Summary

“The Future of the Middle East Power Market to 2020: Opportunity Analysis, Technology Overview, Infrastructure and Policy Assessment”" analyzes the power market in the middle east countries. The Middle East region has become an investment hub for utility and construction companies. With the growing economy, there has been an increasing demand for power and hence has resulted in plans for the boost in power generation. Though oil and gas has been the primary source of power in this region, but renewable energy is also making in-roads in some of the nations in the region.

Scope

- The report covers Jordan, Iraq, Iran, Kuwait, Syria, Bahrain, Oman, Lebanon, Qatar, and Yemen
- Provides analysis of import, export, regulatory and infrastructure of the power sector in the top 10 countries.
- Detailed forecast of installed capacity by thermal, hydro, renewable and nuclear sources in each of the top 10 countries till 2020.
- Detailed forecast of generation by thermal, hydro, renewable and nuclear sources till 2020.
- The report provides details of active and upcoming plants in the country.
- It details the major companies like Saudi Electricity Company (SEC), Marafiq (Yanbu), Saline Water Conversion Corporation (SWCC), Rabigh Arabian Water & Electricity Company, Tavanir, TAQA, DEWA, SEWA, FEWA, Central Electricity Generating Company (CEGCO), Qatar Electricity & Water Company and their SWOT analysis.
- It discusses the major trends, drivers and challenges in the overall industry.

Reasons to buy

- Identify key markets and investment opportunities for foreign investors in Power Sector in the Middle East.
- Facilitate decision-making based on strong historical and forecast data and elaborate growth opportunities analysis.
- Understand and respond to the regulatory and foreign investment structure in the country.
- Position yourself to gain the maximum advantage of the top 10 Middle East power market’s growth potential.

Companies Mentioned

Saudi Electricity Company
Tavanir
Qatar Electricity & Water Company Q.S.C
Abu Dhabi National Energy Company PJSC
Dubai Electricity and Water Authority
GDF SUEZ Energy International
Electricity & Water Authority
Ministry of Electricity of Iraq

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The DC building power market is projected to grow significantly over the next several years, and among the driving forces is the need to improve efficiency and reduce electricity costs in several areas. According to the US Environmental Protection Agency (EPA), in 2006, data centers and servers in the United States accounted for approximately 1.5% of the nation’s total electricity consumption. To put this in perspective, the EPA stated that this total exceeded the electricity consumed by the entire nation’s color televisions, and is similar to the amount of electricity consumed by approximately 5.8 million average TV households. In addition, energy consumption in data centers in the US is projected to continue to grow, and double every five years.

Traditionally, large data centers and telecommunications facilities have consumed large amounts of electricity without much regard for energy efficiency. Due to the continuous need for energy production, it has been an acceptable practice to trade off energy efficiency and operating costs for the sake of system reliability. However, in recent years a number of factors have emerged that may change that practice. Now, a debate is taking place on how to cope with the growing need for electricity to power these facilities. Data center managers and other data center professionals are looking to dc power as an alternative solution to traditional ac power. Proponents of dc power claim that it has the potential to eliminate the biggest sources of energy loss and waste in traditional ac systems: the multiple back and forth transformations and conditioning needed to step voltage down for use by IT equipment.

One of the pressing needs for the further expansion of dc power was the establishment of dc voltage standards. In light of this need, two new dc power distribution standards for facilities were developed over the past year, one for high-voltage (380Vdc) applications and another for low-voltage (24Vdc) applications. The development of theses standards is significant and is expected to contribute to the further expansion of dc power. The 380Vdc standard was developed by the Electric Power Research Institute (EPRI) along with Lawrence Berkeley National Laboratories and is designed for data centers and other critical facilities. EPRI has developed the first dc voltage tolerance envelope plotting voltage variations versus time for 380-Vdc powered equipment. The new dc voltage tolerance envelope provides the technical details of the electrical operating environment, including allowable voltage surges and sags that could enable engineers to design power converters for use with 380-Vdc distribution systems for next-generation data center equipment.

The 24Vdc standard was developed by EMerge and is expected to play an important role in the expansion of dc power in commercial, industrial and residential buildings. The new EMerge Alliance standard is described as the first roadmap for the utilization of safe, low-voltage direct current power in commercial interiors. The EMerge Alliance Standard 1.0 establishes a more efficient means of powering the rapidly increasing number of digital, dc-powered devices, such as sensors, lighting and IT equipment found in today’s workplaces. It creates an integrated, open platform for power, interior infrastructures, controls and a wide variety of peripheral devices to facilitate the hybrid use of ac and dc power within buildings.

As the emergence of the EMerge Alliance standard suggests, dc power can be used to improve efficiency at the lower-voltage levels. The addition of dc power delivery systems to homes, office building and commercial facilities offers the potential for significant improvements in energy delivery efficiency, reliability, power quality and cost of operation. Most of these facilities are currently dominated by fixed overhead lighting, and a variety of electrical devices that are typically wired for the building’s lifetime rather than the occupant or residents evolving needs.  In fact, although opportunities exist in both new installations and retrofits, according to the EMerge Alliance, 80% of the market opportunities are in the updating and retrofitting of commercial buildings. Actually, the ability to distribute low-voltage dc power within common infrastructures is already present in most commercial interiors

Lighting presents one of the major opportunities for the further development of dc power. According to a recent study funded by the U.S. Department of Energys Energy Efficiency and Renewable Energy Office (DOE EERE), lighting accounts for 22% of all electricity consumed in the United States. Commercial businesses consume 20% to 30% of their total energy just for lighting. And, 50% or more of that lighting-related energy may be wasted by obsolete equipment, inadequate maintenance or inefficient use. Upgrading lighting systems is one of the best energy efficiency investments available to a commercial facility. Since linear fluorescent light accounts for the majority of a commercial building’s lighting energy use, improving the efficiency of these systems can save significant amounts of energy and money.

In addition to advances in dc power for data centers, new advances in solid-state lighting (SSL) are among the market forces expected to drive the dc power market over the next several years. The era SSL will be arriving soon, primarily powered by ultra-high-efficiency light emitting diodes (LEDs) and to a lesser extent by organic light emitting diodes (OLEDs). Used in large high-definition signs, architectural lighting, stadiums, billboards and other applications, modern LEDs represent the latest lighting devices based on dc power.  In fact, current economic conditions are just right for the emerging LED replacement market. Several factors cited for this include “dramatic” improvements in commercially available LED performance, significant cost reduction, government regulations, and energy savings.

Other applications contributing to the advancement of dc power include common consumer electronics devices, which operate on dc power and require conversion from dc sources. These devices are common in every household and include televisions, computers, set top boxes and many others. (All microprocessors require direct current and many devices operate on direct power because it can be precisely regulated for sensitive components.) In fact, many of the smaller electronic devices such as mobile phones, notebook computers and personal digital assistants (PDAs) use ac-dc adapters, which also result in power loss during conversion. In aggregate, the millions of ac-dc conversions performed for the operation of these electronic devices extract a huge loss in energy during conversion.

In addition to the applications and trends driving the industry, the market for dc power is strongly influenced by a number of technological and regulatory factors. These factors vary from application to application and represent both opportunities and threats. They include the growth of dc power used in alternative energy systems, the availability of UL rated equipment and experienced personnel, the further development of both UPS technology, the expansion and development of a number of organizations and alliances the already-mentioned importance of increased efficiency and the further development of regulatory standards and policies.

Among the areas examined in this report are the technology and architecture trends affecting the industry, as well as a thorough discussion of new and emerging products and materials, potential threats and the latest regulatory developments and standards. Over 35 tables are presented depicting a variety of power system schematics and comparisons, architectural standards, product introductions, packaging solutions, efficiency standards and other relevant information. The focus of this comprehensive analysis provides decision makers with an insightful look into the current and future opportunities and threats available in the dc building power supply market.

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Topics Covered :

Current Areas of Development
Additional Applications and Drivers of DC Power
Organizations and Alliances Involved in DC Power
DC Power and Alternative Energy Systems
Barriers, Challenges and Threats to the Adoption of DC Power
Architectural and Technology Trends and Developments
Cost Dynamics of DC Power
Policy and Regulatory Framework for Development
Recent Developments and Products
Table Of Contents :

Introduction  4
Current Areas of Development 6
Data Centers 6
AC Powered Data Centers 9
DC Powered Data Center Demonstrations 12
Current DC Data Center Facilities 15
Commercial, Industrial and Residential….. 16
Telecommunications 19

Additional Applications and Drivers of DC Power 20
Consumer Devices 20
Lighting 22
Power-over-Ethernet (PoE) 26
Uninterruptible Power Supplies (UPS) 28
Variable Speed Motors 30
Intelligent Universal Transformers 31
Electric Vehicles 33
Energy Storage 34

Organizations and Alliances Involved in DC Power 34
Emerge Alliance 34
Electric Power Research Institute (EPRI) 35
European Telecommunications Standards Institute (ETSI) 36
International Electrotechnical Commission (IEC) 37
The Green Grid 37
DC Power Partners 38
International Telecommunications Union 39
Underwriters Laboratory (UL) 39

DC Power and Alternative Energy Systems 40
Alternative Sources of Energy 40
Photovoltaics 41
Wind Power 43
Fuel Cells 44
Distributed Generation 45
Green Power Activity 46

Barriers, Challenges and Threats to the Adoption of DC Power 47
Grounding 47
Availability of UL-Related Equipment 49
Arc Flash 49
Circuit Protection Concerns 50
Experienced DC Electrical Personnel 50
Increased Awareness of DC Power Distribution 51
High Voltage AC Power 52

Architectural and Technology Trends and Developments 55
Selection of DC Voltage Levels 55
Electrical Connections and Safety Perceptions 56
DC Microgrids 59
Hybrid AC-DC Systems 62

Cost Dynamics of DC Power 64
Reduced Part Count and Footprint 64
Cost Savings 66

Policy and Regulatory Framework for Development 68
Standards and Regulations 68
Adoption of Feed-in Tariffs 74
Direct Subsidies and Tax Incentives 76
Legislative Policies and initiatives 76

Recent Developments and New Products 79

Figure 1 – Data Centers Consume More than 1.5% of Total US Energy .. 7
Figure 2 – Typical US AC Data Center Today… 8
Figure 3 – Typical Power Distribution for Data Center Equipment… 9
Figure 4 – Typical Data Center Expenses by Percentage  10
Figure 5 – A Comparison of AC vs. DC Power in Data Centers … 11
Figure 6 – Facility Level DC Configuration 12
Figure 7 – Rack Level DC Configuration 13
Figure 8 – 380 VDC Data Center Demonstration Center in Newark, CA 14
Figure 9 – DC Power Demonstrations by NTT Facilities… 16
Figure 10–.Example of DC Distribution in the Home 17
Figure 11 – Examples of DC Power Distribution in Commercial Facilities… 18
Figure 12 – DC Powered Consumer Electronics… 20
Figure 13 – Lighting Technology Opportunities for DC Power. 23
Figure 14 – Connectivity in Low Voltage DC Ceiling Grid Systems  24
Figure 15 – Distributed AC Lighting Architecture… 25
Figure 16 –.Distributed DC Lighting Architecture 26
Figure 17 – Structure of a DC UPS and Load… 29
Figure 18 – Structure of an AC UPS and Load… 30
Figure 19 – Variable Frequency Drive using DC Power… 31
Figure 20 – Sources of Alternative Energy. 40
Figure 21 – DC Power using PV as a Source… 41
Figure 22 – Generating DC Power using Fuel Cells… 44
Figure 23 – Alternative Power Distribution Methods using both AC and DC. 53
Figure 24 – Various DC Voltage Configurations 380Vdc “Sweet Spot”. 55
Figure 25 – Overview of 380 VDC Power Distribution… 56
Figure 26 – Fujitsu Component and NTT Facilities Rack Power Strip 58
Figure 27 – DC Microgrid Configuration… 60
Figure 28 – DC Microgrid Aichi Institute of Technology. 61
Figure 29 – Hybrid AC DC Coupled Power System… 63
Figure 30 – Reduced Part Count and Footprint for DC Powered Data Center. 65
Figure 31 – Example of a Cost Comparison between DC and AC Data Center 67
Figure 32 – A Cost Comparison of DC vs. AC in a Typical 2.5 MW System… 68
Figure 33 – Voltage Tolerance Envelope for AC Powered Computers… 69
Figure 34 – New DC Voltage Tolerance Envelope with Curve. 70
Figure 35 – EMerge Alliance Standard 1.0… 71
Figure 36 – Tyco EMerge-Compliant LVDC Grid Interconnect Device.………….79

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Environmental concerns are driving the need for greener and efficient display systems with better image quality and lower power consumption. The advances in nanotechnology and optoelectronics resulted in the introduction of next-generation display products. The next-generation display market comprises of those displays that consume lesser power than CRT, LCD, and plasma technologies. This market is segmented into flexible, transparent, three-dimensional, midair, double-sided, touchscreen, and 2D one-sided displays. The basic technologies in all these displays are LED, OLED, FED, electroluminescent and field emissive display, electrochromic, electrophoretic and electrowetting displays http://www.visionshopsters.com/product/1113/Low-Power-Next-Generation-Display-Market-2009-2014-.html.

In 2008, the market size of next-generation display components was $6 billion that is expected to grow exponentially by 2014 because of the increasing use of the next generation display components in consumer electronics. This revenue potential highlights the immense opportunity in the next-generation display market.

Fragmentation and intense competition in the electronics industry has induced electronics manufacturers to improve upon the quality and reduce the prices of their products. Therefore, the expensive ingredients and large R&D investments required for next-generation displays act as a major restraint for the growth of this market. However, the evolution of the next-generation display market into a mainstream market is expected to overcome all these restraints.

Low labor cost and early initiatives have made Asia a dominant player in the next-generation display market, with a $3.7 billion or a 52% global market share in 2009. Asia’s large LED and OLED supplier-base also helps make the manufacture of these displays more cost-effective. Europe is expected to have the second-highest market for next-generation displays. The large consumer base of next-generation display devices in the U.S. and Europe makes them the most attractive markets for display components and device manufacturers.

Global Next-Generation Display Market by Products, 2009

In 2009, the market for 2D one-sided display is expected to dominate with a 72% market share, followed by the touchscreen display market with a share of 19%. The high market share of 2D one-sided display is mainly due to its low power consumption and its wide range of applications in industrial, advertising, entertainment, and consumer electronics sectors. The flexible display market is expected to grow at a high rate due to an increase in the demand for flexible, lightweight displays. 3D and midair display markets will have relatively smaller market shares but high growth rates due to the technical benefits they offer, such as uniform and stable 3D images.

Asia has the highest number of patents with a 39% share, closely followed by the U.S. with 35%. The increase in demand for lighter, thinner, efficient and low power consuming displays resulted in an increase in the number of patents filed in 2008 for LED, OLED and electrochromic displays.

The key players in this next-generation market include E-ink, RitDisplay, Samsung SDI, Sony, Toshiba, and Universal Display Corp.

Our analysis indicates that companies delivering improved and better performing next-generation display components will have an edge over their competitors. Agreements and collaborations as well as new product launches are some of the most popular strategies adopted by market players to stay ahead of competition and to expand into new geographies.

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By the year end of 2007, global accumulative installed capacity had reached 94GW, up by 26.76% compared to 2006. According to GWEC, global new installed capacity in 2007 was mainly distributed in seventy countries/regions, and the top five were USA, Spain, China, India and Germany.

Starting from the year of 2005, along with the constant release of supporting policies such as Renewable Energy Law, wind power has achieved a dramatical growth in China, and 3,155 turbines were newly installed with a capacity totaled at 3.3 GW during the year of 2007, ranking at the third worldwide. In 2008, China had a new installed capacity totaled at 7.19 GW; the accumulative installed capacity reached as many as 13.2 GW.
Table Of Contents :

1 Global Wind Power Development
1.1 Overview
1.2 Regional Development
1.2.1 Germany
1.2.2 Spain
1.2.3 U.S.A
1.2.4 Denmark
1.3 Global Offshore Wind Power Development

2 China Wind Power Development
2.1 Wind Resource Distribution and Characteristics
2.1.1 Geographic Distribution
2.1.2 Characteristics
2.1.3 Offshore Wind Power
2.2 Wind Power Policies in China
2.3 Installed Capacity Development
2.4 Wind Farms
2.5 Wind Power On-grid Price

3. Development of Regional Markets
3.1 Inner Mongolia
3.1.1 Wind Power Resource
3.1.2 Status Quo
3.1.3 Development Plan
3.2 Gansu
3.2.1 Wind Power Resource
3.2.2 Status Quo
3.2.3 Development Plan
3.3. Hebei
3.3.1 Wind Power Resource
3.3.2 Status Quo
3.3.3 Development Plan
3.4 Jilin
3.4.1 Wind Power Resource
3.4.2 Wind Power Development
3.4.3 Development Plan
3.5 Xinjiang
3.5.1 Wind Power
3.5.2 Wind Power Development
3.5.3 Development Plan
3.6 Jiangsu
3.6.1 Wind Power Resource
3.6.2 Wind Power Development
3.6.3 Development Plan
3.7 Liaoning
3.7.1 Wind Power Resource
3.7.2 Wind Power Development
3.7.3 Development Plan
3.8 Heilongjiang
3.8.1 Wind Power Resource
3.8.2 Wind Power Development
3.9 Shandong
3.9.1 Wind Power Resource
3.9.2 Wind Power Development
3.9.3 Development Plan
3.10 Fujian
3.10.1 Wind Power Resource
3.10.2 Wind Power Development
3.10.3 Development Plan
3.11 Guangdong
3.11.1 Wind Power Resource
3.11.2 Wind Power Development
3.11.3 Development Plan
3.12 Ningxia
3.12.1 Wind Power Resource
3.12.2 Wind Power Development
3.12.3 Development Plan
3.13 Zhejiang
3.13.1 Wind Power Resource
3.13.2 Wind Power Development
3.14 Other Provinces

4. China Wind Power Equipment Market
4.1 Wind Turbine Market
4.1.1 Overview
4.1.2 Overview of Domestic Turbine Manufacturers
4.1.3 Oerview of Foreign Turbine Manufacturers in China
4.1.4 Goldwind
4.1.5 Sinovel
4.1.6 Gamesa
4.2 Turbine Components Market
4.2.1 Overview
4.2.2 Blade
4.2.3 Gear Box
4.2.4 Generator
4.2.5 Control System
4.3 Existing Problems Regarding China Wind Power Equipment Market

5. Major Wind Power Generation Groups in China
5.1 China Guodian Group Co.
5.1.1 Company Profile
5.1.2 Wind Power Development
5.1.3 Strategic Plans
5.2 Datang Group
5.2.1. Company Profile
5.2.2 Wind Power Development
5.2.3. Strategic Plans
5.3. Huaneng Group
5.3.1 Company Profile
5.3.2 Wind Power Development
5.3 Strategic Plans
5.4 China Huadian Corporation
5.4.1 Company Profile
5.4.2 Wind Power Development
5.4.3. Strategic Plans
5.5 Shenhua Group
5.5.1 Company Profile
5.5.2 Wind Power Development
5.5.3 Strategic Plan
5.6 China Power Investment Corporation
5.6.1 Company Profile
5.6.2 Wind Power Development
5.6.3 Strategic Plans
5.7 China Guangdong Nuclear Power Group
5.7.1 Company Profile
5.7.2 Wind Power Development
5.7.3 Strategic Plans

6. Conclusions and Suggestions

Selected Charts

Global Accumulative Installed Capacity, 1996-2007
Global Top Ten Countries by New Installed Capacity
Global Top Ten Countries by Accumulative Installed Capacity, 2005-2007
Top Ten States in U.S.A by Installed Capacity (as of 30 June, 2008)
Global Offshore Wind Power Development, 1995-2007
Geographic Distribution of Wind Power Resource in China
Accumulative Installed Capacity in China, 2000-2008
Wind Farms Distribution in China, 2007
Provincial Installed Capacity in China, 2007
Accumulative Installed Capacity in Inner Mongolia, 2005-2008
Accumulative Installed Capacity in Gansu, 2005-2008
Accumulative Installed Capacity in Hebei, 2004-2007
Accumulated Installed Capacity of Wind Power in Jilin, 2004-2008
Accumulated Installed Capacity in Xinjiang, 2004-2007
Market Share Distribution of Wind Turbine Manufacturers in China, 2004-2008
Proportion of Wind Turbines by Output Power, 2006- H1, 2008
Market Share Distribution Among Domestic Turbine Manufacturers in 2007
Market Share Distribution Among Foreign Turbine Manufacturers in China, 2007
Sinovel’s Production Capacity of 1.5MW Wind Turbine, 2006-2009
Cost Structure of Wind Turbine
Demand for Wind Blade in China, 2000-2010
New Installed Capacity of Power Generation Groups in China, 2007
Installed Capacity Proportion of Wind Power of Guodian, by Jun 30 2008
Accumulative Installed Wind Capacity of Longyuan, 2005-2020
Datang Group’s Accumulative Installed Wind Capacity, 2005-2008
Huaneng Group’s Accumulative Installed Wind Capacity , 2006-2010
Installed Capacity Proportion of Wind Power of Huadian Group, by the end of Oct 2008
Huadian Group’s Accumulative Installed Wind Capacity, 2007-2010
Installed Capacity Planning of Shenhua Group, 2007-2020
Installed Capacity Proportion of Wind Power of China Power Investment Corporation, 2007
Global and European Wind Power Development, 1990-2007
Global Accumulative Installed Capacity by Region, 2003-2007
Forecast of Global Wind Power Installed Capacity, 2010-2050
Renewable Energy Power Supply Plan in Denmark and EU
Milestones of Offshore Wind Power Development in China
Wind Power Policies in China, 2005-2008
Middle-Long Term Development Plan for Renewable Energy and Eleventh-Five Year Plan on Renewable Resource
Regional Distribution of Wind Power Farms in China, by the end of Apr 2008
Franchised Wind Power Project Price and Price by National Development and Reform Commission
Wind Farms in Inner Mongolia, 2007
Wind Farms in Gansu, 2007
Wind Farms in Hebei, 2007
Wind Farms in Jilin, 2007
Wind Farms in Xinjiang Autonomous Region, 2007
Wind Farms in Jiangsu, 2006-2007
Wind Farms in Liaoning
Wind Farms in Heilongjiang
Wind Farms of Shandong
Wind Farm in Fujian
Wind Farm in Guangdong
Wind Farm in Ningxia Hui Autonomous Region
Wind Farm in Zhejiang
Wind Farm in Hainan
Wind Farm in Henan
Wind Farm in Hong Kong
Wind Farm in Shanghai
Wind Farm in Beijing
Key Foreign Wind Turbine Manufacturers in China, 2008
Performance of Goldwind Science and Technology Co., Ltd., 2005-2008
Output of Goldwind Science and Technology Co., Ltd., 2005-2008
Wind Blade Production in China, 2008
Wind Gearbox Production in China, 2008
Wind Generator Production in China, 2008
Wind Control System Production in China, 2008
Events of Datang Group, 2008
Events of Huaneng Group, 2007-2008
Events of Huadian New Energy
Events of China Power Investment Corporation in 2008
Events of China Guangdong Nuclear Wind Power Co., Ltd in 2008

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In recent years, China power transmission and distribution equipment industry has developed rapidly, and its market scale has been continuously expanding. The demand of power transmission and transformation equipment in 2008 was robust, in particular, transformer, one of the three main kind equipments of grid, entered the golden development period. From Jan to Nov 2008, the sales revenue of transformer, rectifier and inductor were together achieved CNY184.105 billion with a total profit of CNY12.04 billion, up 29.73% and 40.14% respectively over the same period of last year.

Considering the transformer, there are two development trends. One is towards the ultra-high voltage, from 220V, 330V and 500KV to 750KV and 1000KV, those products are generally applied to large power stations or large-scale power transmission, and the reliability is significant, calling for the function improvement as well as rational distribution over the electrical, magnetic, thermal and mechanical properties. The second is towards energy-saving, small size, low noise, high impedance and explosion-proof.

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China had a total output of steam turbine generation at 82.6 million KW during Jan to Oct, 2008, up 4.04% year-on-year. However, the accumulative output of steam turbine generation had dropped rapidly. Shanghai, Sichuan province and Heilongjiang province enjoyed the top three largest output of steam turbine generation.

Meanwhile, China had a total output of hydropower generation at 19.3984 million KW, again, the accumulative output of hydropower generation decreased 14.17% year-on-year. According to the 11th and 12th Five-year Plans, there is an increasing demand for medium-sized and large hydropower generators.

Currently, China is still in the preliminary stage of the wind power development. With the gradually technological progress, the cost of wind power generation will be further declined.

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In contrast to the limitations of traditional energies, nuclear energy has merits in environmental friendliness, power generating efficiency and security. Currently, many countries are active in developing nuclear energy. As of Feb.2009, there had been 453 running nuclear power plants with the total installed capacity of 370.24 GW around the world.

As of April 2009, China had had 11 running nuclear power units with the total installed capacity of 9.1 GW; 24 nuclear power units planned or under construction with the total installed capacity of 25.4 GW, of which 13 units (including Unit 1 of Zhejiang Sanmen Nuclear Power Plant) with 13.35 GW are under construction.

Nuclear power accounts for a small proportion in the domestic power structure. As of 2008, China’s nuclear power generating capacity had reached 68.4 Twh, only 1.99% of the total global generating capacity. In the future, China will increase the investment in nuclear power. It is expected a new energy program issued in 2009 will adjust the installed capacity of nuclear power, making its proportion in power installed capacity increase from 4% to 8%. This will undoubtedly bring investment opportunities to nuclear power equipment industry.

The data in the Report is sourced from the National Energy Bureau, China Electricity Council and www.heneng.net.cn. The Report makes an in-depth analysis of the operation and development trends of key nuclear power enterprises in China, points out the development strategies and planning of China nuclear power industry, predicts the future development direction of nuclear power industry, and discusses investment opportunities and risks in the industry.

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