(EBook PDF) Hybrid Energy System Models 1st edition by Asmae Berrada 012821404X 9780128214046 full chapters

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Product details:

ISBN-10 : 012821404X 

ISBN-13 : 9780128214046

Author: Asmae Berrada 

Hybrid Energy System Models presents a number of techniques to model a large variety of hybrid energy systems in all aspects of sizing, design, operation, economic dispatch, optimization and control. The book’s authors present a number of new methods to model hybrid energy systems and several renewable energy systems, including photovoltaic, solar plus wind and hydropower, energy storage, and combined heat and power systems. With critical modeling examples, global case studies and techno-economic modeling integrated in every chapter, this book is essential to understanding the development of affordable energy systems globally, particularly from renewable resources.

Hybrid Energy System Models 1st Table of contents:

Chapter 1: Introduction to hybrid energy systems
Abstract
1.1: Introduction
1.2: Hybridization: A key solution to energy transition
1.3: Hybrid energy systems with conventional technologies
1.4: Hybrid systems without conventional technologies
1.5: Hybrid systems with concentrated solar power (CSP)
1.6: Conclusion
Chapter 2: Optimization modeling of hybrid DG systems
Abstract
2.1: Introduction
2.2: Classification and types of distributed generation
2.3: Overview of hybrid distributed generation
2.4: Challenges facing hybrid distributed generation
2.5: Hybrid distributed generation system models
2.6: Conclusions
Chapter 3: Off-grid hybrid renewable energy systems and their contribution to sustainable development goals
Abstract
3.1: Introduction
3.2: Types of power systems (based on the connection)
3.3: Off-grid power systems based on renewable energies
3.4: Role of off-grid power systems in attaining sustainable development goals
3.5: Conclusions
Chapter 4: Numerical simulation of hybrid systems based on solid oxide fuel cells
Abstract
4.1: Introduction
4.2: Model description
4.3: Heat management of direct carbon fuel cells
4.4: On-site solar-fuel-to-electricity generation
4.5: Low carbon fuel generation from captured CO2
4.6: Conclusions
Chapter 5: Toward a holistic approach for energy efficient buildings
Abstract
Acknowledgments
5.1: Introduction
5.2: Building construction regulations
5.3: Overview of buildings’ design and practices
5.4: Holistic approach
5.5: Case study
5.6: Conclusions and perspectives
Chapter 6: Performance and energetic modeling of hybrid PV systems coupled with battery energy storage
Abstract
6.1: Introduction
6.2: Brief history of photovoltaic systems
6.3: Photovoltaic cell operation
6.4: PV modules
6.5: Maximal power point tracker
6.6: Efficiency and fill factor
6.7: Concept of peak power and operating temperature
6.8: Photovoltaic technologies based on silicon
6.9: Types of photovoltaic systems
6.10: Advantages and disadvantages of a PV installation
6.11: Energy storage systems
6.12: Operation principle of batteries
6.13: Different types of batteries
6.14: Lead-acid battery
6.15: Behaviors of the battery
6.16: Battery characteristics and models
6.17: Prediction modeling of a photovoltaic system coupled with a battery energy storage
6.18: Conclusions
Chapter 7: Comparison of objective functions on the sizing of hybrid PV and wind energy systems with and without energy storage systems
Abstract
7.1: Introduction
7.2: Theory and methodology
7.3: Results and discussion
7.4: Conclusions
Chapter 8: Economic dispatch of large-scale integrated heat and power systems by application of a novel harmony search approach
Abstract
8.1: Introduction
8.2: Problem formulation
8.3: The proposed improved HS
8.4: Case study and simulation results
8.5: Conclusion
Chapter 9: Hybrid solar-heated anaerobic digestion system for electricity and heat cogeneration
Abstract
9.1: Introduction
9.2: Anaerobic digestion process
9.3: Heat transfer modeling in anaerobic digesters
9.4: Solar thermal energy systems
9.5: Thermodynamic cycles
9.6: Case study
9.7: Conclusions
Chapter 10: Hydrogen production and derivatives from renewable energy systems for a best valorization of sustainable resources
Abstract
10.1: Introduction
10.2: Hydrogen: Properties and fundamental
10.3: Main chemical and oil uses of hydrogen
10.4: The different ways of producing hydrogen by electricity
10.5: Hydrogen in the energy transition
10.6: Hydrogen for transportation and clean mobility
10.7: Hydrogen for the storage of renewable energy
10.8: Conclusion

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