超導體：各種技術與全球市場

超導體：各種技術與全球市場 是由出版商BCC Research在2010年09月所出版的。 這份英文市場調查報告書包含186 Pages 價格從美金4850起跳。

簡介

此報告書針對超導體製品之技術與市場進行各製品類型的調查分析，統整超導量材料與技術之概要、各產品之技術概要、末端使用者需求、主要供應商、市場規模的實績及預測（∼2015年）、主要企業之檔案等。

第1章 簡介

第2章 重點摘要

第3章 超導體：概要

• 超導體之一般概要
• 超導量材料
• APP與末端使用者
• 市場規模與市場區分

第4章 超傳體材料與技術

• 超導體材料
• 超導體相關之目前研究
• 專利分析

第5章 超導體電磁石之技術與市場：2009-2015年

• 技術
• 末端使用者
• 供應商
• 市場

第6章 超導體變壓器之技術與市場：2009-2015年

• 技術
• 末端使用者
• 供應商
• 市場

第7章 超導體發電機之技術與市場：2009-2015年

• 技術
• 末端使用者
• 供應商
• 市場

第8章 超導體馬達之技術與APP：2009-2015年

• 技術
• 末端使用者
• 供應商
• 市場

第9章 FCL之技術與市場：2009-2015年

• 技術
• 末端使用者
• 供應商
• 市場

第10章 超導體電力儲藏系統之技術與市場：2009-2015年

• 技術
• 末端使用者
• 供應商
• 市場

第11章 超導電流所引領之技術與市場：2009-2015年

• 技術
• 末端使用者
• 供應商
• 市場

第12章 超導體電纜之技術與市場：2009-2015年

• 技術
• 末端使用者
• 供應商
• 市場

第13章 超導體IC之技術與市場：2009-2015年

• 技術
• 末端使用者
• 供應商
• 市場

第14章 超導量RF與超音波過濾之技術及APP：2009-2015年

• 技術
• 末端使用者
• 供應商
• 市場

第15章 SQUID（超導量子干涉元件）之技術與市場：2009-2015年

• 技術
• 末端使用者
• 供應商
• 市場

附錄：企業檔案

目錄

Abstract

Highlights

• The global market for superconductivity applications was worth an estimated $1.7 billion in 2009, a figure that is expected to reach nearly $2 billion in 2010 and nearly $3.4 billion in 2015, a compound annual growth rate (CAGR) of 11.3% over the next 5 years.
• Superconducting magnets, particularly those used in science, research and technology development, and healthcare applications dominate the market. This sector is estimated at $1.9 billion in 2010 and is expected to be worth nearly $2.4 billion in 2015, a compound annual growth rate (CAGR) of 4.2%.
• Superconducting electrical equipment (e.g., transformers, generators, motors, fault current limiters, power storage, cable) is expected to capture nearly 25% of the market by 2015. This sector is estimated at $23 million in 2010 and is expected to reach $889 million in 2015, a compound annual growth rate (CAGR) of nearly 107%.

INTRODUCTION

STUDY BACKGROUND

Superconductivity is a unique and powerful tool in scientific research that has led to important strides in healthcare such as magnetic resonance imaging (MRI). Other superconducting technologies on the cusp of commercialization will increase the efficiency with which electricity is produced and used, which will indirectly benefit the environment. In the future, superconducting technologies may be used to predict earthquakes, map the magnetic fields produced by the brain, and produce ultra-high performance computers. These are only a few examples of the wide range of superconductivity technologies and applications analyzed in this report.

This report is an updated version of an earlier BCC report published in 2008.

STUDY GOALS AND OBJECTIVES

The overall goal of this report is to provide an up-to-date understanding of the developing market for superconducting applications, materials, and other enabling technologies. Specific objectives include:

• Identifying superconducting applications with the greatest commercial potential in the near to midterm (2009 to 2015)
• Analyzing the key drivers and constraints that will shape the market for these superconducting applications as the basis for projecting demand over the next 5 years
• Estimating current and future consumption of superconducting materials and other key enabling technologies
• Identifying the companies that are best positioned to meet this demand because of their proprietary technologies, strategic alliances, or other advantages.

INTENDED AUDIENCE

This report is intended for marketing executives, entrepreneurs, investors, venture capitalists, and other readers with a need to know where the superconductivity field is headed over the next 5 to 10 years. Other readers who should find the report particularly valuable include government officials associated with the U.S. Department of Energy (DOE) and other national and state-level programs charged with advancing the development of the nanotechnology industry.

Although the report addresses specific superconductivity technologies and materials, it is generally non-technical in nature and coverage. Thus, it is less concerned with theory and jargon than with identifying the developments that work, assessing the amount of technologies the market is likely to purchase, and projecting the price of such technologies. Although the report is not written specifically for scientists and technologists, many of these professionals will be interested in its findings concerning the market for their work, including the availability of government and corporate research funding for different technologies and applications.

SCOPE OF REPORT

The report addresses trends in superconductivity technology and the global market for superconductivity applications during the period from 2009 through 2015, including:

• Science, research, and technology development
• Healthcare
• Electric utilities
• Computing
• Transportation
• Communications
• Military/defense
• Other applications

The study format includes the following major elements:

• Executive summary
• Overview (i.e., definitions, brief history, superconductivity characteristics, market summary)
• Developments in superconducting technology that are expected to influence the market through 2015
• Detailed market estimates and projections for each technology, application, and end use during the period from 2009 to 2015
• General assessment of expected technological and market trends in the longer term
• Description of key players in the emerging superconductivity industry

INFORMATION SOURCES AND METHODOLOGY

The findings and conclusions presented in this report are based on information gathered from primary sources within the industry, including vendors and users of superconductivity products. Interview data were combined with information gathered through an extensive review of secondary sources such as trade publications, trade associations, company literature, and online databases to produce the market projections contained in this report.

The base year for analysis and projection is 2009. With 2009 as a baseline, market projections were developed for 2010 to 2015. These projections are based on a combination of a consensus among the primary contacts and our understanding of the key market drivers and their impact from a historical and analytical perspective.

The analytical methodologies used to generate the market estimates are described in detail in the section on "Detailed Market Projections." The documentation is intended to enable the reader to evaluate the projections, and if desired, substitute alternative assumptions.

All dollar projections presented in this report are in 2009 constant dollars unless otherwise noted.

Table of Contents

Chapter- 1: INTRODUCTION -- Complimentary 4

• STUDY BACKGROUND 1
• STUDY GOALS AND OBJECTIVES 1
• INTENDED AUDIENCE 1
• SCOPE OF REPORT 2
• INFORMATION SOURCES AND METHODOLOGY 3
• ANALYST CREDENTIALS 3
• RELATED BCC RESEARCH REPORTS 4
• BCC ONLINE SERVICES 4
• DISCLAIMER 4

Chapter-2: EXECUTIVE SUMMARY 2

• SUMMARY TABLE GLOBAL MARKET FOR SUPERCONDUCTIVITY TECHNOLOGIES, THROUGH 2015 ($ MILLIONS) 5
• SUMMARY FIGURE GLOBAL MARKET FOR SUPERCONDUCTIVITY TECHNOLOGIES, 2009-2015 ($ MILLIONS) 6

Chapter-3: SUPERCONDUCTIVITY OVERVIEW 41

• GENERAL DESCRIPTION OF SUPERCONDUCTIVITY 7
• PROPERTIES OF SUPERCONDUCTORS 7
• Conductivity 7
• Magnetic Properties 7
• Tunneling 8
• MECHANISMS OF SUPERCONDUCTIVITY 8
• BRIEF HISTORY OF SUPERCONDUCTIVITY 9
• Brief History of Superconductivity (Continued) 10
• Brief History of Superconductivity (Continued) 11
• ADVANTAGES AND LIMITATIONS OF SUPERCONDUCTORS 12
• Advantages of Superconductors 12
• Advantages of Type II versus Type I Superconductors 13
• Limitations of Superconductors 13
• SUPERCONDUCTING MATERIALS 14
• TYPE I SUPERCONDUCTORS 14
• TYPE II SUPERCONDUCTORS 14
• ATYPICAL SUPERCONDUCTORS 15
• APPLICATIONS AND END USES 16
• TABLE 1 MAJOR END USES AND APLICATIONS OF SUPERCONDUCTIIVTY 16
• TABLE 1 (CONTINUED) 17
• APPLICATIONS 17
• Superconducting Magnets 17
• Superconducting Transformers 18
• Superconducting Electric Generators 19
• Superconducting Electric Motors 19
• FCLs 20
• Superconducting Power Storage Systems 21
• Superconducting Magnetic Energy Storage (SMES) 21
• Superconducting Flywheel Energy Storage (SFES) 22
• Current Leads 22
• Superconducting Wires 23
• Superconducting Integrated Circuits 24
• TABLE 2 POTENTIAL APPLICATIONS OF SUPERCONDUCTOR ICS 24
• Superconducting Integrated Circuits (Continued) 25
• Superconducting Integrated Circuits (Continued) 26
• Superconducting RF and Microwave Filters 27
• Superconducting Quantum Interference Devices (SQUIDs) 28
• END USES 28
• Science, Research, and Technology Development 28
• Healthcare 29
• Electric Utilities 30
• Generation 30
• Storage 31
• Transmission 32
• Computing 33
• Computing (Continued) 34
• Transportation 35
• MagLev Trains 35
• Other Railway Applications 36
• Commercial Ship Propulsion 37
• Electric Vehicles 37
• Communications 37
• Communications (Continued) 38
• Military/Defense 39
• Military/Defense (Continued) 40
• Other End Uses 41
• MARKET SIZE AND SEGMENTATION 42
• MARKET SIZE 42
• TABLE 3 GLOBAL MARKET FOR SUPERCONDITIVITY APPLICATIONS BY TYPE OF APPLICATION, THROUGH 2015 ($ MILLIONS) 42
• FIGURE 1 TRENDS IN GLOBAL MARKET FOR SUPERCONDUCTIVITY APPLICATIONS, 2009 - 2015 ($ MILLIONS) 43
• APPLICATION SEGMENTS 43
• FIGURE 2 GLOBAL SUPERCONDUCTIVITY APPLICATION SEGMENTS, 2009 - 2015 (%) 44
• END-USE SEGMENTS 45
• TABLE 4 GLOBAL MARKET FOR SUPERCONDITIVITY APPLICATIONS BY TYPE OF END USE, THROUGH 2015 ($ MILLIONS) 45
• FIGURE 3 GLOBAL SUPERCONDUCTIVITY END USE SEGMENTS, 2009 - 2015 (%) 46
• TYPES OF SUPERCONDUCTING MATERIALS 46
• TABLE 5 GLOBAL MARKET FOR SUPERCONDUCTING MATERIALS, THROUGH 2015 ($ MILLIONS) 47

Chapter-4: SUPERCONDUCTING MATERIALS AND TECHNOLOGIES 12

• SUPERCONDUCTING MATERIALS 48
• TYPE I SUPERCONDUCTORS 48
• TABLE 6 TYPE I SUPERCONDUCTORS 48
• TABLE 6 (CONTINUED) 49
• TYPE II SUPERCONDUCTORS 49
• TABLE 7 TYPE II SUPERCONDUCTORS 49
• TABLE 7 (CONTINUED) 50
• TABLE 7 (CONTINUED) 51
• TABLE 7 (CONTINUED) 52
• Low-Temperature versus High-Temperature Superconductors 52
• CURRENT RESEARCH IN SUPERCONDUCTIVITY 52
• MAJOR PLAYERS AND AREAS OF CONCENTRATION 52
• TABLE 8 MAJOR ORGANIZATIONS CONDUCTING SUPERCONDUCTVITY RESEARCH 52
• TABLE 8 (CONTINUED) 53
• RECENT TECHNOLOGICAL ADVANCES 54
• PATENT ANALYSIS 55
• FIGURE 4 U.S. PATENTS RELATING TO LTS VERSUS HTS (% OF TOTAL SUPERCONDUCTIVITY-RELATED PATENTS) 56
• FIGURE 5 NUMBER OF U.S. SUPERCONDUCTIVITY-RELATED PATENTS BY TYPE OF APPLICATION (NO. OF PATENTS) 57
• FIGURE 6 U.S. SUPERCONDUCTIVITY-RELATED PATENTS BY TYPE OF ASSIGNEE (% OF 200-PATENT SAMPLE) 58
• FIGURE 7 U.S. SUPERCONDUCTIVITY-RELATED PATENTS BY ASSIGNEE' S COUNTRY OF ORIGIN (% OF 200-PATENT SAMPLE) 59

Chapter-5: SUPERCONDUCTING MAGNET TECHNOLOGIES AND MARKETS, 2009 - 2015 TECHNOLOGY 29

• TECHNOLOGY 60
• CHARACTERISTICS OF SUPERCONDUCTING MAGNETS 60
• CONSTRUCTION, MATERIALS, AND PERFORMANCE 60
• Construction 60
• Materials 61
• TYPES OF SYSTEMS 61
• Cryogen-Free Magnets 62
• Low-Helium Consumption Magnets 62
• Projected Magnetic Field Superconducting Magnets 63
• High Magnetic Field Systems 63
• Hybrid Magnets 64
• Shielded Magnet Systems 64
• END USES 65
• TABLE 9 SUPERCONDUCTING MAGNET END USES 65
• SCIENCE, RESEARCH, AND TECHNOLOGY DEVELOPMENT 65
• Particle Accelerators 65
• Beam Transport Magnets 66
• Accelerator Magnets 66
• Bubble Chamber Magnets 66
• NMR Spectroscopy 67
• HEALTHCARE 68
• Magnetic Resonance Imaging (MRI) 68
• TRANSPORTATION 68
• MagLev Trains 68
• MagLev Trains (Continued) 69
• Other MagLev Applications 70
• OTHER END USES 70
• Magnetic Separations 70
• Disposable Mixing Systems 71
• SUPPLIERS 71
• TABLE 10 SUPPLIERS OF SUPERCONDUCTING MAGNETS AND COMPONENTS 71
• MARKET FOR SUPERCONDUCTING MAGNETS 72
• SUMMARY 72
• TABLE 11 GLOBAL MARKET FOR SUPERCONDUCTING MAGNETS, THROUGH 2015 ($ MILLIONS) 72
• FIGURE 8 GLOBAL SUPERCONDUCTING MAGNET MARKET SHARES BY APPLICATION SEGMENT, 2009 - 2015 (% TOTAL SHIPMENTS) 73
• TABLE 12 GLOBAL CONSUMPTION OF SUPERCONDUCTING MATERIALS USED IN MAGNETIC APPLICATIONS, THROUGH 2015 ($ MILLIONS) 74
• FIGURE 9 GLOBAL SUPERCONDUCTING MAGNET MARKET SHARES BY TYPE OF SUPERCONDUCTING MATERIAL, 2009 - 2015 (% TOTAL SHIPMENTS) 74
• FIGURE 9 (CONTINUED) 75
• SCIENCE, RESEARCH, AND TECHNOLOGY DEVELOPMENT 75
• TABLE 13 GLOBAL MARKET FOR SUPERCONDUCTING MAGNETS USED IN SCIENCE, RESEARCH, AND TECHNOLOGY DEVELOPMENT APPLICATIONS, 2009 - 2015 ($ MILLIONS) 75
• Nuclear Magnetic Resonance Spectrometers 75
• FIGURE 10 GLOBAL MARKET FOR NMR SPECTROMETERS, 2009 - 2015 ($ MILLIONS) 76
• TABLE 14 GLOBAL MARKET FOR SUPERCONDUCTING MAGNETS USED IN NMR SPECTROMETERS, THROUGH 2015 ($ MILLIONS) 77
• TABLE 15 GLOBAL CONSUMPTION OF SUPERCONDUCTING WIRE USED IN NMR SPECTROMETER MAGNETS, THROUGH 2015 ($ MILLIONS) 77
• Particle Accelerators 78
• TABLE 16 GLOBAL MARKET FOR SUPERCONDUCTING MAGNETS USED IN SCIENCE, RESEARCH, AND TECHNOLOGY DEVELOPMENT APPLICATIONS, THROUGH 2015 ($ MILLIONS) 78
• Research Accelerators 78
• Medical Accelerators 79
• TABLE 17 U.S. PROTON THERAPY CENTERS 79
• FIGURE 11 GLOBAL MARKET FOR PROTON THERAPY MACHINES, 2009 - 2015 ($ MILLIONS) 80
• TABLE 18 GLOBAL MARKET FOR SUPERCONDUCTING MAGNETS AND WIRE USED IN PROTON THERAPY MACHINES, THROUGH 2015 ($ MILLIONS) 81
• HEALTHCARE 81
• MRI Scanners 81
• FIGURE 12 GLOBAL MARKET FOR MRI SCANNERS, 2009 - 2015 ($ BILLIONS) 82
• TABLE 19 GLOBAL MARKET FOR SUPERCONDUCTING MAGNETS USED IN MRI SCANNERS, THROUGH 2015 ($ MILLIONS) 82
• TABLE 20 GLOBAL CONSUMPTION OF SUPERCONDUCTING WIRE USED IN MRI SCANNER MAGNETS, THROUGH 2015 ($ MILLIONS) 83
• TRANSPORTATION 83
• Superconducting MagLev Trains 83
• TABLE 21 GLOBAL MARKET FOR SUPERCONDUCTING MAGNETS USED IN MAGLEV RAILCARS, THROUGH 2015 ($ MILLIONS) 84
• OTHER END USES 84
• TABLE 22 GLOBAL MARKET FOR SUPERCONDUCTING MAGNETS USED IN OTHER INDUSTRIAL APPLICATIONS, THROUGH 2015 ($ MILLIONS) 85
• Magnetic Separations 85
• FIGURE 13 GLOBAL MARKET FOR SUPERCONDUCTING MAGNETIC SEPARATORS, 2009 - 2015 ($ MILLIONS) 86
• TABLE 23 GLOBAL MARKET FOR SUPERCONDUCTING MAGNETS USED IN HIGH-GRADIENT SEPARATION SYSTEMS, THROUGH 2015 ($ MILLIONS) 86
• Disposable Mixing Systems 87
• FIGURE 14 GLOBAL MARKET FOR SUPERCONDUCTING MAGNET-DRIVEN DISPOSABLE MIXING SYSTEMS, 2009 - 2015 ($ MILLIONS) 87
• TABLE 24 GLOBAL MARKET FOR SUPERCONDUCTING MATERIALS USED IN DISPOSABLE MIXING SYSTEMS, THROUGH 2015 ($ MILLIONS) 88

Chapter-6: SUPERCONDUCTING TRANSFORMER TECHNOLOGIES AND MARKETS, 2009 - 2015 TECHNOLOGY 11

• TECHNOLOGY 89
• CHARACTERISTICS OF SUPERCONDUCTING TRANSFORMERS 89
• Reduced Load Losses 89
• Lower Cost of Ownership 90
• Safety and Environmental Advantages 90
• Smaller Footprint and Lower Weight 91
• CONSTRUCTION, MATERIALS, AND PERFORMANCE 91
• Construction 91
• Materials 91
• TYPES OF SYSTEMS 92
• Iron Core versus Air Core 92
• Hybrid Transformers 92
• END USES 93
• TABLE 25 SUPERCONDUCTING TRANSFORMER END USES 93
• ELECTRIC POWER GENERATION AND TRANSMISSION 93
• Electricity Distribution 93
• TRANSPORTATION 94
• SUPPLIERS 94
• TABLE 26 SUPPLIERS OF SUPERCONDUCTING TRANSFORMERS AND COMPONENTS 94
• MARKET FOR SUPERCONDUCTING TRANSFORMERS 94
• SUMMARY 94
• TABLE 27 GLOBAL MARKET FOR SUPERCONDUCTING TRANSFORMERS, THROUGH 2015 ($ MILLIONS) 95
• FIGURE 15 GLOBAL SUPERCONDUCTING TRANSFORMER MARKET SHARES BY APPLICATION SEGMENT, 2009 - 2015 (% TOTAL SHIPMENTS) 95
• TABLE 28 GLOBAL CONSUMPTION OF SUPERCONDUCTING MATERIALS USED IN TRANSFORMER APPLICATIONS, THROUGH 2015 ($ MILLIONS) 96
• ELECTRIC POWER GENERATION AND TRANSMISSION 96
• FIGURE 16 GLOBAL MARKET FOR POWER TRANSFORMERS RATED 10 MVA AND ABOVE, 2009-2015 ($ BILLIONS) 96
• FIGURE 16 (CONTINUED) 97
• TABLE 29 GLOBAL MARKET FOR SUPERCONDUCTING UTILITY POWER TRANSFORMERS AND RELATED CONSUMPTION OF SUPERCONDUCTING MATERIALS, THROUGH 2015 ($ MILLIONS) 97
• TRANSPORTATION 98
• TABLE 30 ESTIMATED SHINKANSEN-TYPE TRAIN SET DELIVERIES, THROUGH 2015 (NUMBER OF TRAIN SETS) 99
• TABLE 31 GLOBAL MARKET FOR SUPERCONDUCTING TRACTION TRANSFORMERS AND RELATED CONSUMPTION OF SUPERCONDUCTING MATERIALS, THROUGH 2015 ($ MILLIONS) 99

Chapter-7: SUPERCONDUCTING ELECTRIC GENERATOR TECHNOLOGIES AND MARKETS, 2009 - 2015 TECHNOLOGY 11

• TECHNOLOGY 100
• CHARACTERISTICS OF SUPERCONDUCTING GENERATORS 100
• Greater Efficiency 100
• Longer Life 100
• Smaller Size and Lighter Weight 100
• Lower Acquisition and Installation Costs 101
• CONSTRUCTION, MATERIALS, AND PERFORMANCE 101
• Construction and Operation 101
• Materials 102
• END USES 102
• TABLE 32 SUPERCONDUCTING GENERATOR END USES 102
• ELECTRIC POWER GENERATION AND TRANSMISSION 102
• TRANSPORTATION 102
• MILITARY/DEFENSE 103
• SUPPLIERS 104
• TABLE 33 SUPPLIERS OF SUPERCONDUCTING GENERATORS AND COMPONENTS 104
• MARKET FOR SUPERCONDUCTING GENERATORS 105
• SUMMARY 105
• TABLE 34 GLOBAL MARKET FOR SUPERCONDUCTING GENERATORS, THROUGH 2015 ($ MILLIONS) 105
• FIGURE 17 GLOBAL SUPERCONDUCTING GENERATOR MARKET SHARES BY APPLICATION SEGMENT, 2009 - 2015 (% TOTAL SHIPMENTS) 105
• FIGURE 17 (CONTINUED) 106
• TABLE 35 GLOBAL CONSUMPTION OF SUPERCONDUCTING MATERIALS USED IN GENERATOR APPLICATIONS, THROUGH 2015 ($ MILLIONS) 106
• ELECTRIC POWER GENERATION AND TRANSMISSION 106
• TRANSPORTATION 107
• FIGURE 18 GLOBAL MARKET FOR MARINE PROPULSION GENERATORS, 2009 - 2015 ($ MILLIONS) 108
• TABLE 36 GLOBAL MARKET FOR SUPERCONDUCTING MARINE PROPULSION GENERATORS AND RELATED CONSUMPTION OF SUPERCONDUCTING WIRE, THROUGH 2015 ($ MILLIONS) 109
• MILITARY/DEFENSE 109
• Warship Propulsion Systems 109
• DEW 110
• TABLE 37 GLOBAL MARKET FOR SUPERCONDUCTING AIRBORNE GENERATORS AND RELATED CONSUMPTION OF SUPERCONDUCTING WIRE, THROUGH 2015 ($ MILLIONS) 110

Chapter-8: SUPERCONDUCTING ELECTRIC MOTOR TECHNOLOGIES AND APPLICATIONS, 2009 - 2015 TECHNOLOGY 12

• TECHNOLOGY 111
• CHARACTERISTICS OF SUPERCONDUCTING MOTORS 111
• Compact Size 111
• Flexibility 111
• Reduced Noise 111
• Increased Stability 112
• Lower Acquisition and Operating Cost 112
• CONSTRUCTION, MATERIALS, AND PERFORMANCE 112
• Construction and Operation 112
• TYPES OF SYSTEMS 113
• Linear Motors 113
• Homopolar Motors 114
• END USES 114
• TABLE 38 SUPERCONDUCTING MOTOR END USES 114
• TRANSPORTATION 115
• Marine Propulsion Systems 115
• Electric Vehicles 115
• Electric Airplanes 116
• MILITARY/DEFENSE 116
• PROCESS INDUSTRIES 117
• SUPPLIERS 117
• TABLE 39 SUPPLIERS OF SUPERCONDUCTING ELECTRIC MOTORS AND COMPONENTS 117
• MARKET FOR SUPERCONDUCTING ELECTRIC MOTORS 117
• SUMMARY 117
• TABLE 40 GLOBAL MARKET FOR SUPERCONDUCTING ELECTRIC MOTORS, THROUGH 2015 ($ MILLIONS) 118
• FIGURE 19 SUPERCONDUCTING MOTOR MARKET SHARES BY APPLICATION SEGMENT, 2009 - 2015 (% TOTAL SHIPMENTS) 118
• FIGURE 19 (CONTINUED) 119
• TABLE 41 GLOBAL CONSUMPTION OF SUPERCONDUCTING MATERIALS USED IN ELECTRIC MOTOR APPLICATIONS, THROUGH 2015 ($ MILLIONS) 119
• TRANSPORTATION 119
• FIGURE 20 GLOBAL MARKET FOR MARINE ELECTRIC MOTORS, 2009 - 2015 ($ MILLIONS) 120
• TABLE 42 GLOBAL MARKET FOR SUPERCONDUCTING MARINE ELECTRIC MOTORS AND RELATED CONSUMPTION OF SUPERCONDUCTING WIRE, THROUGH 2015 ($ MILLIONS) 121
• MILITARY/DEFENSE 121
• PROCESS INDUSTRIES 121
• TABLE 43 GLOBAL MARKET FOR SUPERCONDUCTING MARINE ELECTRIC MOTORS AND RELATED CONSUMPTION OF SUPERCONDUCTING WIRE, THROUGH 2015 ($ MILLIONS) 122

Chapter-9: FCL TECHNOLOGIES AND MARKETS, 2009 - 2015 8

• TECHNOLOGY 123
• CHARACTERISTICS 123
• CONSTRUCTION, MATERIALS, AND PERFORMANCE 124
• Construction 124
• Materials 124
• TYPES OF SYSTEMS 124
• Resistive FCLs 125
• Inductive FCLs 125
• END USES 125
• TABLE 44 FCL APPLICATIONS 125
• ELECTRIC POWER GENERATION AND TRANSMISSION 125
• TRANSPORTATION 126
• SUPPLIERS 126
• TABLE 45 SUPPLIERS OF FCLS 126
• MARKET FOR FCLS 127
• SUMMARY 127
• TABLE 46 GLOBAL MARKET FOR FCLS, THROUGH 2015 ($ MILLIONS) 127
• FIGURE 21 FCL MARKET SHARES BY APPLICATION SEGMENT, 2009 - 2015 (% TOTAL SHIPMENTS) 127
• FIGURE 21 (CONTINUED) 128
• TABLE 47 GLOBAL CONSUMPTION OF SUPERCONDUCTING MATERIALS USED IN FAULT CURRENT LIMITERS, THROUGH 2015 ($ MILLIONS) 128
• ELECTRIC POWER GENERATION AND TRANSMISSION 128
• TABLE 48 GLOBAL ELECTIC UTILITY MARKET FOR FAULT CURRENT LIMITERS, THROUGH 2015 ($ MILLIONS) 129
• TRANSPORTATION 130
• TABLE 49 GLOBAL MARINE MARKET FOR FAULT CURRENT LIMITERS, THROUGH 2015 ($ MILLIONS) 130

Chapter-10: SUPERCONDUCTING POWER STORAGE TECHNOLOGIES AND MARKETS, 2009 - 2015 TECHNOLOGY 7

• TECHNOLOGY 131
• CHARACTERISTICS 131
• TYPES OF SYSTEMS 131
• SMES 131
• Superconducting Flywheel Energy Storage (SFES) 132
• CONSTRUCTION, MATERIALS, AND PERFORMANCE 132
• Construction 132
• Materials 133
• END USES 133
• TABLE 50 SUPERCONDUCTING ENERGY STORAGE APPLICATIONS 133
• ELECTRIC POWER GENERATION AND TRANSMISSION 133
• MANUFACTURING 134
• SUPPLIERS 134
• TABLE 51 DEVELOPERS OF SUPERCONDUCTING POWER STORAGE SYSTEMS 134
• MARKET FOR SUPERCONDUCTING POWER STORAGE SYSTEMS 134
• SUMMARY 134
• TABLE 52 GLOBAL MARKET FOR SUPERCONDUCTING POWER STORAGE SYSTEMS, THROUGH 2015 ($ MILLIONS) 135
• FIGURE 22 GLOBAL SUPERCONDUCTING POWER STORAGE SHARES BY APPLICATION SEGMENT, 2009 - 2015 (% TOTAL SHIPMENTS) 135
• FIGURE 22 (CONTINUED) 136
• TABLE 53 GLOBAL CONSUMPTION OF SUPERCONDUCTING MATERIALS USED IN POWER STORAGE APPLICATIONS, THROUGH 2015 ($ MILLIONS) 136
• ELECTRICITY GENERATION AND TRANSMISSION 136
• TABLE 54 GLOBAL ELECTRIC UTILITY MARKET FOR SUPERCONDUCTING ENERGY STORAGE, THROUGH 2015 ($ MILLIONS) 137
• OTHER INDUSTRIAL APPLICATIONS 137
• TABLE 55 GLOBAL INDUSTRIAL MARKET FOR SUPERCONDUCTING ENERGY STORAGE, THROUGH 2015 ($ MILLIONS) 137

Chapter-11: SUPERCONDUCTING CURRENT LEAD TECHNOLOGIES AND MARKETS, 2009 - 2015 TECHNOLOGY 6

• TECHNOLOGY 138
• CHARACTERISTICS OF SUPERCONDUCTING CURRENT LEADS 138
• CONSTRUCTION, MATERIALS, AND PERFORMANCE 138
• Construction 138
• Materials 139
• END USES 139
• TABLE 56 SUPERCONDUCTING CURRENT LEAD END USES 139
• SCIENCE, RESEARCH, AND TECHNOLOGY DEVELOPMENT 139
• HEALTHCARE AND OTHER APPLICATIONS 140
• SUPPLIERS 140
• TABLE 57 SUPPLIERS OF SUPERCONDUCTING CURRENT LEADS 140
• MARKET FOR SUPERCONDUCTING CURRENT LEADS 140
• TABLE 58 GLOBAL MARKET FOR SUPERCONDUCTING CURRENT LEADS, THROUGH 2015 ($ MILLIONS) 141
• FIGURE 23 SUPERCONDUCTING MAGNET MARKET SHARES BY APPLICATION SEGMENT, 2009 - 2015 (% TOTAL SHIPMENTS) 141
• TABLE 59 GLOBAL CONSUMPTION OF SUPERCONDUCTING MATERIALS USED IN SUPERCONDUCTING CURRENT LEAD APPLICATIONS, THROUGH 2015 ($ MILLIONS) 142
• SCIENCE, RESEARCH, AND TECHNOLOGY DEVELOPMENT 142
• TABLE 60 GLOBAL MARKET FOR SUPERCONDUCTING CURRENT LEADS USED IN SCIENCE, RESEARCH, AND TECHNOLOGY DEVELOPMENT APPLICATIONS, THROUGH 2015 ($ MILLIONS) 142
• HEALTHCARE 143
• TABLE 61 GLOBAL MARKET FOR SUPERCONDUCTING CURRENT LEADS USED IN HEALTHCARE APPLICATIONS, THROUGH 2015 ($ MILLIONS) 143

Chapter-12: SUPERCONDUCTING CABLE TECHNOLOGIES AND MARKETS, 2009 - 2015 TECHNOLOGY 4

• TECHNOLOGY 144
• CHACTERISTICS OF SUPERCONDUCTING WIRES 144
• CONSTRUCTION, MATERIALS, AND PERFORMANCE 145
• END USES 145
• SUPPLIERS 146
• TABLE 62 DEVELOPERS AND SUPPLIERS OF SUPERCONDUCTING ELECTRIC TRANSMISSION WIRE AND CABLE 146
• MARKET FOR SUPERCONDUCTING CABLE 146
• TABLE 63 GLOBAL MARKET FOR SUPERCONDUCTING ELECTRIC TRANSMISSION CABLE, THROUGH 2015 ($ MILLIONS) 147

Chapter-13: SUPERCONDUCTING IC TECHNOLOGIES AND MARKETS, 2009 - 2015 TECHNOLOGY 8

• TECHNOLOGY 148
• CHARACTERISTICS 148
• CONSTRUCTION, MATERIALS, AND PERFORMANCE 149
• END USES 149
• TABLE 64 SUPERCONDUCTING IC END USES 149
• SCIENCE, RESEARCH, AND TECHNOLOGY DEVELOPMENT APPLICATIONS 149
• COMMUNICATIONS 149
• COMPUTING 150
• SUPPLIERS 150
• TABLE 65 SUPPLIERS OF SUPERCONDUCTING CURRENT LEADS 150
• MARKETS 150
• SUMMARY 150
• TABLE 66 GLOBAL MARKET FOR SUPERCONDUCTING ICS, THROUGH 2015 ($ MILLIONS) 151
• FIGURE 24 GLOBAL SUPERCONDUCTING IC MARKET SHARES BY APPLICATION SEGMENT, 2009 - 2015 (% TOTAL SHIPMENTS) 151
• FIGURE 24 (CONTINUED) 152
• TABLE 67 GLOBAL CONSUMPTION OF SUPERCONDUCTING THIN-FILM MATERIALS IN THE FABRICATION OF SUPERCONDUCTING ICS, THROUGH 2015 ($ MILLIONS) 152
• SCIENCE, RESEARCH, AND TECHNOLOGY DEVELOPMENT APPLICATIONS 153
• Voltage Standard ICs 153
• TABLE 68 GLOBAL MARKET FOR SUPERCONDUCTING INTEGRATED CIRCUITS USED IN VOLTAGE METROLOGY APPLICATIONS, THROUGH 2015 ($ MILLIONS) 153
• COMMUNICATIONS 153
• Digital Signal Processors (DSPs) 154
• TABLE 69 GLOBAL MARKET FOR SUPERCONDUCTING INTEGRATED CIRCUITS USED IN DIGITAL SIGNAL PROCESSING APPLICATIONS, THROUGH 2015 ($ MILLIONS) 154
• COMPUTING 154
• HPC 154
• TABLE 70 GLOBAL MARKET FOR SUPERCONDUCTING INTEGRATED CIRCUITS USED IN QUANTUM AND OTHER HIGH-PERFORMANCE PROCESSORS, THROUGH 2015 ($ MILLIONS) 155

Chapter-14: SUPERCONDUCTING RF AND MICROWAVE FILTER TECHNOLOGIES AND APPLICATIONS, 2009 - 2015 3

• TECHNOLOGY 156
• CHARACTERISTICS 156
• CONSTRUCTION, MATERIALS, AND PERFORMANCE 156
• END USES 156
• SUPPLIERS 156
• TABLE 71 COMPANIES THAT ARE MANUFACTURING OR DEVELOPING SUPERCONDUCTING RF FILTERS 157
• MARKETS 157
• TABLE 72 GLOBAL MARKET FOR SUPERCONDUCTING RF FILTERS, THROUGH 2015 ($ MILLIONS) 157
• TABLE 73 GLOBAL MARKET FOR SUPERCONDUCTING RF FILTERS, THROUGH 2015 ($ MILLIONS) 158

Chapter-15: SUPERCONDUCTING QUANTUM INTERFERENCE DEVICE (SQUID) TECHNOLOGIES AND MARKETS, 2009 - 2015 7

• TECHNOLOGY 159
• CHARACTERISTICS 159
• CONSTRUCTION, MATERIALS, AND PERFORMANCE 159
• END USES 159
• TABLE 74 SQUID END USES 159
• SCIENCE, RESEARCH, AND TECHNOLOGY DEVELOPMENT 160
• HEALTHCARE 160
• OTHER 160
• SUPPLIERS 161
• TABLE 75 SQUID SUPPLIERS 161
• MARKETS 161
• TABLE 76 GLOBAL MARKET FOR SQUIDS, THROUGH 2015 ($ MILLIONS) 161
• FIGURE 25 SQUID SENSOR MARKET SHARES BY APPLICATION SEGMENT, 2009 - 2015 (% TOTAL SHIPMENTS) 162
• TABLE 77 GLOBAL CONSUMPTION OF SUPERCONDUCTING MATERIALS IN THE FABRICATION OF SQUID SENSORS, THROUGH 2015 ($ MILLIONS) 163
• SCIENCE, RESEARCH, AND TECHNOLOGY DEVELOPMENT 163
• TABLE 78 GLOBAL MARKET FOR SQUIDS USED IN SCIENCE, RESEARCH, AND TECHNOLOGY DEVELOPMENT, THROUGH 2015 ($ MILLIONS) 164
• HEALTHCARE 164
• TABLE 79 GLOBAL MARKET FOR SQUIDS USED IN HEALTHCARE APPLICATIONS, THROUGH 2015 ($ MILLIONS) 164
• OTHER APPLICATIONS 165
• TABLE 80 GLOBAL MARKET FOR SQUIDS USED IN OTHER APPLICATIONS, THROUGH 2015 ($ MILLIONS) 165

Chapter-16: APPENDIX: COMPANY PROFILES 21

• ABB, LTD. 166
• ACCEL INSTRUMENTS GMBH 166
• ADVANCED MAGNET LAB, INC. 166
• ALSTOM 167
• AMERICAN MAGNETICS, INC. 167
• AMERICAN SUPERCONDUCTOR CORP. 168
• ASG SUPERCONDUCTORS SPA 168
• BABCOCK NOELL GMBH 169
• COLORADO SUPERCONDUCTOR CORP. 169
• CRYOELECTRA GMBH 169
• CRYOMAGNETICS, INC. 169
• CRYOTON, LTD. 170
• DIBORIDE CONDUCTORS, LTD. 170
• D-WAVE SYSTEMS, INC. 170
• ERIEZ MAGNETICS CO. 171
• EUROPEAN HIGH-TEMPERATURE SUPERCONDUCTORS GMBH & CO. KG 171
• EVICO GMBH 171
• FUJI ELECTRIC CO. 172
• FUJIKURA, LTD. 172
• FURUKAWA ELECTRIC CO., LTD. 173
• GENERAL ELECTRIC CO. 173
• HITACHI, LTD. 174
• HTS-110, LTD. 174
• HYPER TECH RESEARCH, INC. 174
• HYPRES, INC. 175
• INNOVA SUPERCONDUCTOR TECHNOLOGIES 176
• ISCO INTERNATIONAL, LLC 176
• ISHIKAWAJIMA-HARIMA HEAVY INDUSTRIES CO., LTD. 176
• JANIS RESEARCH CO., INC. 177
• KARLSRUHER INSTITUT FUR TECHNOLOGIE 177
• KAWASAKI HEAVY INDUSTRIES, LTD. 177
• LEVTECH, INC. 178
• LUVATA PORI OY 178
• MAGLEV 2000 178
• METAL OXIDE TECHNOLOGIES, INC. 179
• NEOCERA, INC. 180
• NEXANS 180
• NORTHROP GRUMMAN CORP. 180
• OXFORD INSTRUMENTS, PLC 181
• OXFORD SUPERCONDUCTING TECHNOLOGY, INC. 181
• QUANTUM DESIGN, INC. 181
• ROYAL PHILIPS ELECTRONICS NV 182
• SCIENTIFIC MAGNETICS 182
• SIEMENS AG 182
• SUMITOMO ELECTRIC INDUSTRIES, LTD. 183
• SUPERPOWER, INC. 183
• SUPERCONDUCTOR TECHNOLOGIES, INC. 183
• TOSHIBA CORP. 184
• WAUKESHA ELECTRIC SYSTEMS, INC. 184
• ZENERGY POWER, PLC 185
• ZENERGY POWER, PLC (CONTINUED) 186

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