Welcome!

Weblogic Authors: Elizabeth White, Michael Meiner, Michael Bushong, Avi Rosenthal

News Feed Item

Smart Grid Landscape in Europe - Market Size, Key Issues, Regulations, Investment Analysis and Outlook to 2020

NEW YORK, Jan. 9, 2013 /PRNewswire/ -- Reportlinker.com announces that a new market research report is available in its catalogue:

Smart Grid Landscape in Europe - Market Size, Key Issues, Regulations, Investment Analysis and Outlook to 2020

http://www.reportlinker.com/p0843051/Smart-Grid-Landscape-in-Europe---Market-Size-Key-Issues-Regulations-Investment-Analysis-and-Outlook-to-2020.html#utm_source=prnewswire&utm_medium=pr&utm_campaign=Clean_Vehicle

Smart Grid Landscape in Europe - Market Size, Key Issues, Regulations, Investment Analysis and Outlook to 2020

 

Summary

GlobalData's latest research "Smart Grid Landscape in Europe - Market Size, Key Issues, Regulations, Investment Analysis and Outlook to 2020" provides in-depth analysis of smart grid-related developments in Europe. The report covers various aspects of smart grids and related technologies, as well as providing details of market sizing, outlook and competitive landscape analysis. At the outset, the report discusses the investment scenario for smart grids and the related technologies in Europe, taking into consideration the nations actively involved in rolling out smart grid technologies. The report then goes into further detail on the European markets for smart meters, demand response, electric vehicles, distributed generation and energy storage. The report proceeds to explain the smart grid industry's dynamics in Europe, identifying the key market drivers, standards, policies and technology trends, as well as the key development trends in the European Union (EU) and non-EU nations enabling smart grid development in Europe. The report also provides an outlook on the emergence of smart cities, a super smart grid, microgrids and various other technologies in Europe.

 

Scope

- Detailed analysis of the European markets for smart meters, electric vehicles (EVs), demand response (DR), distributed generation and energy storage technologies.

- Details of the annualized installed base of smart meters until 2020.

- Details of the annualized market revenues from Smart meters until 2020.

- Details of the annualized installed base of electric vehicles for the period 2011-2020.

- Details of the annualized market revenues for electric vehicles for the period 2011-2020.

- Details of the annualized capacity under management of demand response for the period 2011-2020.

- Details of the annualized market revenues for demand response for the period 2011-2020.

- Analysis of key industry metrics, such as growth drivers and restraints.

- Competitive scenario analysis of key smart grid technologies, with profiles of companies such as Siemens AG, Landis+Gyr AG, Nissan, Mitsubishi, EnerNoc, Itron, Oracle, Cable & Wireless and ABB Ltd.

- Details of the regulatory framework of policies and standards governing the market.

 

Reasons to buy

- Identify the high-growth markets in the European smart grid arena.

- Facilitate strategic decision making in smart grid sectors.

- Decide upon market penetration and expansion plans in smart grid-related markets.

- Identify and capitalize on key industry trends.

- Do deals with a strong understanding of historic investment scenarios.

- Gain competitive knowledge of the European smart grid industry.

- Chalk out action plans for smart grid rollouts.

 

Keywords

smart grid, competitive landscape, advanced metering infrastructure, electric vehicle, electric vehicle infrastructure, charging stations, gas insulated substations, network communication, wireless communication, powerline communication, high voltage direct current, software application, cyber security, network monitoring and control, synchrophasor, remote terminal units

 

1 Table of Contents

1 Table of Contents 2

1.1 List of Tables 4

1.2 List of Figures 5

2 Introduction 6

2.1 European Electricity Grid - An Overview 6

2.2 GlobalData Report Guidance 7

3 Investment Scenario Analysis of European Smart Grid and its Enabling Technologies 8

3.1 Smart Grid Market, Europe, Government Funding Scenario, 2011 8

3.1.1 Smart Grids ERA-Net (2008-2012) 8

3.1.2 Seventh Framework Program (FP7) 8

3.1.3 Competitiveness and Innovation Framework Program (CIP) (2007-2013) 8

3.1.4 European Investment Bank (EIB) 8

3.1.5 European Energy Program for Recovery (EEPR) 9

3.1.6 Trans-European Energy Networks (TEN-E) 9

3.1.7 NER 300 9

3.1.8 Government funding in the UK 9

3.1.9 Government Funding in Germany 10

3.1.10 Government Funding in France 10

3.2 Smart Grid Market, Europe, Major Financial Deals, 2011 11

3.3 Smart Grid Market, Europe, Comparison Between Public Sector Funding and Private Sector Funding, 2011 14

3.3.1 Public Sector Funding 14

3.3.2 Private Sector Funding 14

4 Analysis of European Market for Smart Grids and Enabling Technologies 16

4.1 Demand Response Market, Europe, 2011-2020 16

4.1.1 Demand Response Market, Europe, Capacity Under Management, (MW), 2011-2020 17

4.1.2 Demand Response Market, Europe, Revenue, ($m), 2011-2020 17

4.2 Smart Meter Market, Europe, 2011-2020 19

4.2.1 Smart Meter Market, the UK, 2011-2020 19

4.2.2 Smart Meter Market, France, 2011-2020 23

4.3 Smart Meter Market, Spain, 2011-2020 24

4.3.1 Smart Meter Market, Spain, Annual Volume, 2011-2020 24

4.3.2 Smart Meter Market, Spain, Annual Revenue, ($m), 2011-2020 26

4.3.3 Smart Meter Market, Spain, Average Price ($), 2011-2020 27

4.4 Electric Vehicles Market, Europe, 2011-2020 28

4.4.1 Electric Vehicles Market, the UK, 2011-2020 29

4.4.2 Electric Vehicles Market, Germany, 2011-2020 33

4.4.3 Electric Vehicles Market, France, 2011-2020 37

4.4.4 Electric Vehicles Market, Ireland, 2011-2020 41

4.5 Distributed Generation Market, Europe, 2011-2020 45

4.6 Energy Storage Market, Europe, 2011-2020 47

4.6.1 Pumped Hydro Storage (PHS) 48

4.6.2 Compressed Air Energy Storage (CAES) 48

4.6.3 Hydrogen and Fuel Cells 48

4.6.4 Flywheels 48

4.6.5 Supercapacitors 48

4.6.6 Superconducting Magnetic Energy Storage (SMES) 49

4.6.7 Conventional and Advanced Batteries 49

5 Analysis of European Smart Grid Industry 50

5.1 Smart Grid Market, Europe, Present Scenario, 2011 50

5.2 Smart Grid Market, Europe, Research and Development Trends, 2011 51

5.2.1 Smart Grid Development Trends in the European Union and Non-European Union Nations 52

5.3 Smart Grid Market, Europe, Key Market Drivers, 2011 54

5.3.1 Growth in Renewable Energy Generation 54

5.3.2 Interlinking of regional grids 57

5.3.3 Rising Demand for Electricity 59

5.3.4 Reduction of Green House Gases (GHG) 61

5.4 Smart Grid Market, Europe, Key Market Barriers 62

5.4.1 Lack of Consumer Confidence in Smart Grid System 62

5.4.2 Cyber Security Concern 62

5.5 Smart Grid Market, Europe, Transmission Technology Trends and Roadmap in Europe, 2011 63

5.5.1 High Voltage Direct Current (HVDC) 63

5.5.2 Flexible Alternating Current Transmission Systems (FACTS) 64

5.5.3 High Temperature Conductors (HTC) 64

5.5.4 High Temperature Superconducting (HTS) 64

5.5.5 Long Term Evolution (LTE) 64

5.5.6 Automated Meter Reading (AMR) and Advanced Metering Infrastructure (AMI) 65

5.5.7 Synchrophasors 65

5.5.8 Electric Vehicles 65

5.6 Smart Grid Market, Europe, Virtual Power Plants, 2011 66

6 Standards and Policies for a Smart Grid in Europe 68

6.1.1 Smart Grid Market, Europe, Key Standards, 2011 68

6.1.2 Smart Grid Market, Europe, Key Plans and Policies, 2011 69

7 Outlook for a Smart Grid in Europe 71

7.1 Smart Grid Market, Europe, Emergence of Smart Cities 71

7.1.2 Outlook 73

7.2 Smart Grid Market, Europe, Growth of Software Applications and Smart Grid Managed Services for Power Utilities 75

7.2.1 Growth of Software systems for Power Utilities 75

7.2.2 Growth of smart grid managed services for power utilities 75

7.3 Impact of Networked Communication in Power Distribution 76

7.4 Smart Grid Market, Europe, Construction of Super Smart Grids 77

7.5 Smart Grid Market, Europe, Microgrid 79

7.5.1 Microgrid in Europe, current scenario 79

7.5.2 Outlook 80

7.6 Smart Grid Market, Europe, Cloud Computing as Enabler of Smart Grid 80

8 European Smart Grid Market- Competitive Landscape 82

8.1 Key Vendors by Leading Technologies 82

8.1.1 Electric Vehicles 82

8.1.2 Smart Meters 83

8.1.3 Demand Response 83

8.1.4 Transmission and Distribution 84

8.1.5 Information Technology (IT) 84

8.1.6 Telecommunications 85

9 Appendix 86

9.1 Market Definition 86

9.2 Abbreviations 87

9.3 Methodology 90

9.3.1 Coverage 90

9.3.2 Secondary Research 90

9.3.3 Primary Research 90

9.3.4 Modeling and Forecasting 91

9.4 Contact Us 91

9.5 Disclaimer 91

 

List of Tables

Table 1: Electricity Grid, Europe, Electricity Grid Drivers Towards 2020 6

Table 2: Smart Grid Market, Europe, Number of Mergers and Acquisitions, 2011 11

Table 3: Smart Grid Market, Europe, Mergers and Acquisitions, 2011 13

Table 4: Smart Grid Market, Europe, Venture Capital Financing, 2011 14

Table 5: Demand Response Market, Europe, Ranking of Key Countries in Demand Response Market, 2011 16

Table 6: Demand Response Market, Europe, Revenues ($m), 2011-2020 18

Table 7: Smart Meter Market, the UK, Annual Deployments, Million Units, 2010-2020 20

Table 8: Smart Meter Market, the UK, Annual Revenues ($m), 2010-2020 21

Table 9: Smart Meter Market, the UK, Average Price ($), 2010-2020 22

Table 10: Smart Meter Market, France, Cumulative Deployment (Million Units), 2010-2018 23

Table 11: Smart Meter Deployment by the Percentage of Total Meters and the Year of Achievement 24

Table 12: Smart Meter Market, Spain, Annual Deployments (Million Units), 2009-2018 25

Table 13: Smart Meter Market, Spain, Annual Revenues ($m), 2009-2018 26

Table 14: Smart Meter Market, Spain, Average Price ($),2009-2018 27

Table 15: Electric Vehicle Market, the UK, Annual Volume, (Units), 2011-2020 30

Table 16: Electric Vehicle Market, the UK, Annual Revenue, ($m), 2011-2020 31

Table 17: Electric Vehicle Market, the UK, Average Price ($), 2011-2020 32

Table 18: Electric Vehicle Market, Germany, Annual Volume, (Units), 2011-2020 34

Table 19: Electric Vehicle Market, Germany. Annual Revenues ($m), 2011-2020 35

Table 20: Electric Vehicle Market, Germany, Average Price ($), 2011-2020 36

Table 21: Electric Vehicle Market, France, Annual Volume, (Units), 2011-2020 38

Table 22: Electric Vehicle Market, France, Annual Revenues ($m), 2011-2020 39

Table 23: Electric Vehicle Market, France, Average Price, ($), 2011-2020 40

Table 24: Electric Vehicle Market, Ireland, Annual Volume, Units, 2011-2020 42

Table 25: Electric Vehicle Market, Ireland, Annual Revenues ($m), 2011-2020 43

Table 26: Electric Vehicle Market, Ireland, Average Price ($), 2011-2020 44

Table 27: Distributed Generation Market, Europe, Fund Allocated to Strategic Projects of FP5 ($m), 1998-2002 45

Table 28: Distributed Generation Market, Europe, Key Smart Grid-ERA Net Projects 47

Table 29: Renewable Energy Support Policies in Europe, 2011 55

Table 30: Renewable Energy Incentives and Public Financing in European Countries 56

Table 31: Power Market, Europe, Increase in Electricity Generation, TWh, 2005-2011 59

Table 32: Power Market, Europe, Increase in Electricity Consumption, TWh, 2005-2011 60

Table 33: Smart Grid Market, Global, IEC Standards for Smart Grid, 2011 68

Table 34: Smart Cities Market, Sweden, Different phases of smart city project in Stockholm, 2011 72

Table 35: Smart Cities Market, Europe, Indicative Cost For Smart Cities Initiative, 2010-2020 74

Table 36: Microgrid Market, Europe, Microgrid Projects, 2010-2011 79

Table 37: Major Vendors Under Various Categories of Smart Grid, 2011 82

Table 38: List of Abbreviations 87

 

List of Figures

Figure 1: Smart Grid Market, Europe, Number of Mergers and Acquisitions, 2011 11

Figure 2: Demand Response Market, Europe, Revenues ($m), 2011-2020 17

Figure 3: Smart Meter Market, UK, Annual Deployments, Million Units, 2010-2020 19

Figure 4: Smart Meter Market, UK, Annual Revenues ($m), 2010-2020 21

Figure 5: Smart Meter Market, the UK, Average Price ($), 2010-2020 22

Figure 6: Smart Meter Market, France, Cumulative Deployment (Million Units), 2010-2018 23

Figure 7: Smart Meter Market, Spain, Annual Volume (Million Units), 2009-2018 25

Figure 8: Smart Meter Market, Spain Annual Revenues ($m), 2009-2018 26

Figure 9: Smart Meter Market, Spain, Average Price ($), 2009-2018 27

Figure 10: Electric Vehicle Market, the UK, Annual Volume, (Units), 2011-2020 30

Figure 11: Electric Vehicle Market, the UK, Annual Revenue, ($m), 2011-2020 31

Figure 12: Electric Vehicle Market, the UK, Average Price ($), 2011-2020 32

Figure 13: Electric Vehicle Market, Germany, Annual Volume, (Units), 2011-2020 33

Figure 14: Electric Vehicle Market, Germany, Annual Revenues ($m), 2011-2020 35

Figure 15: Electric Vehicle Market, Germany, Average Price ($), 2011-2020 36

Figure 16: Electric Vehicle Market, France, Annual Volume, (Units), 2011-2020 37

Figure 17: Electric Vehicle Market, France, Annual Revenues ($m), 2011-2020 39

Figure 18: Electric Vehicle Market, France, Average Price, ($), 2011-2020 40

Figure 19: Electric Vehicle Market, Ireland, Annual Volume, Units, 2011-2020 42

Figure 20: Electric Vehicle Market, Ireland, Annual Revenues ($m), 2011-2020 43

Figure 21: Electric Vehicle Market, Ireland, Average Price ($), 2011-2020 44

Figure 22: Smart Grid Market, Europe, Electricity Grid Initiatives at EU Level, 2004-2018 51

Figure 23: Power Market, Europe, Increase in Electricity Generation, TWh, 2005-2011 59

Figure 24: Power Market, Europe, Increase in Electricity Consumption, TWh, 2005-2011 60

Figure 25: Virtual Power Plant, Schematic Diagram 66

 

To order this report:

: Smart Grid Landscape in Europe - Market Size, Key Issues, Regulations, Investment Analysis and Outlook to 2020

Nicolas Bombourg
Reportlinker
Email: [email protected]
US: (805)652-2626
Intl: +1 805-652-2626

 

SOURCE Reportlinker

More Stories By PR Newswire

Copyright © 2007 PR Newswire. All rights reserved. Republication or redistribution of PRNewswire content is expressly prohibited without the prior written consent of PRNewswire. PRNewswire shall not be liable for any errors or delays in the content, or for any actions taken in reliance thereon.

@ThingsExpo Stories
DevOps Summit 2015 New York, co-located with the 16th International Cloud Expo - to be held June 9-11, 2015, at the Javits Center in New York City, NY - announces that it is now accepting Keynote Proposals. The widespread success of cloud computing is driving the DevOps revolution in enterprise IT. Now as never before, development teams must communicate and collaborate in a dynamic, 24/7/365 environment. There is no time to wait for long development cycles that produce software that is obsolete at launch. DevOps may be disruptive, but it is essential.
The 3rd International Internet of @ThingsExpo, co-located with the 16th International Cloud Expo - to be held June 9-11, 2015, at the Javits Center in New York City, NY - announces that its Call for Papers is now open. The Internet of Things (IoT) is the biggest idea since the creation of the Worldwide Web more than 20 years ago.
Connected devices and the Internet of Things are getting significant momentum in 2014. In his session at Internet of @ThingsExpo, Jim Hunter, Chief Scientist & Technology Evangelist at Greenwave Systems, examined three key elements that together will drive mass adoption of the IoT before the end of 2015. The first element is the recent advent of robust open source protocols (like AllJoyn and WebRTC) that facilitate M2M communication. The second is broad availability of flexible, cost-effective storage designed to handle the massive surge in back-end data in a world where timely analytics is e...

ARMONK, N.Y., Nov. 20, 2014 /PRNewswire/ --  IBM (NYSE: IBM) today announced that it is bringing a greater level of control, security and flexibility to cloud-based application development and delivery with a single-tenant version of Bluemix, IBM's platform-as-a-service. The new platform enables developers to build ap...

Building low-cost wearable devices can enhance the quality of our lives. In his session at Internet of @ThingsExpo, Sai Yamanoor, Embedded Software Engineer at Altschool, provided an example of putting together a small keychain within a $50 budget that educates the user about the air quality in their surroundings. He also provided examples such as building a wearable device that provides transit or recreational information. He then reviewed the resources available to build wearable devices at home including open source hardware, the raw materials required and the options available to power s...
The Internet of Things promises to transform businesses (and lives), but navigating the business and technical path to success can be difficult to understand. In his session at @ThingsExpo, Sean Lorenz, Technical Product Manager for Xively at LogMeIn, demonstrated how to approach creating broadly successful connected customer solutions using real world business transformation studies including New England BioLabs and more.
Since 2008 and for the first time in history, more than half of humans live in urban areas, urging cities to become “smart.” Today, cities can leverage the wide availability of smartphones combined with new technologies such as Beacons or NFC to connect their urban furniture and environment to create citizen-first services that improve transportation, way-finding and information delivery. In her session at @ThingsExpo, Laetitia Gazel-Anthoine, CEO of Connecthings, will focus on successful use cases.
Enthusiasm for the Internet of Things has reached an all-time high. In 2013 alone, venture capitalists spent more than $1 billion dollars investing in the IoT space. With "smart" appliances and devices, IoT covers wearable smart devices, cloud services to hardware companies. Nest, a Google company, detects temperatures inside homes and automatically adjusts it by tracking its user's habit. These technologies are quickly developing and with it come challenges such as bridging infrastructure gaps, abiding by privacy concerns and making the concept a reality. These challenges can't be addressed w...
The Domain Name Service (DNS) is one of the most important components in networking infrastructure, enabling users and services to access applications by translating URLs (names) into IP addresses (numbers). Because every icon and URL and all embedded content on a website requires a DNS lookup loading complex sites necessitates hundreds of DNS queries. In addition, as more internet-enabled ‘Things' get connected, people will rely on DNS to name and find their fridges, toasters and toilets. According to a recent IDG Research Services Survey this rate of traffic will only grow. What's driving t...
The Internet of Things is a misnomer. That implies that everything is on the Internet, and that simply should not be - especially for things that are blurring the line between medical devices that stimulate like a pacemaker and quantified self-sensors like a pedometer or pulse tracker. The mesh of things that we manage must be segmented into zones of trust for sensing data, transmitting data, receiving command and control administrative changes, and peer-to-peer mesh messaging. In his session at @ThingsExpo, Ryan Bagnulo, Solution Architect / Software Engineer at SOA Software, focused on desi...
"For over 25 years we have been working with a lot of enterprise customers and we have seen how companies create applications. And now that we have moved to cloud computing, mobile, social and the Internet of Things, we see that the market needs a new way of creating applications," stated Jesse Shiah, CEO, President and Co-Founder of AgilePoint Inc., in this SYS-CON.tv interview at 15th Cloud Expo, held Nov 4–6, 2014, at the Santa Clara Convention Center in Santa Clara, CA.
The Industrial Internet revolution is now underway, enabled by connected machines and billions of devices that communicate and collaborate. The massive amounts of Big Data requiring real-time analysis is flooding legacy IT systems and giving way to cloud environments that can handle the unpredictable workloads. Yet many barriers remain until we can fully realize the opportunities and benefits from the convergence of machines and devices with Big Data and the cloud, including interoperability, data security and privacy.
The Internet of Things is tied together with a thin strand that is known as time. Coincidentally, at the core of nearly all data analytics is a timestamp. When working with time series data there are a few core principles that everyone should consider, especially across datasets where time is the common boundary. In his session at Internet of @ThingsExpo, Jim Scott, Director of Enterprise Strategy & Architecture at MapR Technologies, discussed single-value, geo-spatial, and log time series data. By focusing on enterprise applications and the data center, he will use OpenTSDB as an example t...
The industrial software market has treated data with the mentality of “collect everything now, worry about how to use it later.” We now find ourselves buried in data, with the pervasive connectivity of the (Industrial) Internet of Things only piling on more numbers. There’s too much data and not enough information. In his session at @ThingsExpo, Bob Gates, Global Marketing Director, GE’s Intelligent Platforms business, to discuss how realizing the power of IoT, software developers are now focused on understanding how industrial data can create intelligence for industrial operations. Imagine ...
Cultural, regulatory, environmental, political and economic (CREPE) conditions over the past decade are creating cross-industry solution spaces that require processes and technologies from both the Internet of Things (IoT), and Data Management and Analytics (DMA). These solution spaces are evolving into Sensor Analytics Ecosystems (SAE) that represent significant new opportunities for organizations of all types. Public Utilities throughout the world, providing electricity, natural gas and water, are pursuing SmartGrid initiatives that represent one of the more mature examples of SAE. We have s...
There is no doubt that Big Data is here and getting bigger every day. Building a Big Data infrastructure today is no easy task. There are an enormous number of choices for database engines and technologies. To make things even more challenging, requirements are getting more sophisticated, and the standard paradigm of supporting historical analytics queries is often just one facet of what is needed. As Big Data growth continues, organizations are demanding real-time access to data, allowing immediate and actionable interpretation of events as they happen. Another aspect concerns how to deliver ...
Scott Jenson leads a project called The Physical Web within the Chrome team at Google. Project members are working to take the scalability and openness of the web and use it to talk to the exponentially exploding range of smart devices. Nearly every company today working on the IoT comes up with the same basic solution: use my server and you'll be fine. But if we really believe there will be trillions of these devices, that just can't scale. We need a system that is open a scalable and by using the URL as a basic building block, we open this up and get the same resilience that the web enjoys.
The Internet of Things will greatly expand the opportunities for data collection and new business models driven off of that data. In her session at @ThingsExpo, Esmeralda Swartz, CMO of MetraTech, discussed how for this to be effective you not only need to have infrastructure and operational models capable of utilizing this new phenomenon, but increasingly service providers will need to convince a skeptical public to participate. Get ready to show them the money!
The 3rd International Internet of @ThingsExpo, co-located with the 16th International Cloud Expo - to be held June 9-11, 2015, at the Javits Center in New York City, NY - announces that its Call for Papers is now open. The Internet of Things (IoT) is the biggest idea since the creation of the Worldwide Web more than 20 years ago.
Cloud Expo 2014 TV commercials will feature @ThingsExpo, which was launched in June, 2014 at New York City's Javits Center as the largest 'Internet of Things' event in the world.