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Drones in Solar Power Industry Global Market Outlook 2018÷2027 - Single User

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Unique market report provides an incisive and reliable overview of drones (UAVs) in solar power industry for the period 2018 ÷ 2027...

Update: 1Q 2019
Format: 1 file(s) (PDF report) in English language and 1 file(s) with contacts of key industry vendors ready to import in your CRM software
Author: Drone Market WatchTM
Pages: 174
Report production №:
DMWIN38920181290
Subscription: In the report price is included subscription for 1 year period with 4 quarterly updates
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24 hours by e-mail with 100% Money Back Guarantee

  • This first ever made unique and independent, 170+ page report of Drone Market Watch™ analyzes global market for drones (UAVs) application in solar power industry regarding market dynamics, technology characteristics, industry structure, innovations and key industry vendors. Through extensive research and discussions with experts in the industry, Drone Market Watch™ has identified a series of market trends that will impact this market over the coming decade.
    Solar power industry is developing with fast paces in the past decade and at the end of 2018 almost 508 GW cumulative solar PV power capacity is operational at global level. This means more than 2.7 billion solar PV modules are subject to physical wear out and need regular inspections throughout their lifespan. Considering the harsh environmental conditions faced by many solar power plants and the logistical difficulties of panel inspection, it’s clear that facility maintenance is a constant challenge for solar operations. Unmanned aerial vehicles (UAVs) - commonly known as drones - can help provide quicker, effortless and cost-effective monitoring and maintenance for even the largest of solar farms.
    Drones in Solar Power Industry Global Market Outlook 2018 ÷ 2027 is essential reading for you or anyone in with an interest in the rising application and role of drones (UAVs) in solar power industry, explaining how this market will develop over the next ten years. Purchasing this report will aid your company’s ability to recognize important market opportunities and understand the possibilities for investment in this area. For your convenience we offer opportunity for orders with customized report content. Reasons to buy this market report are, but no limited to:
    • The potential of drones (UAVs) application in solar power industry by regions
    • Over 95 charts, maps, figures and tables
    • Contact details of key industry vendors ready for import in your CRM software
    • Historical market data provided from 1997 to 2018 and forecasts until 2027
    • Development scenario of the global drones (UAVs) market in solar power industry until 2027
    • Drone (UAV) unit cost and services cost in solar power industry 2018
    • Regulatory flight policies at global, regional and country level (44 countries) related to the use of drones (UAVs) in solar power industry
    • Expected revenue forecast from drone (UAV) sales and related services over the next 10 years (2018 – 2027)
    • SWOT Analysis
    • Market dynamics comprising main market drivers, restraints and challenges
    • Drone (UAV) vendors active in solar power plant inspection market (hardware manufacturers)
    • Drone (UAV) inspection services and solutions providers (hardware, optics, sensors, software)
    • Key technologies and innovations as main drivers of drones (UAVs) in solar power industry
    • Investment potential and opportunities

    At next pages you will see the full table of content of this report. To order this report just click on the button "ADD TO CART". Table of contents is referential and may vary upon report updates. If you have any other questions or data requests please do not hesitate to call us on ++44 203 60 80 138 or write an e-mail to orders@dronemarketwatch.com

  • FOREWORD 14
    1. METHODOLOGY 15
    1.1. Research Methodology 15
    1.2. Limitations 16
    2. EXECUTIVE SUMMARY 17
    2.1. Introduction 17
    2.2. Market Overview 17
    2.3. Market Forecast Summary 18
    3. MARKET DRIVERS 21
    3.1. Solar Power Plant Inspection 21
    3.2. Environmental Impact Assessment of Solar Power Plants 30
    3.3. Feasibility Analyses, On-Site Solar Power Plant Evaluations and Technical Due Diligence 30
    3.4. Surveillance and Security of Solar Power Plants 31
    3.5. Global Solar Power Market Development. Current State and Development Perspectives to 2027 32
    3.6. DRONE (UAV) GLOBAL FLIGHT REGULATORY FRAMEWORK OVERVIEW 41
    3.6.1. ICAO REGULATIONS 41
    3.6.2. NORTH AMERICA 45
    3.6.2.1. USA 45
    3.6.2.2. Canada 48
    3.6.3. EUROPE 50
    3.6.3.1. EASA - European Level Regulations 50
    3.6.3.2. Austria 55
    3.6.3.3. Belgium 55
    3.6.3.4. Bulgaria 56
    3.6.3.5. Czech Republic 56
    3.6.3.6. Denmark 57
    3.6.3.7. France 58
    3.6.3.8. Germany 59
    3.6.3.9. Greece 60
    3.6.3.10. Hungary 60
    3.6.3.11. Ireland 61
    3.6.3.12. Italy 61
    3.6.3.13. Netherlands 62
    3.6.3.14. Poland 62
    3.6.3.15. Portugal 63
    3.6.3.16. Romania 63
    3.6.3.17. Russia 64
    3.6.3.18. Serbia 64
    3.6.3.19. Slovakia 65
    3.6.3.20. Spain 65
    3.6.3.21. Sweden 66
    3.6.3.22. Switzerland 67
    3.6.3.23. Turkey 69
    3.6.3.24. Ukraine 69
    3.6.3.25. United Kingdom 70
    3.6.4. ASIA - PACIFIC 72
    3.6.4.1. Australia 73
    3.6.4.2. China 74
    3.6.4.3. Hong Kong 74
    3.6.4.4. India 76
    3.6.4.5. Japan 76
    3.6.4.6. South Korea 78
    3.6.4.7. Thailand 79
    3.6.4.8. Taiwan 79
    3.6.5. LATIN AMERICA 80
    3.6.5.1. Brazil 81
    3.6.5.2. Chile 81
    3.6.5.3. Mexico 82
    3.6.6. MIDDLE EAST 83
    3.6.6.1. Egypt 83
    3.6.6.2. Israel 83
    3.6.6.3. Saudi Arabia 84
    3.6.6.4. United Arab Emirates (UAE) 85
    3.6.7. AFRICA 87
    3.6.7.1. Morocco 87
    3.6.7.2. South Africa 88
    4. MARKET ANALYSIS, TRENDS AND FORECASTS 91
    4.1. Drone (UAV) Unit Cost in Solar Power Industry 91
    4.1.1. Drone (UAV) Unit Cost for Solar Power Plant Inspection 91
    4.1.2. Drone (UAV) Unit Cost for Environmental Impact Assessments of Solar Power Plants 92
    4.1.3. Drone (UAV) Unit Cost for Feasibility analyses, On-site Solar Power Plant Evaluations and Technical Due Diligence 92
    4.1.4. Drone (UAV) Unit Cost for Surveillance and Security of Solar Power Plants 93
    4.2. Drone (UAV) Services Cost in Solar Power Industry 93
    4.2.1. Drone (UAV) Services Cost for Solar Power Plant Inspections 93
    4.2.2. Drone (UAV) Services Cost for Environmental Impact Assessments of Solar Power Plants 94
    4.2.3. Drone (UAV) Services Cost for Feasibility analyses, On-site Solar Power Plant Evaluations and Technical Due Diligence 94
    4.2.4. Drone (UAV) Services Cost for Surveillance and Security of Solar Power Plants 95
    4.3. Global Annual Solar Power Plants Inspected by Drones (UAVs) 95
    4.4. Global Revenue of Drones (UAVs) in Solar Power Industry 99
    4.4.1. Global Cumulative Revenue by Segment and Region 99
    4.4.1.1. Solar Power Plant Inspection 100
    4.4.1.2. Environmental Impact Assessment of Solar Power Plant 101
    4.4.1.3. Feasibility Analyses, On-Site Solar Power Plant Evaluation and Technical Due Diligence 102
    4.4.1.4. Surveillance and Security of Solar Power Plants 103
    4.4.2. Global Annual Revenue by Segment and Region 104
    4.4.2.1. Solar Power Plant Inspection 105
    4.4.2.2. Environmental impact assessment of solar power plant 105
    4.4.2.3. Feasibility Analyses, On-Site Solar Power Plant Evaluation and Technical Due Diligence 106
    4.4.2.4. Surveillance and security of solar power plants 107
    5. DRONE (UAV) TECHNOLOGY OVERVIEW 109
    5.1. Brief Drone (UAV) Technology Overview 109
    5.2. Comprehensive Configuration of Drone (UAV) for Inspection of Solar Power Plants and Other Associated Services 109
    5.3. Drone (UAV) Guidance, Navigation and Control Systems 111
    5.4. Photogrammetry and LiDAR 111
    5.5. Data Transmission and Data Acquisition 112
    5.6. Payload (Sensors and Optics) Selection for Inspection of Solar Power Plants 112
    5.7. Constraints for Use of Drones (UAVs) for Solar Power Plant Inspection and Other Associated Services 113
    6. KEY INDUSTRY VENDORS COMPETITIVE LANDSCAPE 115
    6.1. Drone (UAV) Vendors Active in Solar Power Market (15 companies included) 115
    6.2. Drone (UAV) Inspection and Associated Services Providers (25 companies included) 120
    6.3. Other Providers of Drone (UAV) Services Related to Solar Power Industry (12 companies included) 127
    7. KEY INNOVATIONS 132
    8. DRONE (UAV) INTEGRATION WITH INTERNET OF THINGS (IOT) AND SMART CITIES 139
    8.1. Drone (UAV) in Solar Power Sector and Integration with Internet of Things (IOT) 139
    8.2. Drone (UAV) in Solar Power Sector and Integration with Smart Cities 141
    9. SWOT ANALYSIS OF DRONES (UAVs) IN SOLAR POWER INDUSTRY 143
    10. RISK ANALYSIS AND RISK MITIGATION 144
    10.1. Safety Risk and Hazard Risk 144
    10.1.1. Phase I – Safety Hazard Identification. Definition of Safety Hazards 146
    10.1.2. Phase II – Drone (UAV) Safety Risk Assessment 147
    10.1.3. Phase III – Drone (UAV) Safety Risk Mitigation 150
    10.1.4. Phase IV – Drone (UAV) Safety Documentation & Management 151
    10.2. Regulatory Risk 152
    10.3. Social Risk 153
    10.4. Hacker’s (Cyber) Attacks and Theft of Drones (UAVs) 153
    10.5. Insurance protection 155
    11. CONCLUSIONS 157
    12. RECOMMENDATIONS 161
    12.1. Recommendations for Owners and Asset Managers of Solar Power Plants 161
    12.2. Recommendations for Drone (UAV) Inspection Companies Targeting Solar Market 162
    13. LIST OF ABBREVIATIONS 163
    14. COMPANY DIRECTORY 168
    15. REFERENCES 171
    16. DISCLAIMER AND COPYRIGHT 174
  • MAP 1: World Lighting Flashes Map: 2018  25
    MAP 2: Restricted (No Fly) Drone (UAV) Zones in North America: 2018 45
    MAP 3: Restricted (No Fly) Drone (UAV) Zones in Europe: 2018 50
    MAP 4: Restricted (No Fly) Drone (UAV) Zones in Asia - Pacific: 2018 72
    MAP 5: Restricted (No Fly) Drone (UAV) Zones in Latin America: 2018 80
    MAP 6: Restricted (No Fly) Drone (UAV) Zones in South Africa: 2018 89

    Figure 1: Aerial Drone (UAV) Inspection of Solar Power Plant 23
    Figure 2: Aerial Thermography Image of Solar Power Plant 26
    Figure 3: Defect Area in PV Module (Solar Panel) Detected with Drone (UAV) Aerial Thermography 27
    Figure 4: Damage in PV Module (Solar Panel) from Overheat 28

    Chart 1: Global Cumulative Solar Modules Installed and Available for Inspection by Drones (in Million Units): 2018 – 2027; Source: RENEWABLE MARKET WATCH 19
    Chart 2: NYSE Bloomberg Global Solar Energy Index 2018 33
    Chart 3: Global Cumulative Installed Photovoltaic (solar PV) capacity 2000 ÷ 2018 in MW 33
    Chart 4: European annual photovoltaic market forecast 2000 - 2027 (in MW), RENEWABLE MARKET WATCH 35
    Chart 5: Global Rooftop Photovoltaic Development Scenario 2012 - 2027 36
    Chart 6: Top 10 Countries by Installed Cumulative Solar Capacity in 2018 37
    Chart 7: Global Rooftop Photovoltaic Development Scenario by Main World Regions 2012 - 2027 38
    Chart 8: Global annual PV market forecast 2000 - 2027 (in MW), RENEWABLE MARKET WATCH 39
    Chart 9: World Installed Renewable Energy Capacity by 2040 in GW 40
    Chart 10: Global Annual Solar Modules Installed and Available for Inspection by Drones (UAVs) by Region (in Million Units): 2018 – 2027 96
    Chart 11: Global Annual Solar Modules Inspected by Drones (UAVs) by Region (in Million Units): 2018 – 2027 96
    Chart 12: Cumulative Solar Modules Quantified by Country (in Million Units), North America: 2018 97
    Chart 13: Cumulative Solar Modules Quantified by Country (in Million Units), Europe: 2018 98
    Chart 14: Cumulative Solar Modules Quantified by Country (in Million Units), Asia – Pacific: 2018 99
    Chart 15: Global Cumulative Revenue of Drones (UAVs) in Solar Power Industry by Region (in Millions USD): 2018-2027 99
    Chart 16: Global Cumulative Revenue for Drone (UAV) Units and Services for Solar Power Plants by Region (in Millions USD): 2018-2027 100
    Chart 17: Global Cumulative Revenue for Drone (UAV) Units and Services for Environmental Impact Assessment of Solar Power Plants by Region (in Millions USD): 2018-2027 101
    Chart 18: Global Cumulative Revenue for Drone (UAV) Units and Services for Feasibility Analyses, On-Site Solar Power Plant Evaluation and Technical Due Diligence by Region (in Millions USD): 2018-2027 103
    Chart 19: Global Cumulative Revenue for Drone (UAV) Units and Services for Surveillance and Security of Solar Power Plants by Region (in Millions USD): 2018-2027 103
    Chart 20: Global Annual Revenue of Drones (UAVs) in Solar Power Industry by Region (in Millions USD): 2018-2027 105
    Chart 21: Global Annual Revenue for Drone (UAV) Units and Services for Solar Power Plants Inspection by Region (in Millions USD): 2018-2027 105
    Chart 22: Global Annual Revenue for Drone (UAV) Units and Services for Environmental Impact Assessment of Solar Power Plants by Region (in Millions USD): 2018-2027 106
    Chart 23: Global Annual Revenue for Drone (UAV) Units and Services for Feasibility Analyses, On-Site Solar Power Plant Evaluation and Technical Due Diligence by Region (in Millions USD): 2018-2027 107
    Chart 24: Global Annual Revenue for Drone (UAV) Units and Services for Surveillance and Security of Solar Power Plants by Region (in Millions USD): 2018-2027 108
    Chart 25: Drone (UAV) Investment Activity 2012 - 2018 138
    Chart 26: Drone (UAV) Safety Management Process 152

    Table 1: Flight classification of drone (UAV) types in USA 47
    Table 2: Flight classification of drone (UAV) types in Canada 50
    Table 3: Drone (UAV) Risk Categories: EASA 2018 54
    Table 4: Flight classification of drone (UAV) types in Austria 56
    Table 5: Flight classification of drone (UAV) types in Belgium 56
    Table 6: Flight classification of drone (UAV) types in Bulgaria 57
    Table 7: Flight classification of drone (UAV) types in Czech Republic 57
    Table 8: Flight classification of drone (UAV) types in Denmark 58
    Table 9: Flight classification of drone (UAV) types in France 59
    Table 10: Flight classification of drone (UAV) types in Germany 60
    Table 11: Flight classification of drone (UAV) types in Greece 61
    Table 12: Flight classification of drone (UAV) types in Hungary 61
    Table 13: Flight classification of drone (UAV) types in Ireland 62
    Table 14: Flight classification of drone (UAV) types in Italy 62
    Table 15: Flight classification of drone (UAV) types in Netherlands 63
    Table 16: Flight classification of drone (UAV) types in Poland 63
    Table 17: Flight classification of drone (UAV) types in Portugal 64
    Table 18: Flight classification of drone (UAV) types in Romania 64
    Table 19: Flight classification of drone (UAV) types in Russia 65
    Table 20: Flight classification of drone (UAV) types in Serbia 65
    Table 21: Flight classification of drone (UAV) types in Slovakia 66
    Table 22: Flight classification of drone (UAV) types in Spain 66
    Table 23: Flight classification of drone (UAV) types in Sweden 67
    Table 24: Flight classification of drone (UAV) types in Switzerland 69
    Table 25: Flight classification of drone (UAV) types in Turkey 70
    Table 26: Flight classification of drone (UAV) types in Ukraine 70
    Table 27: Flight classification of drone (UAV) types in the United Kingdom 72
    Table 28: Flight classification of drone (UAV) types in Australia 74
    Table 29: Flight classification of drone (UAV) types in China 75
    Table 30: Flight classification of drone (UAV) types in Hong Kong 76
    Table 31: Flight classification of drone (UAV) types in India 77
    Table 32: Flight classification of drone (UAV) types in Japan 78
    Table 33: Flight classification of drone (UAV) types in South Korea 79
    Table 34: Flight classification of drone (UAV) types in Thailand 80
    Table 35: Flight classification of drone (UAV) types in Taiwan 80
    Table 36: Flight classification of drone (UAV) types in Brazil 82
    Table 37: Flight classification of drone (UAV) types in Chile 83
    Table 38: Flight classification of drone (UAV) types in Mexico 83
    Table 39: Flight classification of drone (UAV) types in Egypt 84
    Table 40: Flight classification of drone (UAV) types in Israel 85
    Table 41: Flight classification of drone (UAV) types in Saudi Arabia 85
    Table 42: Flight classification of drone (UAV) types in United Arab Emirates (UAE) 86
    Table 43: Flight classification of drone (UAV) types in Morocco 88
    Table 44: Flight classification of drone (UAV) types in South Africa 89
    Table 45: Drone (UAV) Unit Cost for Solar Power Plant Inspection in 2018 92
    Table 46: Drone (UAV) Unit Cost for Environmental Impact Assessment of Solar Power Plants in 2018 93
    Table 47: Drone (UAV) Unit Cost for Feasibility analyses, On-site Solar Power Plant Evaluation and Technical Due Diligence in 2018 93
    Table 48: Drone (UAV) Unit Cost for Surveillance and Security of Solar Power Plants in 2018 94
    Table 49: Drone (UAV) Services Cost for Solar Power Plant Inspection in 2018 95
    Table 50: Drone (UAV) Services Cost for Environmental Impact Assessment of Solar Power Plants in 2018 95
    Table 51: Drone (UAV) Services Cost for Feasibility analyses, On-site Solar Power Plants Evaluation and Technical Due Diligence in 2018 95
    Table 52: Drone (UAV) Services Cost for Surveillance and Security of Solar Power Plants in 2018 96
    Table 53: Top 10 Early Stage Drone Startups 139
    Table 54: SWOT Analysis of Drones (UAVs) in Solar Power Industry 145
    Table 55: Phases of Drone (UAV) Safety Risk Assessment 147
    Table 56: Drone (UAV) Safety Risk Probability 149
    Table 57: Drone (UAV) Safety Risk Severity 150
    Table 58: Drone (UAV) Safety Risk Matrix I 151
    Table 59: Drone (UAV) Safety Risk Matrix II 151
    Table 60: Drone (UAV) Safety Risk Mitigation 152
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