Building Integrated Photovoltaic Thermal Systems Fundamentals Designs and Applications 1st Edition by Huiming Yin, Mehdi Zadshir, Frank Pao ISBN 9780128210642 0128210648

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ISBN 10: 0128210648
ISBN 13: 9780128210642
Author: Huiming Yin, Mehdi Zadshir, Frank Pao

Building Integrated Photovoltaic Thermal Systems: Fundamentals, Designs, and Applications presents various applications, system designs, manufacturing, and installation techniques surrounding how to build integrated photovoltaics. This book provides a comprehensive understanding of all system components, long-term performance and testing, and the commercialization of building integrated photovoltaic thermal (BIPVT) systems. By addressing potential obstacles with current photovoltaic (PV) systems, such as efficiency bottlenecks and product heat harvesting, the authors not only cover the fundamentals and design philosophy of the BIPVT technology, but also introduce a hybrid system for building integrated thermal electric roofing.

Topics covered in Building Integrated Photovoltaic Thermal Systems are useful for scientists and engineers in the fields of photovoltaics, electrical and civil engineering, materials science, sustainable energy harvesting, solar energy, and renewable energy production.

• Contains system integration methods supported by industry developments
• Includes real-life examples and functional projects as case studies for comparison
• Covers system design challenges, offering unique solutions

Building Integrated Photovoltaic Thermal Systems Fundamentals Designs and Applications 1st Edition Table of contents:

Chapter 1 Introduction

Abstract

1.1 Background

1.2 Solar energy harvesting methods

1.3 Challenges and opportunities of solar panels

1.4 Building integrated photovoltaic and building integrated photovoltaic thermal systems

1.5 Solar energy industry in the United States and the world

1.6 Scope of this book

1.7 Two building integrated photovoltaic thermal systems

1.8 Case study: Active Energy Building

References

Chapter 2 Fundamentals of BIPVT design and integration

Abstract

2.1 Physics of photovoltaics

2.2 Heat and mass transfer in BIPVT panels

2.3 Energy dynamics and modeling of BIPVT systems

2.4 Life cycle analysis of BIPVT systems

2.5 Case study: Development of a BIPVT panel with a foamed aluminum substrate

References

Chapter 3 Solar cell manufacture and module packaging

Abstract

3.1 Introduction

3.2 Silicon refining process

3.3 Silicon solar cell production

3.4 Latest silicon cell technology and the advancements

3.5 Solar module production

3.6 The hybrid lamination technology

3.7 Quality control and assurance

3.8 Vision and challenges toward future circular manufacture

3.9 Case study 1: The Water and Life Museums, Hemet, California

3.10 Case study 2: Metlife Solar Ring

References

Chapter 4 Production and acceptance of BIPV panels

Abstract

4.1 Introduction

4.2 Material preparation and quality control

4.3 Soldering of solar cells

4.4 Laying up of glass/foil laminates

4.5 Lamination of glass/foil laminates

4.6 Assembly of modules

4.7 Junction boxes assembly

4.8 Quality control standards

4.9 Determining the gel content of the encapsulant (EVA)

4.10 BIPVT products

4.11 Building-integrated photovoltaic projects on building envelopes

4.12 Case study: Natomas parking lot

Chapter 5 Design, development, and applications of BIPVT systems

Abstract

5.1 Introduction

5.2 Building integrated thermal electric roofing system

5.3 Installation projects of the Sunslate building integrated thermal electric roofing system

5.4 Development of the TallSlate building integrated thermal electric roofing system

5.5 Recent development and products of building integrated thermal electric roofing system

5.6 Design and development of building integrated thermal electric roofing system at the research laboratory

5.7 Building integrated thermal electric roofing system applications to energy independent buildings

5.8 BIPVT design and demonstration at the Cherokee home

5.9 Case study 1: Turn an old house into the Beauty at the Beach

5.10 Case study 2: Dover building integrated thermal electric roofing system installation

References

Chapter 6 BIPVT coupling with geothermal systems

Abstract

6.1 Introduction

6.2 Geothermal well design and characterization

6.3 Geothermal well systems

6.4 A novel passive bidirectional BIPVT-geothermal system

6.5 Case study 1: A net–zero energy house at Wisconsin

6.6 Case study 2: BIPV curtain wall building

References

Chapter 7 BIPVT coupling with wind and wave energy

Abstract

7.1 Introduction

7.2 Fundamentals of wind energy harvesting

7.3 Fundamentals of wave energy harvesting

7.4 Design of a PV–wind–wave coupled system

7.5 Remarks for prospective development and applications

7.6 Case study: Wavehouse

References

Chapter 8 BIPVT applications in transportation

Abstract

8.1 Introduction

8.2 Early personal rapid transit systems

8.3 Integration and operation of the Morgantown personal rapid transit

8.4 Challenges and opportunities

8.5 BIPVT for sun powered personal rapid transit

8.6 Perspectives of BIPVT in transportation

8.7 Case Study: Personal Rapid Transit (PRT)

8.8 Remarks for future development and applications

References

Chapter 9 BIPVT applications in farms

Abstract

9.1 Introduction

9.2 Solar powered greenhouse

9.3 Nexus of food-energy-water system

9.4 Future 3D farming

9.5 Case study 1: Thermal and lighting management by BIPV at University of British Columbia

9.6 Case study 2: A greenhouse project at Como Park

9.7 Remarks for prospective development and applications

References

Chapter 10 Perspectives of the current, emerging, and future BIPVT technologies

Abstract

10.1 Introduction

10.2 Current BIPV/BIPVT market and future opportunities

10.3 Emerging thermal management technologies for BIPVT systems

10.4 Smart building with BIPV components

10.5 Circular eco-manufacturing of BIPVT panels

10.6 Case study 1: Austin Sunflower

10.7 Case study 2: Modular manufacture and construction of energy effecient houses by use of sandwich panels

References

Index

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Huiming Yin,Mehdi Zadshir,Frank Pao,Integrated Photovoltaic,Thermal Systems,Applications