Europe Energy Harvesting Market Forecast 2020-2028

Europe Energy Harvesting Market Forecast 2020-2028

KEY FINDINGS
The energy harvesting market in Europe is predicted to reach a CAGR of 9.52% over the forecasted period, 2020-2028. A large number of renewable energy and energy harvesting projects are undertaken by EU nation-states. The projects are in the building and construction sector, smart homes, manufacturing sector, offshore wind, and ocean and tidal wave. The EU parliament’s initiative towards growing investments in sustainable energy resources and increasing renewable energy resources are influencing the market positively.

MARKET INSIGHTS
The European energy harvesting market is further segregated into the market regions of Belgium, France, Germany, Poland, the UK, Russia, Italy, and the rest of Europe. Russia is one of the largest electric power producers of the world, but does not implement smart grid elements on a large scale. Russia’s power system has taken significant steps towards modernization in recent times. Russia’s EuroSibEnergy has announced a total budget of USD 200 million for a modernization program. Belgium has a huge energy harvesting potential. The largest energy storage battery of its kind has been commissioned in Belgium. In Poland, the GDP has increased eightfold over 30 years and made huge progress in providing electricity. Poland’s economic growth led to its success in adapting its energy sector and industry to the European Union’s strict environmental standards. In Spain, power generation has increased by 0.5%. However, Spain plans to rebuild its energy infrastructure by 2020. The government is targeting to generate over 20% of the total energy by 2017 through renewable sources of energy.

COMPETITIVE INSIGHTS
Laird Technologies, Schneider Electric, Siemens AG, Enocean GmbH, Honeywell International Inc., etc. are some of the renowned companies operating in the market.

Our report offerings include:
• Explore key findings of the overall market
• Strategic breakdown of market dynamics (Drivers, Restraints, Opportunities, Challenges)
• Market forecasts for a minimum of 9 years, along with 3 years of historical data for all segments, sub-segments, and regions
• Market Segmentation cater to a thorough assessment of key segments with their market estimations
• Geographical Analysis: Assessments of the mentioned regions and country-level segments with their market share
• Key analytics: Porter's Five Forces Analysis, Vendor Landscape, Opportunity Matrix, Key Buying Criteria, etc.
• Competitive landscape is the theoretical explanation of the key companies based on factors, market share, etc.
• Company profiling: A detailed company overview, product/services offered, SCOT analysis, and recent strategic developments


1. Research Scope & Methodology
1.1. Study Objectives
1.2. Scope Of Study
1.3. Methodology
1.4. Assumptions & Limitations
2. Executive Summary
2.1. Market Size & Estimates
2.2. Market Overview
3. Market Dynamics
3.1. Development Of Energy Harvesting
3.2. Market Definition
3.3. Key Drivers
3.3.1. Growth Of Smart Cities Fuels Growth Of Sensors
3.3.2. Technology Advancement In Manufacturing Industries
3.3.3. Iot Implementation For Building Automation
3.4. Key Restraints
3.4.1. High Initial Costs For Deployment Of Ehs
3.4.2. Low Adoption In Developing Countries Due To High Prices
3.4.3. Lack Of Awareness About Energy Harvesting
4. Key Analytics
4.1. Key Investment Insights
4.2. Porter’s Five Force Analysis
4.2.1. Buyer Power
4.2.2. Supplier Power
4.2.3. Substitution
4.2.4. New Entrants
4.2.5. Industry Rivalry
4.3. Opportunity Matrix
4.4. Vendor Landscape
4.5. Key Buying Criteria
4.5.1. Device Efficiency
4.5.2. Cost
4.5.3. Viability
4.5.4. Applications And Effectiveness
5. Market By Source
5.1. Light
5.1.1. Solar Energy
5.1.2. Infrared Energy
5.1.3. Uv Energy
5.2. Mechanical
5.2.1. Pressure
5.2.2. Vibration
5.3. Electromagnetic/Rf
5.3.1. Near Field
5.3.2. Far Field
5.4. Thermal
5.5. Others
6. Market By System
6.1. Electrodynamic
6.2. Photovoltaic
6.3. Thermoelectric
6.4. Piezoelectric
6.5. Rf Transducers
6.6. Electromagnetic Transducers
7. Market By Application
7.1. Building And Home Automation
7.2. Consumer Electronics
7.3. Industrial Application
7.4. Transportation
7.5. Security & Defense
8. Geographical Analysis
8.1. Europe
8.1.1. United Kingdom
8.1.2. Germany
8.1.3. France
8.1.4. Italy
8.1.5. Russia
8.1.6. Belgium
8.1.7. Poland
8.1.8. Rest Of Europe
9. Company Profiles
9.1. Abb Limited
9.2. Convergence Wireless
9.3. Cymbet Corporation
9.4. Enocean Gmbh
9.5. Fujitsu Limited
9.6. Green Teg
9.7. G24i Power Ltd
9.8. Mouser Electronics, Inc.
9.9. Honeywell International Inc.
9.10. Microchip Technology
9.11. Laird Technology
9.12. Schneider Electric
9.13. Siemens Ag
9.14. Stmicroelectronics N.V.
9.15. Texas Instrument Incorporated
List Of Tables
Table 1: Energy Harvesting Market Snapshot
Table 2: Europe Energy Harvesting Market, By Source, Historical Years, 2016-2019 (In $ Million)
Table 3: Europe Energy Harvesting Market, By Source, Forecast Years, 2020-2028 (In $ Million)
Table 4: Europe Energy Harvesting Market, By Light, Historical Years, 2016-2019 (In $ Million)
Table 5: Europe Energy Harvesting Market, By Light, Forecast Years, 2020-2028 (In $ Million)
Table 6: Europe Energy Harvesting Market, By Mechanical, Historical Years, 2016-2019 (In $ Million)
Table 7: Europe Energy Harvesting Market, By Mechanical, Forecast Years, 2020-2028 (In $ Million)
Table 8: Europe Energy Harvesting Market, By Electromagnetic/Rf, Historical Years, 2016-2019 (In $ Million)
Table 9: Europe Energy Harvesting Market, By Electromagnetic/Rf, Forecast Years, 2020-2028 (In $ Million)
Table 10: Europe Energy Harvesting Market, By System, Historical Years, 2016-2019 (In $ Million)
Table 11: Europe Energy Harvesting Market, By System, Forecast Years, 2020-2028 (In $ Million)
Table 12: Pros And Cons Of Photovoltaic Panels
Table 13: Glimpse Of Deployment Of Photovoltaic Systems In Application Sectors
Table 14: Advantages And Disadvantages Of Thermoelectric Transducers/Generators
Table 15: Advantages And Disadvantages Of Piezoelectric Transducers
Table 16: Applications Of Energy Harvesting Through Piezoelectric Material
Table 17: Europe Energy Harvesting Market, By Application, Historical Years, 2016-2019 (In $ Million)
Table 18: Europe Energy Harvesting Market, By Application, Forecast Years, 2020-2028 (In $ Million)
Table 19: Europe Energy Harvesting Market, By Country, Historical Years, 2016-2019 (In $ Million)
Table 20: Europe Energy Harvesting Market, By Country, Forecast Years, 2020-2028 (In $ Million)
Table 21: Four Pathways For Energy Transition In France
List Of Figures
Figure 1: Key Investment Insights
Figure 2: Porter’s Five-force Analysis
Figure 3: Opportunity Matrix
Figure 4: Vendor Landscape
Figure 5: Key Buying Criteria
Figure 6: Europe Energy Harvesting Market, Growth Potential, By Source, In 2019
Figure 7: Europe Energy Harvesting Market, By Light, 2020-2028 (In $ Million)
Figure 8: Europe Energy Harvesting Market, By Solar Energy, 2020-2028 (In $ Million)
Figure 9: Europe Energy Harvesting Market, By Infrared, 2020-2028 (In $ Million)
Figure 10: Europe Energy Harvesting Market, By Uv Energy, 2020-2028 (In $ Million)
Figure 11: Europe Energy Harvesting Market, By Mechanical, 2020-2028 (In $ Million)
Figure 12: Europe Energy Harvesting Market, By Pressure, 2020-2028 (In $ Million)
Figure 13: Europe Energy Harvesting Market, By Vibration, 2020-2028 (In $ Million)
Figure 14: Europe Energy Harvesting Market, By Electromagnetic/Rf, 2020-2028 (In $ Million)
Figure 15: Europe Energy Harvesting Market, By Near Field, 2020-2028 (In $ Million)
Figure 16: Europe Energy Harvesting Market, By Far Field, 2020-2028 (In $ Million)
Figure 17: Europe Energy Harvesting Market, By Thermal, 2020-2028 (In $ Million)
Figure 18: Europe Energy Harvesting Market, By Others, 2020-2028 (In $ Million)
Figure 19: Europe Energy Harvesting Market, Growth Potential, By System, In 2019
Figure 20: Europe Energy Harvesting Market, By Electrodynamic, 2020-2028 (In $ Million)
Figure 21: Europe Energy Harvesting Market, By Photovoltaic, 2020-2028 (In $ Million)
Figure 22: Europe Energy Harvesting Market, By Thermoelectric, 2020-2028 (In $ Million)
Figure 23: Europe Energy Harvesting Market, By Piezoelectric, 2020-2028 (In $ Million)
Figure 24: Europe Energy Harvesting Market, By Rf Transducers, 2020-2028 (In $ Million)
Figure 25: Europe Energy Harvesting Market, By Electromagnetic Transducers, 2020-2028 (In $ Million)
Figure 26: Europe Energy Harvesting Market, Growth Potential, By Application, In 2019
Figure 27: Europe Energy Harvesting Market, By Building And Home Automation, 2020-2028 (In $ Million)
Figure 28: Europe Energy Harvesting Market, By Consumer Electronics, 2020-2028 (In $ Million)
Figure 29: Europe Energy Harvesting Market, By Industrial Application, 2020-2028 (In $ Million)
Figure 30: Europe Energy Harvesting Market, By Transportation, 2020-2028 (In $ Million)
Figure 31: Europe Energy Harvesting Market, By Security & Defense, 2020-2028 (In $ Million)
Figure 32: Europe Energy Harvesting Market, Regional Outlook, 2019 & 2028 (In %)
Figure 33: United Kingdom Energy Harvesting Market, 2020-2028 (In $ Million)
Figure 34: Germany Energy Harvesting Market, 2020-2028 (In $ Million)
Figure 35: France Energy Harvesting Market, 2020-2028 (In $ Million)
Figure 36: Italy Energy Harvesting Market, 2020-2028 (In $ Million)
Figure 37: Russia Energy Harvesting Market, 2020-2028 (In $ Million)
Figure 38: Belgium Energy Harvesting Market, 2020-2028 (In $ Million)
Figure 39: Poland Energy Harvesting Market, 2020-2028 (In $ Million)
Figure 40: Rest Of Europe Energy Harvesting Market, 2020-2028 (In $ Million)

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