Solar PV Power Design Manufacturing and Applications From Sand to Systems 1st Edition by Rabindra Kumar Satpathy, Venkateswarlu Pamuru 0128176276 9780128176276

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Product details:

ISBN-10 :  0128176276 

ISBN-13 : 9780128176276

Author:  Rabindra Kumar Satpathy, Venkateswarlu Pamuru

Solar PV Power: Design, Manufacturing and Applications from Sand to Systems details developments in the solar cell manufacturing process, including information from system design straight through to the entire value chain of Solar PV Manufacturing. In addition, the book includes aspects of ground mounted grid connected solar PV systems and optimization for solar PV plants, economic analyses, and reliability and performance. The advances and processes of solar product technology and reliability, along with the performance of solar PV plants and operational and maintenance aspects with advance diagnostic techniques are also presented, making this an ideal resource.

Solar PV Power: Design, Manufacturing and Applications From Sand to Systems 1st Table of contents:

Chapter 1: Manufacturing of polysilicon
Abstract
1.1: Introduction
1.2: Quartz–the input for polysilicon production
1.3: Polysilicon–basic manufacturing processes
1.4: Alternate methods of polysilicon production
1.5: Global polysilicon manufacturing scenario
Chapter 2: Silicon crystal growth process
Abstract
2.1: Specification/requirement of ingots
2.2: Process of making ingots (CZ and float zone method)
2.3: Process of multicrystalline Si ingot casting
2.4: Equipment used for ingot manufacturing
2.5: Quality testing and reliability
2.6: Manufacturers of Si ingots in the world
2.7: Technology trend of ingots
Chapter 3: Silicon wafer manufacturing process
Abstract
3.1: Specification/requirement of wafers
3.2: Process of wafer making
Slicing process
3.3: Direct wafer process (DWP)
3.4: Kerf loss wafer process by epitaxy
3.5: What is the new trend in wafer manufacturing?
Chapter 4: Making of crystalline silicon solar cells
Abstract
4.1: Introduction
4.2: Basics of solar cell/physics of solar cell
Charge carrier separation
Diffusion
Solar cell I-Vcharacteristics
Resistance effect
Loss mechanisms
Basics of passivation
Key drivers for bifacial solar cells/modules
Advantages
Process flow of HJT
4.9: Equipment used for advanced solar cell manufacturing
4.10: Manufacturers of silicon solar cells and technology trends
Chapter 5: Manufacturing of crystalline silicon solar PV modules
Abstract
5.1: Introduction
Design of a solar PV module
Bypass diodes
Cell to module loss (CTM)
Dimensions
Weight
Cells
Cell dimensions
Glass
Back sheet
Encapsulation
Frame
Cable and connectors
Junction box
Bypass diodes
Electrical data
NOCT/NMOT
PTC rating
Power tolerance
Module efficiency and cell efficiency
Temperature coefficients
Maximum system voltage
Maximum series fuse rating
Design load
Maximum wind speed
Fire safety class
Warranty
Thermal cycling
Humidity-freeze
UV exposure test
Dynamic mechanical load test
Potential induced degradation test
Visual inspection test
Maximum power (Pmax) test
Insulation resistance test
Wet leakage current test
Temperature coefficients test
Nominal operating cell temperature (NCOT/NMOT) test
Outdoor exposure test
Hotspot endurance test
Bypass diode test
Robustness of terminations test
Damp-heat test
Mechanical load test
Hail stone test
HJT solar modules
Chapter 6: Solar PV systems and applications
Abstract
6.1: Introduction
6.2: Different applications of solar PV systems
Chapter 7: Off-grid solar photovoltaic systems
Abstract
7.1: Introduction
7.2: System components of off-grid solar PV systems
Battery capacity
Battery voltage
Battery lifecycle
Discharge/charge rate or C—Rate
Self-discharge
Cut-off voltage
Round trip efficiency
Characteristics
Maximum input current—MPP tracker input
Bidirectional inverter
Connectors
Inverter sizing
Battery sizing
Solar charge controller sizing
Chapter 8: Rooftop and BIPV solar PV systems
Abstract
8.1: Introduction
8.2: Rooftop solar PV systems
8.3: Components of grid-tied rooftop solar PV systems
8.4: Building integrated PV (BIPV) systems
8.5: Design of rooftop and BIPV solar PV systems
8.6: Cost of rooftop solar PV systems
8.7: Reliability of rooftop solar PV system
8.8: Lifecycle cost analysis of rooftop solar PV systems
Chapter 9: Grid-connected solar PV power systems
Abstract
9.1: Introduction
9.2: Components of grid-connected solar PV power systems
9.3: Design of grid-connected solar PV power systems
Site survey
Technoeconomic
Infrastructure logistics
Solar resource data and irradiance assessment
Selection of module and inverter
String length design
Module mounting structure design
Tilt angle
DC to AC ratio
Interrow spacing
Shadow analysis
Making of layout
DC cable design
AC distribution board or LT panel
Energy yield estimation
Uncertainties in solar PV energy yield estimation
Earthing design
Lightning arrester design and connection
Auxiliary power supply—Transformers
Grid connection
Transformer
HT panel
Circuit breakers
Protection, metering, and control cubicles
Lightning arrestors
Isolators and insulators
Weather monitoring station
9.4: Simulation tools for design of grid-connected solar PV power system
9.5: Typical schematic diagram and field application examples of grid-connected solar PV power systems
9.6: Bifacial solar PV systems
Back ground
Basics of bifacial technology
Issues to be sorted out
9.7: Floating solar PV systems
Module mounting structure (floating platform)
9.8: Bench mark cost of ground mounted solar PV systems
Chapter 10: Grid integration, performance, and maintenance of solar PV power systems
Abstract
10.1: Introduction
10.2: AC system requirements for solar PV power system
10.3: Transmission line requirement
10.4: Protection requirements for solar PV power system
10.5: Grid integration of solar PV power system
10.6: Methodology for performance analysis of solar PV power plant
10.7: Performance analysis of solar PV systems and calculations—Typical example
10.8: Reliability of grid-connected solar PV power systems
10.9: O&M aspect of grid-connected solar PV power system

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