.2 Two-Time-Scale Structure of the PEM Fuel Cell; 2.4.3 PEM Fuel Cell Slow-Fast Two-Stage Controller Design Simulation; 2.5 PEM Fuel Cell Observer Design; 2.6 Notes; Chapter 3: Discrete-Time Two-Stage Feedback Controller Design; 3.1 Discrete-Time Two-Stage Feedback Controller Design; 3.2 Slow-Fast Design for Systems Defined in the Slow Time Scale; 3.2.1 Example: A Power System 3.3 Slow-Fast Design for Systems Defined in the Fast Time Scale3.3.1 Example: A Steam Power System; 3.4 Notes; Chapter 4: Three-Stage Continuous-Time Feedback Controller Design; 4.1 Introduction; 4.2 Three-Stage Design of Continuous-Time Feedback Controllers; 4.3 Three-Stage Three-Time Scale Linear Control Systems; 4.4 Application to a Proton Exchange Membrane Fuel Cell; 4.5 Notes; Chapter 5: Three-Stage Discrete-Time Feedback Controller Design; 5.1 Three-Stage Discrete-Time Linear Feedback Controllers; 5.2 Three-Stage Three-Time Scale Discrete Linear Control Systems 5.3 Future Research TopicsChapter 6: Four-Stage Continuous-Time Feedback Controller Design; 6.1 Introduction; 6.2 Four-Stage Design of Continuous-Time Feedback Controllers; 6.3 Four-Stage Four-Time Scale Linear Control Systems; 6.4 Future Research Topics; Chapter 7: Modeling and System Analysis of PEM Fuel Cells; 7.1 Third-Order Linear Model of a PEM Fuel Cell; 7.1.1 Controllability of the Linear PEM Fuel Cell Model; 7.1.2 System Analysis and Constraints of the PEMFC Model; Steady-State Constraints; Initial Conditions and Time Constraints; 7.2 Third-Order Bilinear PEM Fuel Cell Model 7.2.1 Steady-State PEM Fuel Cell Equilibrium Points7.2.2 Fuel Cell System Stability Analysis; 7.2.3 PEM Fuel Cell Controllability and Observability Analysis; 7.2.4 Simulation Results; 7.3 Greenlight Innovation G60 Station with TP50 PEMFC; 7.3.1 TP50 PEMFC Modeling; 7.3.2 Simulation Results; 7.4 A Fifth-Order Nonlinear PEMFC Model; 7.5 Eight-Order Mathematical Model of a PEMFC Used in Electric Cars; 7.6 Notes; Chapter 8: Control of a Hydrogen Gas Processing System; 8.1 Introduction; 8.2 Full- and Reduced-Order Observer and Optimal Controllers; 8.2.1 Full-Order Observer Design … (more)
- Publisher Details:
- Cham, Switzerland : Springer
- Publication Date:
- 2019
- Extent:
- 1 online resource (xi, 214 pages)
- Subjects:
- 629.8/3
Feedback control systems
Electronic books - Languages:
- English
- ISBNs:
- 9783030103897
3030103897 - Related ISBNs:
- 9783030103880
- Notes:
- Note: Includes bibliographical references and index.
Note: Description based on online resource; title from digital title page (viewed on March 19, 2019). - Access Rights:
- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
- Access Usage:
- Restricted: Printing from this resource is governed by The Legal Deposit Libraries (Non-Print Works) Regulations (UK) and UK copyright law currently in force.
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- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library HMNTS - ELD.DS.388176
- Ingest File:
- 02_379.xml