Photovoltaic system design: procedures, tools and applications
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Boca Raton
CRC Press, Taylor & Francis Group
[2016]
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis Klappentext |
| Beschreibung: | Includes bibliographical references and index |
| Beschreibung: | xxv, 254 pages |
| ISBN: | 9781482259803 |
Internformat
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| 264 | 1 | |a Boca Raton |b CRC Press, Taylor & Francis Group |c [2016] | |
| 300 | |a xxv, 254 pages | ||
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Datensatz im Suchindex
| _version_ | 1804176254749900800 |
|---|---|
| adam_text | Contents
List of Figures......................................xiii
List of Tables.........................................xv
Preface...............................................xix
Acknowledgements....................................xxiii
About the Author......................................xxv
1 Role of Renewable Energy Technologies in the
Overall Energy Scenario at a Global Level..........1
1.1 Introduction...................................1
1.2 Global Energy-Use Status.......................3
1.2.1 Role of Private Sector..................3
1.3 Resource Mix...................................4
1.3.1 Various Policies to Match Energy Supply
and Demand...............................6
1.3 2 Country-Specific Examples in Brief......6
1.3.3 Security of Energy Supply...............7
1.3.4 Share of Fossil Fuels...................9
1.3.3 Role of Low-Carbon Technologies.........9
1.3.6 Environmental Advantage................10
1.3.7 Energy as an Enabler...................11
1.3.8 Brief Analysis.........................13
1.3.9 Assessment of the Available Energy
Technologies............................14
1.3.91 Importance of ‘Net Energy’.....14
• •*
III
iv ■ Contents
1.3.9.2 Nuclear Energy....................15
1.3.9.3 Other Energy Sources..............15
1.4 Existing Investment Climate for Renewable
Energy Technologies.............................16
1.4.1 Introducing Solar Energy Technologies.....17
1.4.1.1 Dye-Sensitized Solar Cells........17
1.4.2 Concentrated Solar Power Technology.......18
1.4.3 Grid Parity...............................18
1.4.3.1 Taking the Challenge Head-On......19
1.4.3.2 Fast-Declining SPV Price Regime...19
1.5 Projected Worldwide Goals for the Development
and Deployment of Solar Technology..............20
1.5.1 Solar Photovoltaic Leading from the Front.21
1.5.2 Emerging Demand in ME A Region............23
1.6 Key Challenges and Opportunities................26
1.6.1 Primary Global Issues at Present..........26
1.6.2 Markets and Policy Makers Both Play
Crucial Roles.............................28
1.6.3 Five Key National Areas for Action........29
1.6.3.1 Policy Measures...................29
1.7 Summary of Latest Indian Energy Scenario........30
1.7.1 Energy Issues and Challenges..............33
1.7.2 Financial and Fiscal Incentives...........35
References...........................................35
2 Off-Grid and On-Grid PV Applications..................37
2.1 Introduction....................................37
2.2 Commonly Used Off-Grid PV Products..............39
2.2.1 Solar Lantern............................39
2.2.2 Solar Home-Lighting System...............41
2.2.3 Solar Street-Lighting System.............42
2.2.4 Solar Fans...............................44
2.2.5 Solar Garden Lights......................45
2.2.6 Solar Chargers...........................46
2.2.7 Solar Inverter...........................47
Contents ■ v
2.2.7.1 Off-Grid Mode.....................48
2.2.7.2 On-Grid Mode......................48
2.2.8 SPV Water Pumping System..................49
2.2.8.1 Key Solar Water Pumping
Technologies.......................50
2.3 Grid-Connected Rooftop Solar Power Plant........52
2.31 Role of State Governments.................53
2.3.1.1 Institutional Arrangements........54
2.3.2 Brief Outlook on Global PV Rooftop
Market....................................54
2.3.2.1 Rooftop System Description........54
2.3.2.2 Identification and Traceability...56
2.4 Solar Net-Metering..............................57
2.4.1 Cost Analysis.............................59
2.4.2 Key Objectives of the PV Rooftop
Programme.................................60
2.5 Electricity Bill with Solar Net-Metering - A Few
Case-Specific Examples..........................60
2.5.1 Getting a Solar Net-Metering Connection
— Five Convenient Steps...................61
2.5.2 Safety Requirements for Grid-Connected
SPV Systems...............................63
2.5.3 Technical Standards for Connectivity......65
2.5.31 Classification of Projects Based
on Grid Connectivity...............66
2.5.4 Business Models for Grid-Connected
Rooftop and Small Solar Power Plants......68
2.6 Estimated Rooftop Potential for Central
Government Buildings............................69
2.6.1 Current Status of PV Rooftop
Deployment in India.......................70
2.6.1.1 Fiscal and Financial Incentives
for Rooftop PV.....................70
2.6.2 A Few Selective Large-Capacity PV
Rooftop Installations.....................72
vi ■ Contents
2.6.3 Case Study for an 80 kWp PV Rooftop
System at Hero Honda.......................72
2.7 Status of Large-Capacity Grid-Connected
Power Generation.................................77
2.7.1 Capacity Addition under Various Schemes.....78
References.............................................82
3 Solar Radiation Availability on Earth..................83
3.1 Introduction......................................83
3.2 About the Earth..................................84
3.2.1 Key Outcome of Earth’s Rotation............85
3.2.2 Energy Balance........................... 85
3.3 Radiation Emissions............................ 86
3.4 Solar Radiation Terminology.................... 88
3.4.1 Solar Radiation on Different Sources.......90
3.5 Sun-Earth Geometric Relationship.................92
3.5.1 Sun’s Trajectories during Different Seasons.94
3.5.2 Key Factors on Which Insolation Depends.....95
3.5.3 Quantity of Radiation (Absorbed)...........96
3.5.4 Radiation on a Tilted Surface..............98
3.5.5 Concept of In-Plane Radiation..............98
3.5.5.1 Case-Specific Example..............99
3.5.5.2 Empirical Estimation of Solar
Radiation..........................99
3.6 Radiation Measurement Techniques................100
3.6.1 Different Types of Sensors................103
3.6.2 Different Types of Pyranometers...........104
3.6.3 Measurement of Direct Radiation...........105
3.6.3.1 Broad Classifications of
Pyrheliometers....................106
3.6.4 Sunshine Recorder....................... 107
3.6.4.1 Albedometer.......................108
3.6.5 Measurement Accuracy of Solar Radiation.....108
3 7 Overview of Solar Radiation Measurement
Activity in India...............................109
Contents ■ vii
3.7.1 Salient Features of SRRA.................Ill
3.7.1.1 Data Acquisition System..........112
3.7.2 Institutional Collaboration..............113
References...........................................114
4 On-Site-Specific Considerations......................115
4.1 Introduction...................................115
4.2 Efforts at Preliminary Siting of PV Power Plants.... 117
4.2.1 Strategic Approach for Siting............119
4.2.2 Solar Insolation Determination...........121
4.3 Solar PV Selection Model in GIS Environment....124
4.3.1 Criteria Identification..................124
4.3.2 Geographic Data-Specific Software........126
4.3.2.1 Generation of Maps for the Site..127
4.3.3 Exclusion Criteria.......................128
4.3.4 Assigned Choice..........................129
4.3.5 Simple Concept of a Sun Path Diagram.....131
4.4 Role of Geotechnical Investigation in Solar PV
Power Plants...................................131
4.4.1 Case-Specific Example....................133
4.4.1.1 Standard Penetration Test........134
4.4.1.2 Measurement of Water Table.......134
4.4.1.3 Summing Up the Geotechnical
Issues............................134
4.5 Overview of Risks in Solar Projects Prior to
Their Commissioning............................135
References...........................................137
5 PV System Design Considerations.............139
5.1 Introduction.....................139
5.2 Key Attributes of Solar Modules................141
5 2.1 Design and Structure Concept.............142
5.2.2 Industry Ratings of Solar Modules........143
5.2.2.1 Effect of Solar Irradiation......144
5.2.2.2 Effect of Temperature............144
5.2.2.3 Mismatch in Solar Cell/Module....144
viii ■ Contents
5.2.2.4 Mismatch of Series-Connected
Solar Cells.......................145
5.2.2.5 Occurrence of Hotspots in Solar
Modules...........................145
5.3 Current-Voltage Characteristics................146
5.3.1 Availability of Solar Energy.............147
5.3 2 Cost of the System.......................147
5.4 Additional Attributes of a Solar PV System.....148
5.5 System Design-Specific Considerations..........148
5.6 Balance of System..............................150
5.6.1 Matching Issues with System Components...150
5.6.2 Key Design Characteristics...............151
5.6.3 Underlying Attributes of an MPPT
Controller Technology....................153
5.7 Sizing of PV System............................153
5.7.1 Manual Procedures for System Sizing......154
5.7.1.1 Determine the Total Load Current
and Operational Time..............154
5.7.1.2 Add System Losses................156
5.7.1-3 Determine the Solar Irradiation in
Daily Equivalent Sun Hours........156
5.7.1.4 Case-Specific Example............157
5.7.2 Determine Total Solar Array Current
Requirements.............................157
5.7.2.1 Determine Optimum Module
Arrangement for Solar Array.......158
5.7.3 Case-Specific Example....................159
5.7.3.1 Determine Battery Size...........159
5.8 Cost of a PV System............................160
5.8.1 Cost of the Balance of System............l6l
6 Introduction to PV System Sizing Procedures
via Simulation Software.............................163
6.1 Introduction...................................163
6.2 Trends on Advanced Simulation Software
Development for PV Installation................164
Contents ■ ix
6.2.1 Types of Simulation Software..............164
6.2.2 Comparative Features of the Simulation
Software..................................165
6.2.2.1 RETScreen.........................165
6.2.2.2 Easy Solar........................166
6.2.2.3 PV F-Chart........................166
6.2.2.4 Plan4Solar PV.....................167
6.2.2.5 BlueSol...........................167
6.2.2.6 PV Scout 2.0 Premium..............167
6.2.2.7 Transient Systems Simulation......168
6.2.2.8 PV*SOL Expert.....................168
6.2.2.9 PVSYST............................169
6.2.3 Other Simulation Software.................170
6.2.3.1 Solar Advisor Model...............170
6.2.3.2 SMA Off-Grid Configurator.........171
6.2.3.3 SolarPro..........................171
6.2.3.4 PV-Design-Pro.....................172
6.2.3.5 HELIOS 3D.........................173
6.2.3.6 Helioscope........................174
6.2.3-7 HOMER 2...........................174
6.2.3.8 SOLERGO...........................175
6.23.9 PV Design Solmetric...............176
6.3 Comparative Features of Various Simulation
Software........................................176
6.4 Manual and Simulated System Sizing
Procedures......................................176
6.4.1 Importance of Manual and Simulated
Procedures................................179
6.4.1.1 Key Elemental Considerations
Connected with Manual
Procedure......................... 180
6.4.2 Cumulative Output.........................181
6.5 Determination of Peak Variation and Possible
Plant Rating....................................182
6.5.1 Simulating with PVSYST....................183
6.5.1.1 Solar Module......................183
x ■ Contents
6.5.1.2 Power Conditioning Unit.........183
6.5.1.3 Transformer.....................184
6.6 Factors Contributing to Losses in PV Systems..184
References.........................................189
7 Real-Time Application of PV Simulation
Software...........................................191
7.1 Introduction..................................191
7.2 Performance Ratio versus CUF..................192
7.2.1 Levelized Cost of Generation............192
7.2.2 Preventive Maintenance..................194
7.3 CERC Field Assessment Study of PV Power
Plants........................................196
7.3.1 Capacity Utilization Factors as
Determined..............................200
7.3.2 Case Study of Chandrapur Grid-
Connected PV Plant......................205
7.3.2.1 Analysis of the Generation Data
versus the Design Data...........205
7.3.3 Case Study of a KPCL Grid-Connected
PV Power Plant..........................207
7.3.3.1 Temperature-Dependent Effects...209
7.4 Design versus Actual Data Variations for an Off-
Grid PV Power Plant...........................210
7.4.1 Energy Generation from
4 x 25 kWp Units........................210
7.5 International Experiences.....................210
7.6 Field Observational Study of Resolve Solar....213
7.6.1 Key Comments of the Respondents.........216
7.6.2 Criticality of Major PV Plant Components ...218
7.6.2.1 Plant Optimization Measures.....218
References.........................................219
8 Capacity-Building Initiatives for Simulation
Software Outreach..................................221
8.1 Introduction..................................221
8.2 Geographical Regions Generally Targeted.......222
Contents ■ xi
8.2.1 Training and Education Elements for
Dissemination...........................224
8.2.2 Capacity-Building Initiatives Undertaken
under the National PV Water Pumping
Programme................................226
8.3 Third-Party Evaluation of PV Systems...........226
8.3.1 Training Course for ‘Solar Thermal and
PV Field Engineers’ for ITIs.............227
8.3.2 Capacity Building via National-Level
Monitors.................................228
8.3.3 Capacity Building through
Business Meets...........................228
8.3.4 Capacity-Building Initiatives Based on
Software Simulation......................229
8.3.4.1 TRYSYS...........................229
8.3.4.2 HOMER............................229
8.3.43 PVSYST...........................230
8.3.4.4 RETScreen........................230
8.4 Miscellaneous Initiatives at Capacity
Building in India..............................231
8.4.1 Perspectives of Capacity-Building
Initiatives..............................233
8.4.1.1 Impetus on Grid-Connected PV
Power.............................233
References..........................................242
Index
243
Engineering - Mechanical
Introducing a Reliable Green Technology That Can Help Improve System Performance
Solely centered on photovoltaic (PV) system sizing and the tools used for PV system
analysis and design, Photovoltaic System Design: Procedures, Tools and
Applications emphasizes the importance of using solar PV technologies for a number
of end-use applications, and examines growing interest in solar PV-based projects
on a global scale. Written for the system designer/project developer/manufacturer
dedicated to correctly sizing a PV system, the book outlines various aspects of PV
technology, applications and programs. It describes key attributes, system design
requirements, influence on climatic and site-specific parameters, utilization of
simulation procedures and expected performance. The author includes actual case
studies for system designing procedures adopted by various companies and provides
a framework for working through both direct and indirect variables under the actual
system designing phase.
A vital resource essential to your collection, this book:
• Touches upon the role of renewable energy technologies in a holistic
energy scenario
• Makes a clear categorization of off-grid and on-grid PV applications and
discusses advantages and limitations
• Considers the potential of solar radiation availability
• Introduces PV system sizing procedures via the modern use of simulation
software
• Presents an analysis of actual PV power plant sites when designed via the
use of simulation software
• Determines the weak links in a PV system
• Brings out the importance of capacity building initiatives vis-a-vis the available
range of PV simulation software, tools and procedures
Photovoltaic System Design: Procedures, Tools and Applications provides a
clear understanding of the issues that can affect the operation and smooth running
of PV facilities and aids in determining photovoltaic system sizing procedures from a
variety of end-use considerations. The book encompasses civil, mechanical, electrical,
geotechnical and power systems engineering and is useful to industry professionals
involved in solar power plant design.
ISBN: ^70-1-4022-5^00-3
|
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| id | DE-604.BV043576139 |
| illustrated | Not Illustrated |
| indexdate | 2024-07-10T07:29:16Z |
| institution | BVB |
| isbn | 9781482259803 |
| language | English |
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| spelling | Deambi, Suneel Verfasser aut Photovoltaic system design procedures, tools and applications Suneel Deambi Boca Raton CRC Press, Taylor & Francis Group [2016] xxv, 254 pages txt rdacontent n rdamedia nc rdacarrier Includes bibliographical references and index Photovoltaic power systems Design and construction Fotovoltaikanlage (DE-588)7614403-3 gnd rswk-swf Fotovoltaik (DE-588)4121476-6 gnd rswk-swf Fotovoltaik (DE-588)4121476-6 s Fotovoltaikanlage (DE-588)7614403-3 s DE-604 Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=028990881&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=028990881&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext |
| spellingShingle | Deambi, Suneel Photovoltaic system design procedures, tools and applications Photovoltaic power systems Design and construction Fotovoltaikanlage (DE-588)7614403-3 gnd Fotovoltaik (DE-588)4121476-6 gnd |
| subject_GND | (DE-588)7614403-3 (DE-588)4121476-6 |
| title | Photovoltaic system design procedures, tools and applications |
| title_auth | Photovoltaic system design procedures, tools and applications |
| title_exact_search | Photovoltaic system design procedures, tools and applications |
| title_full | Photovoltaic system design procedures, tools and applications Suneel Deambi |
| title_fullStr | Photovoltaic system design procedures, tools and applications Suneel Deambi |
| title_full_unstemmed | Photovoltaic system design procedures, tools and applications Suneel Deambi |
| title_short | Photovoltaic system design |
| title_sort | photovoltaic system design procedures tools and applications |
| title_sub | procedures, tools and applications |
| topic | Photovoltaic power systems Design and construction Fotovoltaikanlage (DE-588)7614403-3 gnd Fotovoltaik (DE-588)4121476-6 gnd |
| topic_facet | Photovoltaic power systems Design and construction Fotovoltaikanlage Fotovoltaik |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=028990881&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=028990881&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT deambisuneel photovoltaicsystemdesignprocedurestoolsandapplications |