Europe IoT in Renewable Energy Market is expected to grow from USD 2.43 Billion in 2021 to cross USD 5.76 Billion by 2029, with a CAGR of more than 11.4% between the forecast period of 2021 and 2029. The Europe IoT in renewable energy is segmented by Solution (Analytic Software, Hardware Platform, Service, Connectivity), by Applications (Pipeline, Refineries, Grid Control, Digital Oilfield, Others), by End-Use (Oil & Gas, Solar, Wind, Others) and by Region (UK, Germany, France, Italy, Spain, Russia, Others).To know about the Research Methodology :- Request Free Sample Report The report includes the analysis of impact of COVID-19 lock-down on the revenue of market leaders, followers, and disrupters. Since lock down was implemented differently in different regions and countries, impact of same is also different by regions and segments. The report has covered the current short term and long term impact on the market, same will help decision makers to prepare the outline for short term and long term strategies for companies by region. Maximize Market Research, a global market research firm with a dedicated team of specialists and data has carried out extensive research about the current Europe IoT in Renewable Energy Market outlook. The report encompasses the Europe IoT in Renewable Energy Market by different segments and region, providing the in-depth analysis of the overall industry ecosystem, useful for taking the informed strategic decision by the key stakeholders in the industry. Importantly, the report delivers forecasts and share of the market, further giving an insight into the market dynamics, and future opportunities that might exist in the Europe IoT in Renewable Energy Market. The driving forces, as well as considerable restraints, have been explained in depth. In addition to this, competitive landscape describing the strategic growth of the competitors have been taken into consideration for enhancing market know-how of our clients and at the same time explain Europe IoT in Renewable Energy Market positioning of competitors. The transition to a smart, secure, flexible and sustainable energy system is no longer a choice for Europe; it is more of a responsibility. At the same time, this transition shows a real economic opportunity, bringing new investments, jobs, and growth further empowering consumers to participate actively in the market and benefit through new technologies. The electricity system is one such example as it is becoming more decentralized and more decarbonized, whereas there is a need to make it more digitalized in Europe to keep the electricity supply competitive and affordable. IoT is considered to be one of the enablers of the next industrial revolution and Europe is focusing on these changes. It is being fuelled by the advancement of digital technologies, as well as changing how companies engage across business activities as well as how people interact with their environment. The IoT’s disruptive nature needs the assessment of the requirements for all the future deployment present across the digital value chain in numerous industries and many application areas. The expansion of renewable energy and the decentralization energy sector especially the power generation that has the ability to create huge changes and meet up with the challenges of the IoT devices. Smart grids are being made by the government to allow a flexible reaction to power fluctuations is looked into on an urgent basis considering the growth in demand. IoT technology help to pool and control power sources (generation, storage) and sinks (load, storage). IoT devices also have the ability to manage the distribution of electricity based on real-time data and situational availability thus boosting the Europe IoT in Renewable Energy Market. Resilient, reliable, efficient and seamless energy and electrical power flow form some of the most essential parts to energize and power the services of smart cities in Europe especially the UK, such as smart hospitals, smart buildings, smart factories, smart traffic, and transportations. All of these smart services are expected to function without interruptions by the use of smart energy and electrical power grids in Europe. Solar is one of the fastest-growing renewable energy sources in the world, with an increase in worldwide capacity by an average of 40 percent every year. The rise in demand along with improvement in related services is some of the key driving factors for the growth of Europe IoT in Renewable Energy Market. The objective of the report is to present comprehensive Europe IoT in Renewable Energy Market including all the stakeholders of the industry. The past and current status of the industry with forecasted market size and trends are presented in the report with analysis of complicated data in simple language. The report covers all the aspects of industry with dedicated study of key players that includes market leaders, followers and new entrants by region. PORTER, SVOR, PESTEL analysis with the potential impact of micro-economic factors by region on the market have been presented in the report. External as well as internal factors that are supposed to affect the business positively or negatively have been analyzed, which will give clear futuristic view of the industry to the decision makers. The report also helps in understanding Europe IoT in Renewable Energy Market North America for Asia Pacific dynamics, structure by analyzing the market segments, and project the Europe IoT in Renewable Energy Market North America for Asia Pacific size. Clear representation of competitive analysis of key players by type, price, financial position, product portfolio, growth strategies, and regional presence in the North America for Asia Pacific make the report investor’s guide.
Europe IoT in Renewable Energy Market Scope: Inquiry Before Buying
Europe IoT in Renewable Energy Market By Solution:
o Analytic Software o Hardware Platform o Service o ConnectivityEurope IoT in Renewable Energy Market By Application:
o Pipeline o Refineries o Grid Control o Digital Oilfield o OthersEurope IoT in Renewable Energy Market By End-use:
o Oil & Gas o Solar o Wind o OthersEurope IoT in Renewable Energy Market Key Players
• AGT International • Maven Systems • Northwest Analytics • Davra Networks • Intel Corporation • PV Tech • Algo Engines • S2E Technologies Inc. • Flutura • Cisco • AT&T • 3E • IBM • SAP • Symboticware • General Electric •Actility S.A. • Altair Engineering, Inc. • Capgemini Services SAS • Gemalto N.V. • Gemino s.r.l. Frequently Asked Questions: 1. What is the growth rate of Europe IoT in Renewable Energy Market? Ans: The Global Europe IoT in Renewable Energy Market is growing at a CAGR of 11.4% during forecasting period 2022-2029. 2. What is scope of the Europe IoT in Renewable Energy market report? Ans: Global Europe IoT in Renewable Energy Market report helps with the PESTEL, PORTER, COVID-19 Impact analysis, Recommendations for Investors & Leaders, and market estimation of the forecast period. 3. Who are the key players in Europe IoT in Renewable Energy market? Ans: The important key players in the Global Europe IoT in Renewable Energy Market are – AGT International, Maven Systems, Northwest Analytics, Davra Networks, Intel Corporation, PV Tech, Algo Engines, S2E Technologies Inc., Flutura, Cisco, AT&T, 3E, IBM, SAP, Symboticware, General Electric, ctility S.A., Altair Engineering, Inc., Capgemini Services SAS, Gemalto N.V., and Gemino s.r.l. 4. What is the study period of this market? Ans: The Global Europe IoT in Renewable Energy Market is studied from 2021 to 2029.
Europe IoT in Renewable Energy Market
1. INTRODUCTION 1.1. Market description & Scope 1.2. Objectives 1.2.1. Key Takeaways 1.2.2. Abbreviations & Acronyms 2. EUROPE IOT IN RENEWABLE ENERGY MARKET RESEARCH METHODOLOGY 2.1. Methods used for market forecasting 2.2. Data Sources 2.2.1. Paid Databases 2.2.2. Primary Sources 2.2.3. Secondary Sources 3. EUROPE IOT IN RENEWABLE ENERGY MARKET EXECUTIVE SUMMARY 3.1. Major Findings 3.1.1. Key Segment Trends 3.1.1.1. Solution 3.1.1.2. Application 3.1.1.3. End-use 3.1.2. Key Regional Trends 3.2. Key Companies and their Strategies 4. EUROPE IOT IN RENEWABLE ENERGY MARKET OVERVIEW 4.1. IoT in Renewable Energy (Internet of Things) Concept & Definition 4.2. Segments Overview 4.2.1. By Solution 4.2.1.1. Analytic Software 4.2.1.2. Hardware Platform 4.2.1.3. Service 4.2.1.4. Connectivity 4.2.2. By Application 4.2.2.1. Pipeline 4.2.2.2. Refineries 4.2.2.3. Grid Control 4.2.2.4. Digital Oilfield 4.2.2.5. Others 4.2.3. By End-use 4.2.3.1. Oil & Gas 4.2.3.2. Solar 4.2.3.3. Wind 4.2.3.4. Others 4.3. Market Dynamics 4.3.1. Drivers 4.3.2. Restraints 4.3.3. Opportunities 4.4. Porter’s Analysis 4.5. PESTLE Analysis 4.6. Fragmentation 4.6.1. Key strategic Alliances of companies (inorganic & organic) 4.6.2. Company Market Share (Top 10 Players) 4.6.3. Comparative Analysis of Key players in IoT in Renewable Energy 4.7. Key Trends 5. EUROPE IOT IN RENEWABLE ENERGY SOLUTION ESTIMATES & TREND ANALYSIS (2021-2029) 5.1. Europe IoT in Renewable Energy Market: Solution Analysis 5.1.1. Analytic Software 5.1.1.1. Europe IoT in Renewable Energy Market Share and growth forecasts, 2021-2029 (USD Billion) 5.1.2. Hardware Platform 5.1.2.1. Europe IoT in Renewable Energy Market Share and growth forecasts, 2021-2029 (USD Billion) 5.1.3. Service 5.1.3.1. Europe IoT in Renewable Energy Market Share and growth forecasts, 2021-2029 (USD Billion) 5.1.4. Connectivity 5.1.4.1. Europe IoT in Renewable Energy Market Share and growth forecasts, 2021-2029 (USD Billion) 5.2. Europe IoT in Renewable Energy Market: Solution Trends 6. EUROPE IOT IN RENEWABLE ENERGY APPLICATION ESTIMATES & TREND ANALYSIS (2021-2029) 6.1. Europe IoT in Renewable Energy Market: Application Analysis 6.1.1. Pipeline 6.1.1.1. Europe IoT in Renewable Energy Market Share and growth forecasts,2021-2029 (USD Billion) 6.1.2. Refineries 6.1.2.1. Europe IoT in Renewable Energy Market Share and growth forecasts, 2021-2029 (USD Billion) 6.1.3. Grid Control 6.1.3.1. Europe IoT in Renewable Energy Market Share and growth forecasts, 2021-2029 (USD Billion) 6.1.4. Digital Oilfield 6.1.4.1. Europe IoT in Renewable Energy Market Share and growth forecasts, 2021-2029 (USD Billion) 6.1.5. Others 6.1.5.1. Europe IoT in Renewable Energy Market Share and growth forecasts, 2021-2029 (USD Billion) 6.2. Europe IoT in Renewable Energy Market: Application Trends 7. EUROPE IOT IN RENEWABLE ENERGY END-USE ESTIMATES & TREND ANALYSIS (2021-2029) 7.1. Europe IoT in Renewable Energy Market: End-use Analysis 7.1.1. Oil & Gas 7.1.1.1. Europe IoT in Renewable Energy Market Share and growth forecasts,2021-2029 (USD Billion) 7.1.2. Solar 7.1.2.1. Europe IoT in Renewable Energy Market Share and growth forecasts, 2021-2029 (USD Billion) 7.1.3. Wind 7.1.3.1. Europe IoT in Renewable Energy Market Share and growth forecasts, 2021-2029 (USD Billion) 7.1.4. Others 7.1.4.1. Europe IoT in Renewable Energy Market Share and growth forecasts, 2021-2029 (USD Billion) 7.2. Europe IoT in Renewable Energy Market: End-use Trends 8. REGIONAL ESTIMATES & TREND ANALYSIS (2021-2029) 8.1. Europe IoT in Renewable Energy market share by Region, 2016 & 2025 8.2. Europe 8.2.1. Europe IoT in Renewable Energy market, Market Share and growth forecasts, 2021-2029 (USD Billion) 8.2.2. IoT in Renewable Energy Drivers For Europe Market 8.2.3. Europe IoT in Renewable Energy Market Share Analysis and Growth Forecast, by Country 8.2.3.1. UK 8.2.3.2. Germany 8.2.3.3. France 8.2.3.4. Russia 8.2.3.5. Spain 8.2.3.6. Italy 8.2.3.7. Others 8.2.4. Country-wise GDP Growth Forecast 8.2.5. IoT in Renewable Energy Trends In Europe Market 9. EUROPE IOT IN RENEWABLE ENERGY MARKET SHARE ANALYSIS 9.1. Key Players Regional Market share Analysis 9.1.1. UK 9.1.2. Germany 9.1.3. Italy 9.1.4. France 9.1.5. Spain 9.1.6. Russia 9.1.7. Others 10. EUROPE IOT IN RENEWABLE ENERGY MARKET COMPETITION ANALYSIS 10.1. Strategy Framework 10.2. Consolidation 10.2.1. Patent Analysis 10.2.2. Mergers & Acquisitions 10.2.2.1. Product Based 10.2.2.2. Services Based 10.2.2.3. Region Based 10.2.2.4. List of Mergers & Acquisitions 10.2.3. Company Benchmarking (Revenue & Profit Based) 10.2.4. Strategic Assessment of Company Consolidations 10.2.5. Emerging Business Models 10.3. Company Profiles 10.3.1. AGT International 10.3.1.1. Company overview 10.3.1.2. Key financials 10.3.1.3. Geographical presence 10.3.1.4. Product and Business Segments 10.3.1.5. Strategic initiatives 10.3.1.6. SWOT analysis 10.3.1.7. Competitive positioning and landscape 10.3.2. Maven Systems 10.3.2.1. Company overview 10.3.2.2. Key financials 10.3.2.3. Geographical presence 10.3.2.4. Product and Business Segments 10.3.2.5. Strategic initiatives 10.3.2.6. SWOT analysis 10.3.2.7. Competitive positioning and landscape 10.3.3. Northwest Analytics 10.3.3.1. Company overview 10.3.3.2. Key financials 10.3.3.3. Geographical presence 10.3.3.4. Product and Business Segments 10.3.3.5. Strategic initiatives 10.3.3.6. SWOT analysis 10.3.3.7. Competitive positioning and landscape 10.3.4. Davra Networks 10.3.4.1. Company overview 10.3.4.2. Key financials 10.3.4.3. Geographical presence 10.3.4.4. Product and Business Segments 10.3.4.5. Strategic initiatives 10.3.4.6. SWOT analysis 10.3.4.7. Competitive positioning and landscape 10.3.5. Intel Corporation 10.3.5.1. Company overview 10.3.5.2. Key financials 10.3.5.3. Geographical presence 10.3.5.4. Product and Business Segments 10.3.5.5. Strategic initiatives 10.3.5.6. SWOT analysis 10.3.5.7. Competitive positioning and landscape 10.3.6. PV Tech 10.3.6.1. Company overview 10.3.6.2. Key financials 10.3.6.3. Geographical presence 10.3.6.4. Product and Business Segments 10.3.6.5. Strategic initiatives 10.3.6.6. SWOT analysis 10.3.6.7. Competitive positioning and landscape 10.3.7. Algo Engines 10.3.7.1. Company overview 10.3.7.2. Key financials 10.3.7.3. Geographical presence 10.3.7.4. Product and Business Segments 10.3.7.5. Strategic initiatives 10.3.7.6. SWOT analysis 10.3.7.7. Competitive positioning and landscape 10.3.8. S2E Technologies Inc. 10.3.8.1. Company overview 10.3.8.2. Key financials 10.3.8.3. Geographical presence 10.3.8.4. Product and Business Segments 10.3.8.5. Strategic initiatives 10.3.8.6. SWOT analysis 10.3.8.7. Competitive positioning and landscape 10.3.9. Flutura 10.3.9.1. Company overview 10.3.9.2. Key financials 10.3.9.3. Geographical presence 10.3.9.4. Product and Business Segments 10.3.9.5. Strategic initiatives 10.3.9.6. SWOT analysis 10.3.9.7. Competitive positioning and landscape 10.3.10. Cisco 10.3.10.1. Company overview 10.3.10.2. Key financials 10.3.10.3. Geographical presence 10.3.10.4. Product and Business Segments 10.3.10.5. Strategic initiatives 10.3.10.6. SWOT analysis 10.3.10.7. Competitive positioning and landscape 10.3.11. AT&T 10.3.11.1. Company overview 10.3.11.2. Key financials 10.3.11.3. Geographical presence 10.3.11.4. Product and Business Segments 10.3.11.5. Strategic initiatives 10.3.11.6. SWOT analysis 10.3.11.7. Competitive positioning and landscape 10.3.12. 3E 10.3.12.1. Company overview 10.3.12.2. Key financials 10.3.12.3. Geographical presence 10.3.12.4. Product and Business Segments 10.3.12.5. Strategic initiatives 10.3.12.6. SWOT analysis 10.3.12.7. Competitive positioning and landscape 10.3.13. IBM 10.3.13.1. Company overview 10.3.13.2. Key financials 10.3.13.3. Geographical presence 10.3.13.4. Product and Business Segments 10.3.13.5. Strategic initiatives 10.3.13.6. SWOT analysis 10.3.13.7. Competitive positioning and landscape 10.3.14. SAP 10.3.14.1. Company overview 10.3.14.2. Key financials 10.3.14.3. Geographical presence 10.3.14.4. Product and Business Segments 10.3.14.5. Strategic initiatives 10.3.14.6. SWOT analysis 10.3.14.7. Competitive positioning and landscape 10.3.15. Siemens 10.3.15.1. Company overview 10.3.15.2. Key financials 10.3.15.3. Geographical presence 10.3.15.4. Product and Business Segments 10.3.15.5. Strategic initiatives 10.3.15.6. SWOT analysis 10.3.15.7. Competitive positioning and landscape 10.3.16. General Electric 10.3.16.1. Company overview 10.3.16.2. Key financials 10.3.16.3. Geographical presence 10.3.16.4. Product and Business Segments 10.3.16.5. Strategic initiatives 10.3.16.6. SWOT analysis 10.3.16.7. Competitive positioning and landscape 10.3.17. Actility S.A. 10.3.17.1. Company overview 10.3.17.2. Key financials 10.3.17.3. Geographical presence 10.3.17.4. Product and Business Segments 10.3.17.5. Strategic initiatives 10.3.17.6. SWOT analysis 10.3.17.7. Competitive positioning and landscape 10.3.18. Altair Engineering, Inc. 10.3.19. Capgemini Services SAS 10.3.20. Gemalto N.V. 10.3.21. Gemino s.r.l.