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市場調查報告書
全球輸配電基本設備及技術:報告&資料庫(第1版:2011年)
NRG Expert Electricity T&D Infrastructure and Technologies Report & Database Ed 1, 2011
| 出版商 |
NRGExpert |
| 出版日期 |
2011年12月 |
商品編碼 |
226444 |
| 內容資訊 |
英文 190 Pages |
| 價格 |
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全球輸配電基本設備及技術:報告&資料庫(第1版:2011年) 是由出版商NRGExpert在2011年12月所出版的。
這份英文市場調查報告書包含190 Pages 價格從美金6494起跳。
本報告提供全球輸配電基本設備及技術的趨勢相關調查分析,全球輸配電產業概要,智慧電網定義·市場規模·市場影響因素分析,國際間的輸配電網現況·計劃/企劃·發展預測,各國年度需求·CAPEX·發電容量·主要企業等報告及資料庫彙整,為您概述為以下內容。
第1章 概要
第2章 簡介
- 智慧電網與
- 定義
- 智慧電網
- 智慧電網的經濟學
- 市場定義·規模
- CAPEX·OPEX
- 市場影響因素
第3章 國際的供電網
- 歐洲
- UCTE
- ETSO
- CENTREL
- NORDEL
- BALTREL:Baltijos Ziedas(環波羅的海各國)
- UPS(Unified Power Systems)
- BG/RO
- SUDEL
- Medring
- 中東·北非的互相連接業者
- 中東:阿拉伯馬什里克各國
- 北非
- 電力系統的互相連接:埃及·伊拉克·約旦·土耳其的互相連接企劃
- 泛非洲互相連接計劃
- 橫貫非洲:經由非洲各國的扎伊爾·埃及間的互相連接
- 埃及·蘇丹鏈接
- 蘇丹·衣索比亞電力鏈接
- SAPP(South African Power Pool)
- ECOWAS(Economic Community of West African States)
- 非洲西部:茅利塔尼亞 ·塞內加爾·馬利共和國間的互相連接
- 東部非洲:非洲大湖泊地區
- 南北美洲
- 加拿大
- 美國
- 從北到南
- 中美北部3個國家
- 南美地區的能源部門的整合
- CIER(Comision de Integracion Electrica Regional)
- 南美的互相連接
- 亞洲
- SAARC(South Asian Association for Regional Cooperation)
- ASEAN電力電網
- 東北亞
- 中歐亞洲的電網
第4章 智慧電網的開發的課題
第5章 電力貯存
- 機器的貯存
- 電化學的貯存
- 電磁的貯存
- 溫水設備
- 與新能源的組合
- 發展趨勢
第6章 全球標準化
第7章 國家的智慧電網開發策略
第8章 EU
第9章 其他地區
- 澳洲
- 巴西
- 加拿大
- 智利
- 中國
- 厄瓜多
- 印度
- 日本
- 韓國
- 墨西哥
- 紐西蘭
- 俄羅斯
- 新加坡
- 南非
- UAE
- 美國
第10章 投資
第11章 成本
第12章 安全
第13章 調查手法
第14章 資訊來源
圖表
Abstract
Market Intelligence
T&D networks are continuously evolving in both size and nature. They must grow
in order to cope with ever rising demand. In the past where it was a matter of
adding more lines, trans-formers and ancillary equipment, today the technology
of the systems is often able to substi-tute increased sophistication for
physical growth, or to reduce the additions required by making the system more
efficient. The smart grid has gained a lot of column inches in the two years
as the panacea for all problems with the current grid system. Such as the
grid's high carbon footprint, inability to integrate a high percentage of
intermittent renewable energy capacity from wind and solar, and distributed,
small scale energy generators, such as rooftop solar PV plants and small scale
wind turbines. To date smart grid deployment has focused on smart meters and
associated communica-tions network in most countries with the notable
exception of China. The Chinese govern-ment is focussing more on installing
new long-distance cabling and reducing transmission and distribution losses.
The development of the smart grid in different markets is dependent upon the
smart grid drivers. For example, in the US, reducing energy consumption and
peak demand are key drivers therefore the market has focused on the large
scale deployment of smart meters. Along with national security, so the US is
currently investing heavily in cyber security. Significant barriers to the
development of the smart grid include a lack of standardisation, financing,
limited incentives for utilities, limited storage capacity, lack of financing
to name a few. However, the biggest barrier to the development of the grid is
public perception, as the cost of smart meter deployment has been passed onto
the consumer. Many smart meters have been deployed without displays showing
electricity consumption and the cost of that consumption. However, to make
this data more accessible Google and Microsoft have launched free online tools
to that display this information online.
The Report
The PDF Report contains:
- A General overview of the T&D industry
- An Introduction to the Smart Grid, together with assessments and detailed
sections on Definitions, Strategies, Security, Investment, Cost and
Development Issues
- Definitions of sectors in the industry (contained in the database)
- Grid interconnections and multinational collaboration
The Database
The database contains a by-country snapshot overview of the Transmission and
Distribution sector. Each region file contains a regional overview of Annual
Demand, Capital Expenditure and total generating capacity by country as well
as a list of details of industry companies.
Data Sample:
Table of Contents
1 General Overview
- 1.1 Transmission and Distribution Systems
- 1.2 Historical Development of Transmission and Distribution
2 Introduction
- 2.1 Why a smart grid?
- 2.2 Definitions
- 2.2.1 Products
- 2.2.2 Products and Business Services
- 2.3 The Smart Grid
- 2.4 The economics of the smart grid
- 2.5 Market Definition and Size
- 2.5.1 Addressable Market Size
- 2.6 Capital Expenditure and Operational Expenditure
- 2.7 Market Factors
- 2.7.1 The importance of refurbishment, retrofit instead of replacement
is rising
- 2.7.2 Increasing share of the service element in through-life contracts
- 2.7.3 Recognition of the need for increased investment in transmission
- 2.7.4 Expansion of distribution networks in large developing countries
3 International Transmission Grids
- 3.1 Europe
- 3.1.1 UCTE
- 3.1.2 ETSO
- 3.1.3 CENTREL
- 3.1.4 NORDEL
- 3.1.5 BALTREL - Baltijos Ziedas - the Baltic Ring
- 3.1.6 UPS Unified Power Systems
- 3.1.7 BG/RO
- 3.1.8 SUDEL
- 3.1.9 Medring
- 3.2 The Middle East and North African Inter-Connectors
- 3.2.1 Middle East - Mashreq Arab Countries
- 3.2.2 North Africa
- 3.2.3 Interconnection of Power Systems in the Egypt, Iraq, Jordan,
Lebanon, Syria, Turkey Interconnection Project
- 3.3 Pan-African Interconnection Plans
- 3.3.1 Trans-African - Interconnection between Zaire and Egypt passing
through other African countries
- 3.3.2 Egypt-Sudan link
- 3.3.3 Sudan-Ethiopia Power Link
- 3.3.4 South African Power Pool (SAPP)
- 3.3.5 Economic Community of West African States (ECOWAS)
- 3.3.6 West Africa - Interconnection of Mauritania-Senegal-Mali
- 3.3.7 East Africa - Great Lakes Region
- 3.4 Americas - from North to South
- 3.4.1 Canada
- 3.4.2 United States
- 3.4.3 South of the Border
- 3.4.4 The Northern Triangle of Central America
- 3.4.5 South America Regional Energy Sector Integration
- 3.4.6 Comision de Integracion Electrica Regional (CIER)
- 3.4.7 Interconnections in South America
- 3.5 Asia
- 3.5.1 South Asian Association for Regional Cooperation (SAARC)
- 3.5.2 ASEAN Power Grid
- 3.5.3 Northeast Asia
- 3.6 Central Asian Grids
4 Development Issues of the smart grid
5 Utility Storage
- 5.1 Mechanical Storage
- 5.2 Electrochemical storage
- 5.3 Electromagnetic storage
- 5.4 Water heaters
- 5.5 Coupling to new energies
- 5.6 Developments
6 Global Standardisation
7 National Smart Grid Development Strategies
8 European Union
9 Rest of the World
- 9.1 Australia
- 9.2 Brazil
- 9.3 Canada
- 9.4 Chile
- 9.5 China
- 9.5.1 Electricity market
- 9.5.2 State Grid Corporation of China
- 9.5.3 Electric vehicles
- 9.6 Ecuador
- 9.7 India
- 9.8 Japan
- 9.8.1 Electric vehicles
- 9.8.2 Players
- 9.8.3 Fujitsu
- 9.8.4 MegaChips
- 9.8.5 Toshiba
- 9.8.6 Utilities
- 9.8.7 International market
- 9.9 Korea, South
- 9.9.1 Projects
- 9.9.2 International market
- 9.9.3 Players
- 9.10 Mexico
- 9.11 New Zealand
- 9.12 Russia
- 9.13 Singapore
- 9.14 South Africa
- 9.15 United Arab Emirates (UAE)
- 9.16 United States of America (USA)
- 9.16.1 Regional variation
- 9.16.2 Electric vehicles
- 9.16.3 Players
10 Investment
11 Costs
12 Security
- 12.1 Data privacy issues
- 12.2 Energy Theft
- 12.3 Malicious intent
- 12.4 Market size
- 12.5 Players
13 Methodology
- 13.1.1 Stage 1 - T&D Forecasts
- 13.1.2 The Master Database
- 13.1.3 Stage 2
- 13.1.4 Stage 3
- 13.1.5 Stage 4
14 Sources
List of Figures
- Figure 2.1. Base, intermediate and peak load by time of day
- Figure 2.2. Cumulative Hours of Operation
- Figure 2.3. Traditional and future electric grid systems - Traditional
grid (left), future grid (right)
- Figure 2.4. Meters
- Figure 2.5. Percentage utility operating savings based on real savings at
AMI deployments
- Figure 5.1. Different grid storage options
- Figure 5.2. Salt structures and existing gas storage site in Europe
- Figure 5.3. Projected cost of electric vehicle batteries in the US, 2010 -
2030
- Figure 6.1. Members of the Global Smart Grid Federation, July 2010
- Figure 8.1. Liberalisation of the electricity market in Europe
- Figure 8.2. Smart meter deployment by EU member states
- Figure 8.3. SmartGrids ERA-NET Project - Participating Countries
- Figure 8.4. The TSO implementation plan
- Figure 8.5. Identification of priority functional projects, DSO
- Figure 8.6. European Electricity Grid Initiative estimated programme
costs, 2010 - 2019, € million
- Figure 8.7. SET Roadmap 2010/2020 proposed to the EU
- Figure 8.8. Medium and low voltage smart grid projects in Europe
- Figure 9.1. Australia's electricity and gas network companies
- Figure 9.2. Timeline for the development of the smart grid in Australia at
the state level
- Figure 9.3. Priority areas for the Energy Networks Association in
Australia, 2010 - 2012
- Figure 9.4. Macro-grid vision for Brazil
- Figure 9.5. Major transmission interconnections between Canada and the US
- Figure 9.6. Investment in the power sector in China, 2006 - 2009, US $
billions
- Figure 9.7. China Electricity Load & Resource Centres
- Figure 9.8. Geographic area covered by the two grid operators in China
- Figure 9.9. Map of the ten electric power companies in Japan by service
area
- Figure 9.10. National trunk line connections in Japan
- Figure 9.11. Changing factors around electricity demand and supply in Japan
- Figure 9.12. CRIEPI roadmap of the next generation grid in Japan
- Figure 9.13. CRIEPI expectations of different ICT networks required
- Figure 9.14. Japanese grid of the future
- Figure 9.15. Planned NEDO microgrids in Albuquerque and Los Alamos, New
Mexico - Albuquerque (left), Los Alamos (right)
- Figure 9.16. Procedures for operations of demand resource spot market in
Korea
- Figure 9.17. Schematic of the proposed DRRC's standard open ADR (automatic
demand response) operating system in Korea
- Figure 9.18. Development of Korea's planned real-time demand resource
trading system
- Figure 9.19. Ten power IT projects in Korea
- Figure 9.20. Timeline for the development of the ten power ICT projects in
Korea
- Figure 9.21. Korean players in the Jeju Island smart grid project
- Figure 9.22. Korean power network
- Figure 9.23. Wind capacity in the US as a percentage of total installed
power capacity
- Figure 9.24. RPS policies in the US with solar or distributed provisions,
October 2010
- Figure 9.25. Macro-grid vision for the USA
- Figure 9.26. Categories of US projects receiving smart grid investment
grants, July 2010, US $ million
- Figure 9.27. Locations of smart grid demonstration and large-scale energy
storage projects
- Figure 9.28. Utility scale smart meter deployments, plans, and proposals
in the US, September 2010
- Figure 9.29. Growth market for smart technology in the US, US $ billion
- Figure 10.1. Financial new investment by technology, 2009, US $ billion
- Figure 10.2. Corporate and government R&D investment by technology, 2009,
US $ billion
- Figure 10.3. Smart grid capital spending: 2007 - 2010, US $1.68 billion
- Figure 10.4. Top ten smart grid federal stimulus investments by country,
2010, US $ million
- Figure 11.1. Projected average cost of smart grid deployment, US $ million
- Figure 11.2. Projected development of the smart grid market, 2008 - 2030,
US $ billion
- Figure 11.3. Projected smart grid market size, 2009 - 2014, US $ billion
- Figure 11.4. Projections for the US and global smart grid market by
technology, US $ billion
- Figure 12.1. Attack points in the smart grid
- Figure 12.2. Projected size of the smart grid security market by
geography, US $ billion
配送電市場今後亦會持續成長
2012年01月17日
Global Information, Inc.已開始銷售市場調查公司NRGExpert所發行的報告書「NRG Expert Electricity T&D Infrastructure and Technologies Report & Database Ed 1, 2011 (全球輸配電基本設備及技術:報告&資料庫(第1版:2011年))」
配送電裝置市場上,中國超越美國成為全世界最大的市場。
本報告書預測,在2010年景氣佳之後,中國對配送電裝置的需求依然居世界首位。
2010年,全球對配送電裝置的需求在1,300億美元以上。其中中國的需求接近全部的20%規模。
NRG Expert預測配送電裝置市場到2015年為止將成長33%。大部分都是舊的基礎設施換新之需求及智慧電網技術造成量產的擴大。
配合有關NRG Expert的儀表報告書,本報告書明示轉移到智慧電網技術是牽引市場成長的主因。
此外,由於恢復對綠色技術的投資,各國導入新的技術,整備經年已退化的電網系統。目的在建構可因應今後必要的供電容量之網路。
NRG Expert的總經理Max Krangle敘述:「對配送電基礎設施部門的企業來說,2010年的業績雖如預料的那樣沒有很好,然將來的前景是光明的。此成長的大部分是儀表部門,以及轉移到更高度的智慧電網技術者。」。
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