NEW YORK, Sept. 1, 2014 /PRNewswire/ -- Reportlinker.com announces that a new market research report is available in its catalogue:
High-Voltage Transmission Systems
http://www.reportlinker.com/p02316116/High-Voltage-Transmission-Systems.html
High-Voltage DC and AC Systems, Submarine Cables, Flexible AC Transmission Systems, Transmission Line Monitoring, SCADA, and Substation Automation and Monitoring
The high-voltage transmission system (HVTS) market is expanding globally. Growth across Asia Pacific, Latin America, the Middle East, and Africa mimics the initial wave of electrification and transmission system growth seen during the 20th century in North America and Europe. Today, the mega-growth and electrification in China, India, and parts of the Middle East and Africa are similar to the rapid growth of major cities and industrial expansion in the early 1900s that drove the development of HVTSs in North America and Europe.
The HVTS vendor landscape is changing as focus shifts to rebuilding and extending the HVTS to utility-scale wind and solar in remote regions and deploying geographically expansive HVTS infrastructure across regions like China, India, Latin America, the Middle East, and Africa. These efforts will create significant markets over the next decade. Meanwhile, industrial giants like Mitsubishi, Toshiba, Hyundai, Samsung, LSI, and Nexans and hundreds of smaller companies that were until recently on the fringes of the industry are joining the fight for sales in growing regional markets. Navigant Research forecasts that global annual HVTS revenue will grow from $20.8 billion in 2014 to $31.0 billion in 2023.
This Navigant Research report analyzes the global HVTS market, with a focus on seven technologies: high voltage direct current (HVDC), high-voltage alternating current (HVAC), submarine cables, flexible AC transmission systems (FACTS), transmission line monitoring, supervisory control and data acquisition (SCADA), and substation automation and monitoring. The study provides an analysis of the market issues, including drivers and challenges, as well as regional trends and opportunities, related to HVTS solutions. Global market forecasts for revenue, segmented by technology and region, extend through 2023. The report also provides technical descriptions of the primary technologies that represent the main components of the HVTS grid and profiles the key industry players.
Key Questions Addressed:
Which technologies represent the primary components of the high-voltage transmission system (HVTS) grid?
How do these technologies contribute to the HVTS being a next-generation smarter grid?
What factors affect the implementation of the different HVTS technologies?
How do the market trends and opportunities related to HVTS solutions vary by region?
What are the primary drivers for the growth of HVTS installations and revenue?
How is the HVTS vendor landscape changing?
Who needs this report?
High-voltage transmission system (HVTS) suppliers
Cable and cable equipment manufacturers
Transmission system operators (TSOs), regional transmission organizations (RTOs), and independent system operators (ISOs)
Utilities
Government agencies and regulators
Investor community
Table of Contents
1. Executive Summary
1.1 Market Overview
1.2 Vendor Landscape
1.3 HVTS Drivers
1.4 Key HVTS Technologies
1.5 HVTS Market Forecasts
2. Market Issues
2.1 Introduction
2.2 Market Drivers
2.2.1 Network Reliability
2.2.2 Grid Capacity
2.2.3 Generation Plant Retirements
2.2.4 Aging Infrastructure
2.2.5 Integration of Large-Scale Renewables
2.2.6 Move from Centralized to Distributed Grid Management Technologies
2.3 Market Barriers
2.3.1 Capital Requirements
2.3.2 Land Use and Eminent Domain
2.3.3 Regulatory Environment
2.4 Market Trends and Opportunities by Region
2.4.1 North America
2.4.1.1 Regulatory Policies in the United States and Canada
2.4.1.2 Uncertainties in the North American Market
2.4.2 Europe
2.4.2.1 Regulatory Policies in Europe
2.4.2.2 Uncertainties in the European Market
2.4.3 Asia Pacific
2.4.3.1 India
2.4.3.1.1. Regulatory Polices in India
2.4.3.2 China
2.4.3.2.1. Regulatory Policies in China
2.4.3.3 Uncertainties in the Asia Pacific Market
2.4.4 Latin America, the Middle East, and Africa
2.4.4.1 Brazil
2.4.4.2 Saudi Arabia
2.4.4.3 South Africa
3. Technology Issues
3.1 Introduction to HVTSs
3.2 HVDC Technologies
3.2.1 HVDC Technical Description
3.2.1.1 CSCs
3.2.1.2 VSCs
3.2.2 HVDC Recent Use Case
3.3 HVAC Technologies
3.3.1 HVAC Technical Description
3.3.2 HVAC Recent Use Case
3.4 Submarine Cable Technologies
3.4.1 Submarine Cable Technical Description
3.4.2 Submarine Cable Recent Use Case
3.5 FACTS Technologies
3.5.1 FACTS Technical Description
3.5.2 FACTS Recent Use Case
3.6 Transmission Line Monitoring Technologies
3.6.1 Transmission Line Monitoring Technical Description
3.6.1.1 Transmission Substations
3.6.1.2 Transformers
3.6.1.3 Bushings
3.6.1.4 Current Transformers and Voltage Transformers
3.6.1.5 Relays/Intelligent Electronic Devices
3.6.1.6 Circuit Breakers
3.6.1.7 Batteries
3.6.1.8 Transmission Lines
3.6.1.9 Phasor Measurement Units/Synchrophasors
3.6.2 Transmission Line Monitoring Recent Use Cases
3.6.2.1 AEP
3.6.2.2 Consolidated Edison Company of New York
3.7 SCADA Technologies
3.7.1 SCADA Technical Description
3.7.2 SCADA Recent Use Case
3.8 Substation Automation and Monitoring Technologies
3.8.1 Substation Automation and Monitoring Technical Description
3.8.1.1 Switchgear, Circuit Breakers, and Fuses
3.8.1.2 Transformers
3.8.1.3 Relay Technology
3.8.2 Substation Automation and Monitoring Recent Use Case
4. Key Industry Players
4.1 Major HVTS Suppliers
4.1.1 ABB
4.1.2 Alstom
4.1.3 AMSC
4.1.4 Doble Engineering
4.1.5 GE Energy
4.1.6 LS Industrial Systems
4.1.7 S&C Electric Company
4.1.8 Siemens
4.2 Major Supporting Providers
4.2.1 Cisco Systems
4.2.2 Esri
4.2.3 LS Cable & System
4.2.4 Nexans
4.2.5 nkt cables
4.2.6 Oracle
4.2.7 OSIsoft
4.2.8 Prysmian
4.2.9 Schneider Electric
4.3 TSOs, RTOs, and ISOs
4.3.1 CAISO
4.3.2 CSG
4.3.3 ERCOT
4.3.4 ENTSO-E
4.3.5 Eskom
4.3.6 ETT
4.3.7 ISO New England
4.3.8 Midcontinent Independent System Operator
4.3.9 Oncor Electric Delivery Company
4.3.10 PJM Interconnection
4.3.11 POWERGRID
4.3.12 Southwest Power Pool
4.3.13 SGCC
4.3.14 Western Electricity Coordinating Council Reliability Coordinator
5. Market Forecasts
5.1 Introduction
5.2 Forecast Methodology
5.2.1 HVDC
5.2.2 HVAC
5.2.3 Submarine Cable
5.2.4 FACTS
5.2.5 Transmission Line Monitoring
5.2.6 SCADA
5.2.7 Substation Automation and Monitoring
5.3 Global HVTS Market Forecast
5.3.1 North American HVTS Market
5.3.2 European HVTS Market
5.3.3 Asia Pacific HVTS Market
5.3.4 Latin American HVTS Market
5.3.5 Middle Eastern HVTS Market
5.3.6 African HVTS Market
5.4 Conclusions and Recommendations
5.5 HVTS Roadmap
6. Company Directory
7. Acronym and Abbreviation List
8. Table of Contents
9. Table of Charts and Figures
10. Scope of Study, Sources and Methodology, Notes
List of Charts and Figures
Annual HVTS Revenue by Region, World Markets: 2014-2023
Cumulative HVTS Revenue by Region, World Markets: 2014-2023
Annual HVTS Revenue by Technology, World Markets: 2014-2023
Annual HVTS Revenue by Technology, North America: 2014-2023
Annual HVTS Revenue by Technology, Europe: 2014-2023
Annual HVTS Revenue by Technology, Asia Pacific: 2014-2023
Annual HVTS Revenue by Technology, Latin America: 2014-2023
Annual HVTS Revenue by Technology, Middle East: 2014-2023
Annual HVTS Revenue by Technology, Africa: 2014-2023
Generation Plant Retirements, North America: 2012-2040
Electric Reliability Councils in the United States and Canada
RTOs and ISOs in North America
2050 Goals for Renewable Generation, European Union: 2010-2050
Current ENTSO-E Countries with TSOs in the European Market
Planned HVTSs under Implementation, India
Profile of China Grid Company Transmission Grid Coverage
Map of SADC and Eskom Transmission Service Territory
Simplified HVTS Connected to Distribution System
Generic Converter Station Layout
Evolution of Converter Technology Capacity: 1970-2011
Shoreham HVDC Converter Station
Tres Amigas Hub
SC Implementation for CREZ Transmission Project in Texas by ETT
Diagram of HVDC Submarine Cable System
Beatrice Offshore Wind Farm and Oil Platform
SVC Implementation at an HVAC Transmission Substation in Peru
SVC Implementation at SEC's Quwayyah Substation
Sensing and Monitoring in the T&D Grid, North America
Transmission Grid and Line Voltage, United States
Example of an HV Line Sensor
HVTS Map and Location of February 4, 2014 Disturbance, Brazil
HVTS Disturbance Monitoring and Post-Event Diagnosis, Brazil
List of Tables
Annual HVTS Revenue by Region, World Markets: 2014-2023
HVTS Revenue Market Share by Region, World Markets: 2014 and 2023
Cumulative HVTS Revenue by Region, World Markets: 2014-2023
Annual HVTS Revenue by Technology, World Markets: 2014-2023
Cumulative HVTS Revenue by Technology, World Markets: 2014-2023
Annual HVTS Revenue by Technology, North America: 2014-2023
Cumulative HVTS Revenue by Technology, North America: 2014-2023
Annual HVTS Revenue by Technology, Europe: 2014-2023
Cumulative HVTS Revenue by Technology, Europe: 2014-2023
Annual HVTS Revenue by Technology, Asia Pacific: 2014-2023
Cumulative HVTS Revenue by Technology, Asia Pacific: 2014-2023
Annual HVTS Revenue by Technology, Latin America: 2014-2023
Cumulative HVTS Revenue by Technology, Latin America: 2014-2023
Annual HVTS Revenue by Technology, Middle East: 2014-2023
Cumulative HVTS Revenue by Technology, Middle East: 2014-2023
Annual HVTS Revenue by Technology, Africa: 2014-2023
Cumulative HVTS Revenue by Technology, Africa: 2014-2023
To order this report: High-Voltage Transmission Systems
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