Thursday, June 28, 2012

TCO Glass Industry Global and China 2012 Deep Research Report

2012 Deep Research Report on Global and China TCO Glass Industry : ReportsnReports

Electronic copy (PDF) : 2000USD
Global License: 4000USD
Pages:129
Tables and figures :143
Published date : Jun 28, 2012

2012 Deep Research Report on Global and China TCO Glass Industry is a professional and in-depth research report on global and China TCO Glass industry.this report has firstly introduced TCO glass definition classification industry chain etc relation information. Then introduced TCO glass manufacturing technology and process.At the same time, introduced key processes specifications and application examples. And then Summary statistics of Global and China major TCO glass manufacturers 2009-2016 TCO glass capacity production supply demand (mainly according silicon and CdTe thin film solar cell demand) shortage and TCO glass selling price cost profit profit margin and production value. And also introduced global and China 18 major TCO glass companies basic information, 2009-2016 TCO glass capacity production price cost profit profit margin and production value etc details information.In the end, this report introduced Online FTO Offline FTO Offline AZO Glass project feasibility analysis and investment return analysis.also give related research conclusions and development trend analysis of China TCO glass industry. In a word, it was a depth research report on Global and China TCO glass industry. And thanks to the support and assistance from TCO glass industry chain (TCO glass companies Solar cell companies turn-key line suppliers government related anencies etc) related experts and enterprises during QYResearch Team survey and interview.

Buy your copy of this report @ http://www.reportsnreports.com/reports/172170-2012-deep-research-report-on-global-and-china-tco-glass-industry.html.

Tables and Figures in this report:

Figure TCO(Transparent Conductive Oxide) Glass Pictures 2
Table ITO (Indium Tin Oxide) FTO (Fluorine doped Tin Oxide) AZO (Aluminum Doped Zinc Oxide) Glass Advantages and Disadvantages Comparison 3
Table ITO (Indium Tin Oxide) FTO (Fluorine doped Tin Oxide) AZO (Aluminum Doped Zinc Oxide) Glass Technical Specifications Comparison 3
Table TCO Glass Applications and Transmission Sheet Resistance etc Specifications Requirements 4
Table TCO Glass For Thin Film Solar Celles (A-Si CdTe) 4
Table Thin Film Solar Cell Specifications Comparison 6
Figure Thin Film Solar Cell (A-Si) Layer Structure 7
Figure Thin Film Solar (Silicon) Module Layer Structure 8
Figure Thin Film Solar Cell (A-Si) Manufacturing Process and Key Raw Materials and Equipments 9
Figure Thin Film CdTe Solar Cell Layer Structure 10
Table CdTe Thin Film Solar Cell Manufacturing Process 10
Table TCO Glass Specifications Requirements for Thin Film Solar Cells 11
Figure TCO Glass Indudstry Chain Structure 12
Table 2009-2016 Global Silicon Thin Film Solar Module Capacity Production (MW) and TCO Glass Demand (10K Square Meters) 12
Table 2009-2016 China TCO Glass Demand (10K Square Meters) 13
Table Ultra Clear Glass Chemical Composition Contents 15
Table Ultra Clear Glass Specifications Requirements for Solar Cells 15
Table Ultra Clear Glass Efficiency (%) Power (W/ Square Meters) Solar Cell Price (RMB/W) by Transmission 15
Table Ultra Clear Glass Manufacturing Difficult Problems Solutions 16
Table China Ultra Clear Glass Manufacturers Capacity (Ton/day) and Technology Sources 16
Figure Schematic Diagram of Pulsed Laser Deposition 19
Table Reaction Steps of Chemical Vapor Deposition 20
Figure Chemical Vapor Process 20
Table Characteristics of Chemical Vapor Deposition Coating Process 21
Table Advantagse of Sol-Gel Coating Process 22
Table Sol-Gel Coating Process Steps 22
Table FTO AZO Glass Specifications Comparison 23
Table China Coating Technology Situation 24
Figure Offline TCO Glass Coating Production Line 25
Table Online and Offline TCO Glass Coating Production Line Specifications Comparison 26
Figure Silicon Thin Film Solar Cell Industry Chain and Related Materials or Equipments Suppliers 29
Table Silicon Thin Film Solar Cell Turn-key Product Line Suppliers List 29
Table Silicon Thin Film Solar Cell Turn-key Line Include TCO Coating Equipments Situation 30
Figure AMAT Oerlikon Silicon Thin Film Solar Cell Turn-key Line Comparison 31
Figure 40MW Silicon Thin Film Solar Cell Turn-key Line With TCO 31
Figure 40MW Silicon Thin Film Solar Cell Turn-key Line Without TCO 32
Figure 120MW Silicon Thin Film Solar Cell Turn-key Line Without TCO 32
Figure Oerlikon TCO Glass Product Line 33
Figure Oerlikon TCO Coating Equipment (TCO 1200) 33
Figure Oerlikon Multi-room Single-room Combination Coating Technology 35
Figure Luoyang NorthGlass TCO Glass Product Line 37
Table Coating Target (ZnO Al) Suppliers List 38
Table Global Major TCO Glass Suppliers and Their TCO Manufacturing Technologies 39
Table Solar Pattern Glass Suface Requirement 40
Table Solar Glass Length and Width Tolerance (mm) 41
Table Solar Glass Thickness Tolerance (mm) 41
Table Solar Glass Thickness Difference Tolerance (mm) 42
Table 2009-2016 Global 18 Manufacturers TCO Glass Capacity and Global Total Capacity (10K m2) 43
Table 2009-2016 Global 18 TCO Glass Capacity Market Share 44
Table 2009-2016 Global 18 Manufacturers TCO Glass Production and Global Total Production (10K m2) 45
Table 2009-2016 Global 18 Manufacturers TCO Glass Production Market Share 46
Figure 2011 Global TOP3 TCO Glass Production (10K m2) and Market Share 47
Figure 2009-2016 Global TCO Glass Capacity Production (10Km2) and Growth Rate 47
Figure 2009-2016 China TCO Glass Capacity Production (10Km2) and Growth Rate 48
Figure 2009-2015 China TCO Glass Capacity Production and Its Proportion of the World Market 49
Table 2009-2016 Global TCO Glass Capacity Utilization List 49
Table 2009-2016 Global Major Silicon Thin Film Solar Cell Manufacturers Silicon Thin Film Solar Cell Capacity and Global Total Capacity (MW) 50
Table 2009-2016 Global Major Silicon Thin Film Solar Cell Manufacturers Silicon Thin Film Solar Cell Production and Global Total Production (MW) 52
Figure 2009-2016 Global Silicon Thin Film Solar Cell Capacity Production (MW) and Growth Rate 54
Table 2009-2016 Global Major CdTe Thin Film Solar Cell Manufacturers CdTe Thin Film Solar Cell Capacity and Global Total Capacity (MW) 55
Table 2009-2016 Global Major CdTe Thin Film Solar Cell Manufacturers CdTe Thin Film Solar Cell Production and Global Total Production (MW) 56
Figure 2009-2016 Global CdTe Thin Film Solar Cell Capacity Production (MW) and Growth Rate 57
Table 2009-2016 Global TCO Glass Demand (10Km2) 57
Table Silicon or CdTe Thin Film Manufacturers Product Line with TCO Glass Coating Equipments List 58
Table 2009-2016 Global TCO Glass Supply Demand and Shortage (10Km2) 58
Table 2009-2016 China TCO Glass Supply Demand and Shortage (10Km2) 58
Table 2009-2016 China TCO Glass Supply Demand and Satisfaction Rate 59
Table 2009-2016 China TCO Glass Production Import Export Consumption (10Km2) List 59
Table 2009-2016 Global TCO Glass Production (10Km2) Price Cost Profit (RMB/m2) Production Value (Million RMB) Profit Margin 60
Table ASAHI Company Information Table (Products,Revenue,Raw Materials,Clients,Capacity Expansions etc 14 items) 61
Table ASAHI Glass TCO GLASS PRODUCT SPECIFICATIONS LIST 64
Table 2009-2016 ASAHI TCO Glass Production (10Km2) Price Cost Profit (RMB/m2) Production Value (Million RMB) Profit Margin 64
Figure 2009-2016 ASAHI TCO Glass Capacity Production (10Km2) and Growth Rate 65
Table NSG Company Information Table (Products,Revenue,Raw Materials,Clients,Capacity Expansions etc 14 items) 66
Table NSG TCO GLASS PRODUCT SPECIFICATIONS LIST 69
Table 2009-2016 Japan NSG TCO Glass Production (10Km2) Price Cost Profit (RMB/m2) Production Value (Million RMB) Profit Margin 70
Figure 2009-2016 Japan NSG TCO Glass Capacity Production (10Km2) and Growth Rate 70
Table US PPG Company Information Table (Products,Revenue,Raw Materials,Clients,Capacity Expansions etc 14 items) 71
Table US PPG TCO GLASS PRODUCT SPECIFICATIONS LIST 73
Table 2009-2016 US PPG TCO Glass Production (10Km2) Price Cost Profit (RMB/m2) Production Value (Million RMB) Profit Margin 73
Figure 2009-2016 US PPG TCO Glass Capacity Production (10Km2) and Growth Rate 74
Table Saint-Gobain Company Information Table (Products,Revenue,Raw Materials,Clients,Capacity Expansions etc 14 items) 75
Table Saint-Gobain TCO GLASS PRODUCT SPECIFICATIONS LIST 75
Table 2009-2016 Saint-Gobain TCO Glass Production (10Km2) Price Cost Profit (RMB/m2) Production Value (Million RMB) Profit Margin 76
Figure 2009-2016 Saint-Gobain TCO Glass Capacity Production (10Km2) and Growth Rate 76
Table Solartech Energy Company Information Table (Products,Revenue,Raw Materials,Clients,Capacity Expansions etc 14 items) 77
Table Solartech Energy TCO GLASS PRODUCT SPECIFICATIONS LIST 78
Table 2009-2016 Solartech Energy TCO Glass Production (10Km2) Price Cost Profit (RMB/m2) Production Value (Million RMB) Profit Margin 78
Figure 2009-2016 Solartech Energy TCO Glass Capacity Production (10Km2) and Growth Rate 79
Table Xinyi Glass Company Information Table (Products,Revenue,Raw Materials,Clients,Capacity Expansions etc 14 items) 79
Table Xinyi Glass TCO GLASS PRODUCT SPECIFICATIONS LIST 83
Table 2009-2016 Xinyi Glass TCO Glass Production (10Km2) Price Cost Profit (RMB/m2) Production Value (Million RMB) Profit Margin 83
Figure 2009-2016 Xinyi Glass TCO Glass Capacity Production (10Km2) and Growth Rate 84
Table CSG Holding Company Information Table (Products,Revenue,Raw Materials,Clients,Capacity Expansions etc 14 items) 84
Table CSG Holding TCO GLASS PRODUCT SPECIFICATIONS LIST 88
Table 2009-2016 CSG Holding TCO Glass Production (10Km2) Price Cost Profit (RMB/m2) Production Value (Million RMB) Profit Margin 88
Figure 2009-2016 CSG Holding TCO Glass Capacity Production (10Km2) and Growth Rate 89
Table Sanxing Glass Company Information Table (Products, Revenue, Raw Materials, Clients,Capacity Expansions etc 13 items) 90
Table 2009-2016 Sanxing Glass TCO Glass Production (10Km2) Price Cost Profit (RMB/m2) Production Value (Million RMB) Profit Margin 92
Figure 2009-2016 Sanxing Glass TCO Glass Capacity Production (10Km2) and Growth Rate 93
Table Kibing Glass Company Information Table (Products,Revenue,Raw Materials,Clients,Capacity Expansions etc 14 items) 93
Table 2009-2016 Kibing Glass TCO Glass Production (10Km2) Price Cost Profit (RMB/m2) Production Value (Million RMB) Profit Margin 95
Figure 2009-2016 Kibing Glass TCO Glass Capacity Production (10Km2) and Growth Rate 96
Table North Glass Company Information Table (Products,Revenue,Raw Materials,Clients,Capacity Expansions etc 14 items) 96
Table 2009-2016 North Glass TCO Glass Production (10Km2) Price Cost Profit (RMB/m2) Production Value (Million RMB) Profit Margin 98
Figure 2009-2016 North Glass TCO Glass Capacity Production (10Km2) and Growth Rate 98
Table Flat Glass Company Information Table (Products,Revenue,Raw Materials,Clients,Capacity Expansions etc 14 items) 99
Table 2009-2016 Flat Glass TCO Glass Production (10Km2) Price Cost Profit (RMB/m2) Production Value (Million RMB) Profit Margin 101
Figure 2009-2016 Flat Glass TCO Glass Capacity Production (10Km2) and Growth Rate 101
Table Xiuqiang Glass Company Information Table (Products,Revenue,Raw Materials,Clients,Capacity Expansions etc 14 items) 102
Table 2009-2016 Xiuqiang Glass TCO Glass Production (10Km2) Price Cost Profit (RMB/m2) Production Value (Million RMB) Profit Margin 104
Figure 2009-2016 Xiuqiang Glass TCO Glass Capacity Production (10Km2) and Growth Rate 104
Table China Glass (Weihai Lanxing) Company Information Table (Products,Revenue,Raw Materials,Clients,Capacity Expansions etc 14 items) 105
Table 2009-2016 China Glass (Weihai Lanxing) TCO Glass Production (10Km2) Price Cost Profit (RMB/m2) Production Value (Million RMB) Profit Margin 107
Figure 2009-2016 China Glass (Weihai Lanxing) TCO Glass Capacity Production (10Km2) and Growth Rate 108
Table Yingxin Glass Company Information Table (Products,Revenue,Raw Materials,Clients,Capacity Expansions etc 14 items) 108
Table 2009-2016 Yingxin Glass TCO Glass Production (10Km2) Price Cost Profit (RMB/m2) Production Value (Million RMB) Profit Margin 110
Figure 2009-2016 Yingxin Glass TCO Glass Capacity Production (10Km2) and Growth Rate 110
Table Changzhou Almaden Company Information Table (Products,Revenue,Raw Materials,Clients,Capacity Expansions etc 14 items) 111
Table 2009-2016 Changzhou Almaden TCO Glass Production (10Km2) Price Cost Profit (RMB/m2) Production Value (Million RMB) Profit Margin 112
Figure 2009-2016 Changzhou Almaden TCO Glass Capacity Production (10Km2) and Growth Rate 113
Table SunBearSolar SunBearSolarCompany Information Table (Products,Revenue,Raw Materials,Clients,Capacity Expansions etc 14 items) 113
Table 2009-2016 SunBearSolar TCO Glass Production (10Km2) Price Cost Profit (RMB/m2) Production Value (Million RMB) Profit Margin 115
Figure 2009-2016 SunBearSolar TCO Glass Capacity Production (10Km2) and Growth Rate 115
Table Taiwan Glass Company Information Table (Products,Revenue,Raw Materials,Clients,Capacity Expansions etc 14 items) 116
Table 2009-2016 Taiwan Glass TCO Glass Production (10Km2) Price Cost Profit (RMB/m2) Production Value (Million RMB) Profit Margin 118
Figure 2009-2016 Taiwan Glass TCO Glass Capacity Production (10Km2) and Growth Rate 118
Table Daming Glass Company Information Table (Products,Revenue,Raw Materials,Clients,Capacity Expansions etc 14 items) 119
Table 2009-2016 Daming Glass TCO Glass Production (10Km2) Price Cost Profit (RMB/m2) Production Value (Million RMB) Profit Margin 121
Figure 2009-2016 Daming Glass TCO Glass Capacity Production (10Km2) and Growth Rate 122
Table China TCO Glass Traders List 122
Table China TCO Glass Industry Opportunities and Risks Analysis 123
Table China Building or Planning TCO Glass Lines List 124
Table Online FTO Glass Product Line Project Basci Information 124
Table Online FTO Glass Product Line Project FTO Glass Product Specifications 125
Table Online FTO Glass Product Line Project Return on Investment Analysis 125
Table Offline FTO Glass Product Line Project Basci Information 126
Table Offline FTO Glass Product Line Project FTO Glass Product Specifications 126
Table Offline FTO Glass Product Line Project Return on Investment Analysis 126
Table Offline AZO Glass Product Line Project Basci Information 127
Table Offline AZO Glass Product Line Project Technology and Equipment Selection 127
Table Offline AZO Glass Product Line Project Manufacturing Process 127
Table Offline AZO Glass Product Line Project Equipments Combination 127
Table Offline AZO Glass Product Line Project Return on Investment Analysis 127

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Thursday, June 14, 2012

China Distributed Energy Resources Industry 2012 Deep Research Report

2012 Deep Research Report on China Distributed Energy Resources Industry : ReportsnReports

This is a professional and in-depth research report on China Distributed Energy Resources (DER) industry. This report firstly introduces Distributed Energy Resources definition, classification, industry chain and other related information. It covers global and China DER development status and economy analysis, and DER market status and development future,and also lists key regions and their DER demand analysis and demand development trends.
Information on DER related equipments market status and development forecast.and DER grid connection and influence to the power grid analysis is also provided. DER optimization analysis and also introduced Key DER players operating situations. Finally, the report also introduced DER industry investment environment and related investment return analysis. In a word, it was a depth research report on China DER industry. And thanks to the support and assistance from DER industry chain related experts and enterprises during QYResearch Team survey and interview.

CHAPTER ONE DISTRIBUTED ENERGY RESOURCE (DER) INDUSTRY OVERVIEW 1
1.1 THE DER DEFINITION AND POSITION 1
1.1.1 The DER definition 1
1.1.2 The Distributed Energy Resource Classification 4
1.1.3 The DER development significance 4
1.1.4 Distributed generation grid model 5
1.1.5 The DER strategic position 6
1.2 THE DER ADVANTAGES ANALYSIS 7
1.2.1 Higher power supply efficiency 7
1.2.2 Avoid the transmission and distribution costs 7
1.2.3 Saving investment 7
1.2.4 Excellent peak regulation 8
1.2.5 Improve the security of power supply 8
1.2.6 Good environmental performance 8
1.2.7 Meet the needs of special places 8
1.2.8 Delaying the upgrading of the transmission and distribution grid 9
1.2.9 Provides the possibility of the Energy cascade utilization 9
1.2.10 Opened up new directions for the use of renewable energy 9
1.3 THE DER DEVELOPMENT NECESSITY ANALYSIS 10
1.3.1 needs of implementation of Strategy of sustainable development 10
1.3.2 Need of the energy consumption structure adjustment 10
1.3.3 Need for environmental protection 11
1.3.4 Need for solving the power shortage problems and ensure the security of electricity supply 11
1.4 THE DER INDUSTRY DEVELOPMENT ENVIRONMENTAL ANALYSIS 12
1.4.1 DER industry policy environment analysis 12
1.4.2 The DER industry economic environment analysis 14

CHAPTER TWO CHINA DER INDUSTRY STATUS AND ECONOMIC ANALYSIS 16
2.1 INTERNATIONAL DER INDUSTRY DEVELOPMENT AND EXPERIENCE REFERENCE 16
2.1.1 The international DER industry development status 16
2.1.2 The major countries DER development analysis 19
2.1.3 International DER equipment manufacturers 34
2.1.4 International DER development experience reference 35
2.2 CHINA DER INDUSTRY STATUS AND PROSPECT 36
2.2.1 The DER application fields analysis 36
2.2.2 DER industry development status 37
2.2.3 DER project construction status 38
2.2.4 DER development affecting factors 39
2.2.5 DER industry development trends 40
2.2.6 DER industry development prospects 41
2.3 CHINA DER INDUSTRY DEVELOPMENT OBSTACLES AND BOTTLENECKS 42
2.3.1 Economic barriers and bottleneck 42
2.3.2 Energy policy barriers and bottleneck 42
2.3.3 Fuel supply barriers and bottleneck 42
2.3.4 Efficiency obstacles and bottleneck 43
2.3.5 Grid barriers and bottleneck 43
2.3.6 Environmental obstacles and bottleneck 44
2.3.7 System barriers and bottleneck 44
2.3.8 Administrative licensing obstacles and bottleneck 44
2.3.9 Financing barriers and bottleneck 45
2.3.10 Electric power market and measuring barriers and bottleneck 45
2.3.11 Other problems obstacles and bottleneck 45
2.4 CHINA DER INDUSTRY ECONOMIC ANALYSIS 46
2.4.1 DER economic benefits analysis 46
2.4.2 DER environmental benefits analysis 46
2.4.3 The different groups benefits analysis 47
2.5 CHINA DER INDUSTRY DEVELOPMENT PROPOSALS 47

CHAPTER THREE CHINA DER SEGMENTS DEVELOPMENT STATUS AND PROSPECTS 49
3.1 CHINA NATURAL GAS DER DEVELOPMENT STATUS AND PROSPECTS 49
3.1.1 Natural gas resource distribution and use patterns 49
3.1.2 Natural gas DER advantages 50
3.1.3 Natural gas DER development status 51
3.1.4 Natural gas DER project construction status 52
3.1.5 Natural gas DER projects economic analysis 55
3.1.6 Natural gas DER development prospects 56
3.2 CHINA SMALL WIND POWER DEVELOPMENT STATUS AND PROSPECTS 57
3.2.1 Wind resource distribution and use patterns 57
3.2.2 Small wind power development status 59
3.2.3 Small wind power development problems 60
3.2.4 Small Wind Power Economic Analysis 62
3.2.5 Small wind power development potential and prospects 63
3.2.6 Wind power development proposals 64
3.3 CHINA PV POWER GENERATION DEVELOPMENT SITUATION AND PROSPECTS OUTLOOK 66
3.3.1 China solar resource distribution and use patterns 66
3.3.2 PV power development status 67
3.3.3 photovoltaic Economic Analysis 69
3.3.4 The problem photovoltaic power generation development facing 71
3.3.5 PV development potential and prospects 72
3.4 CHINA BIOMASS POWER GENERATION DEVELOPMENT STATUS AND PROSPECTS OUTLOOK 75
3.4.1 Biomass structure and utilization 75
3.4.2 Biomass Power Generation Development Status 76
3.4.3 Biomass Power Generation Economic Analysis 86
3.4.4 The problems biomass power generation development faced 87
3.4.5 Biomass power development potential and prospects 88
3.5 CHINA FUEL CELL DEVELOPMENT STATUS AND PROSPECTS 91
3.5.1 Fuel cell classification and characteristics 91
3.5.2 The fuel cell development status 92
3.5.3 Fuel cell energy efficiency and economic analysis 93
3.5.4 Fuel cell development problems 94
3.5.5 Fuel cell applications potential and prospects 95
3.6 CHINA SMALL HYDROPOWER DEVELOPMENT STATUS AND PROSPECTS 98
3.6.1 Hydroenergy resources distribution and utilization 98
3.6.2 The small hydropower development status 101
3.6.3 Small hydropower economic analysis 102
3.6.4 The development problems small hydropower confronted 104
3.6.5 The small hydropower development potential and prospects 107
3.7 CHINA GEOTHERMAL POWER GENERATION STATUS AND PROSPECTS 110
3.7.1 Geothermal resource distribution and utilization type 110
3.7.2 Geothermal power generation development situation 112
3.7.3 Geothermal power economic analysis 113
3.7.4 Problems geothermal power generation development faced 115
3.7.5 Geothermal power generation development potential and prospects 116
3.8 CHINA OCEAN POWER GENERATION DEVELOPMENT SITUATION AND PROSPECT 117
3.8.1 Ocean energy resource reserves distribution and utilization type 117
3.8.2 Ocean energy development and utilization status 120
3.8.3 Ocean energy power generation economic analysis 126
3.8.4 Ocean energy power generation constraints 127
3.8.5 Ocean energy power generation potential and prospects 128

CHAPTER FOUR DER INDUSTRY DEMAND PROSPECTS IN KEY AREAS 130
4.1 BEIJING DER INDUSTRY DEMAND PROSPECT 130
4.1.1 Beijing energy consumption situation analyses 130
4.1.2 Beijing DER development analysis in key application areas 131
4.1.3 Beijing DER projects construction 133
4.1.4 Beijing DER demand potential and prospects 134
4.2 SHANGHAI DER INDUSTRY DEMAND PROSPECT 135
4.2.1 Shanghai Energy Consumption status Analysis 135
4.2.2 Shanghai DER development analysis in the keyapplication areas 135
4.2.3 Shanghai DER projects construction 136
4.2.4 Shanghai DER demand potential and prospect 137
4.3 GUANGZHOU DER INDUSTRY DEMANDS PROSPECT 138
4.3.1 Guangzhou energy consumption status analysis 138
4.3.2 Guangzhou DER development analysis in the keyapplication areas 139
4.3.3 Guangzhou DER projects construction status 139
4.3.4 Guangzhou DER demand potential and prospects 140

CHAPTER FIVE CHINA DER EQUIPMENT MARKET AND PROSPECTS 141
5.1 CHINA NATURAL GAS DER EQUIPMENT MARKET ANALYSIS 141
5.1.1 The gas turbine market analysis 141
5.1.2 Gas turbine waste heat boiler market analysis 143
5.1.3 Bromine cooler market analysis 144
5.2 CHINESE SMALL WIND TURBINE MARKET ANALYSIS 149
5.2.1 Small fan scale of development 149
5.2.2 Small wind turbine market competition 149
5.2.3 Small wind turbine technology development 150
5.2.4 Small wind turbine development trends 151
5.2.5 small wind turbine market demand outlook 151
5.3 SOLAR CELLS AND MODULES MARKET ANALYSIS 151
5.3.1 ANALYSIS OF SOLAR CELL AND MODULE PRODUCTION 151
5.3.2 Solar cells and modules demands analysis 152
5.3.3 Solar cells and components market competition 152
5.3.4 Solar cells and components of technical progress 153
5.3.5 Solar cell and module development prospects 154
5.4 BIOMASS POWER GENERATION EQUIPMENT MARKET ANALYSIS 155
5.4.1 Straw power generation equipment market analysis 155
5.4.2 Garbage power generation equipment market analysis (1) waste incinerator 157
5.4.3 Biogas power generation equipment market analysis 158
5.4.4 Biomass power generation equipment demand outlook 160
5.5 CHINESE FUEL CELL MARKET MARKET ANALYSIS 160
5.5.1 Fuel cell market analysis 160
5.5.2 Advances in fuel cell technology 163
5.6 CHINA'S SMALL HYDROPOWER EQUIPMENT MARKET ANALYSIS 163
5.6.1 The scale of development of small hydro equipment 163
5.6.2 Small hydropower equipment market competition 164
5.6.3 Technological advances of small hydropower equipment 164
5.6.4 Small hydropower equipment demand outlook 165

CHAPTER SIX THE INFLUENCE OF CHINA DER GRID-CONNECTION FOR THE DISTRIBUTION NETWORK 166
6.1 THE INFLUENCE OF DER GRID-CONNECTION FOR THE DISTRIBUTION NETWORK 166
6.1.1 The influence of DER for the distribution network operation 166
6.1.2 The influence of DER for distribution network planning 168
6.2 THE INFLUENCE OF ALL KINDS OF DER GRID-CONNECTION FOR THE POWER SYSTEM 170
6.2.1 The influence of gas generation and grid-connection 170
6.2.2 The influence of wind generation and grid-connection 171
6.2.3 The influence of PV power generation and grid-connection 171
6.2.4 The influence of fuel cell power generation and grid-connection 172
6.2.5 The influence of other DER grid-connection 172
6.3 THE STRATEGY OF IMPROVING DER GRID-CONNECTION RELIABILITY 173
6.3.1 DC micro-grid research 173
6.3.2 AC micro-grid research 177

CHAPTER SEVEN OPTIMIZATION ANALYSIS OF THE CHINESE DER 179
7.1 DER TECHNOLOGY SOLUTIONS AND ENERGY EFFICIENCY ANALYSIS 179
7.1.1 DER technology program 179
7.1.2 Common system of energy efficiency analysis index analysis 186
7.1.3 Energy Efficiency Analysis of the Distributed Power and Cooling for system 193
7.2 EONOMIC ANALYSIS OF DER'S TECHNOLOGY 205
7.2.1 Common economic analysis methods and indicators 205
7.2.2 DER energy distribution principle 208
7.2.3 DER Applications 210
7.2.4 A variety of DER economy analysis 217
7.3 DER OPTIMIZATION ANALYSIS 222
7.3.1 DER optimization task and content 222
7.3.2 Analysis of the optimal operation of the DER 223
7.3.3 The selection of DER optimization algorithm 235
7.3.4 DER optimization results and their analysis 236
7.3.5 The comparison of optimization with the original program and the regular program 240

CHAPTER EIGHT CHINESE DER INDUSTRY MAJOR COMPANIES BUSINESS ANALYSIS 243
8.1 CHINESE DER EQUIPMENT MANUFACTURING ENTERPRISE CASE STUDIES 243
8.1.1 Analysis of Sichuan Hope Senlan air-conditioning Manufacturing Co., Ltd. operating conditions 243
8.1.2 Shuangliang Eco-Energey Systems Co., ltd.operation analysis 249
8.1.3 Dalian Sanyo Refrigeration Co., Ltd. operation analysis 255
8.1.4 Shengli Oilfield Shengli Power Machinery Group Co., Ltd. operation analysis 258
8.1.5 China Aviation Industry Shenyang Liming Aero-Engine (Group) Co., Ltd. operation analysis 261

CHAPTER NINE ANALYSIS OF FINANCE AND CREDIT OF DER PROJECT 265
9.1 RISK ANALYSIS OF DER PROJECT 265
9.1.1 Risk analysis of project policy 265
9.1.2 Risk analysis on project technology 265
9.1.3 Risk analysis of project market 265
9.2 ANALYSIS OF DER PROJECT FINANCING 266
9.2.1 The basic mode of project financing 266
9.2.2 The basic channel for project financing 267
9.3 INDUSTRY CREDIT ANALYSIS OF CHINESE DER 269
9.3.1 Development status of industry credit environment 269
9.3.2 Environmental trends of industrial credit 269
9.3.3 Credit analysis of the major banks 269

Tables and Figures

TABLE THE DER DEFINITION THAT AMERICAN AND EUROPEAN ORGANIZATION MAKE 1
FIGURE THE RELATION DIAGRAM OF DG, DP, DER 3
TABLE THE COGENERATION INSTALLED CAPACITY OF WORLD'S MAJOR COUNTRIES (MW) 17
TABLE GLOBAL SMALL WIND POWER MARKET INSTALLED CAPACITY 18
TABLE SOLAR PHOTOVOLTAIC POWER GENERATION CAPACITY IN THE WORLD'S MAJOR COUNTRIES AND REGIONS (MILLION KILOWATTS) 18
FIGURE DENMARK DISTRIBUTED GENERATION DISTRIBUTION 19
FIGURE THE DANISH WIND POWER CAPACITY AND PROPORTION CHANGES 20
FIGURE AMERICAN RENEWABLE ENERGY POWER COMPOSITION (EXCLUDING HYDROPOWER) 21
FIGURE COMMERCIAL DER FORECAST 22
FIGURE 2009-2035 U.S. INDUSTRIAL ENERGY CONSUMPTION (TRILLION BRITISH THERMAL UNITS) 23
FIGURE U.S.A DISTRIBUTED GENERATION FUEL CHARACTERISTICS 24
FIGURE U.S.A DISTRIBUTED GENERATION TECHNOLOGY FEATURES 25
FIGURE CHANGES OF U.S.A CHP INSTALLED CAPACITY 26
FIGURE THE TOP TEN STATES OF USA COGENERATION CAPACITY IN 2010 26
FIGURE USA SMALL WIND POWER INSTALLED CAPACITY SITUATION 27
FIGURE USA ROOFTOP PHOTOVOLTAIC INSTALLATION 28
FIGURE 2009-2035 THE STRUCTURE OF RENEWABLE ENERGY POWER 30
TABLE THE STRATEGIC OBJECTIVES OF THE U.S. THERMOELECTRIC COOLING BY THE TECHNOLOGY (CCHP) APPLICATIONS 30
FIGURE JAPAN DG MARKET STUATION 31
TABLE 2001-2009 JAPAN PV CUMULATIVE INSTALLED CAPACITY (MW) 32
FIGURE 2010 EU POWER STRUCTURE 33
TABLE 2006-2010 EU COUNTRIES SOLAR PV INSTALLED CAPACITY(MKW) 33
TABLE 2010 EU WIND POWER CAPACITY SITUATION 34
FIGURE CHINA NATURAL GAS RESOURCES DISTRIBUTION 50
TABLE NATURAL GAS DER PROJECTS 52
TABLE GAS POWER PLANT PROJECTS 53
FIGURE NATURAL GAS DER PROJECTS PROCESS 55
TABLE CHINESE AND INTERNATIONAL PV MODULE COSTS CONTRASTING 70
FIGURE CHINA KEY PROVINCES BIOMASS RESOURCES 76
FIGURE 2006-2011 CHINA'S BIOMASS POWER INDUSTRY SCALE INDICATORS 79
FIGURE 2011 CHINA'S BIOMASS POWER GENERATION STRUCTURE 80
TABLE PROJECTS ABOUT BIOMASS POWER GENERATION CONSTRUCTING AND UNDER CONSTRUCTION FROM 2008 81
TABLE BIOMASS GASIFICATION POWER GENERATION IN THE ECONOMY 87
TABLE CHINA HYDROPOWER RESOURCES OVERVIEW 99
TABLE BASIN WATER RESERVES OF THE COUNTRY 100
TABLE CHINESE POSSIBLE DEVELOPMENT HYDROPOWER RESOURCES DISTRIBUTION 100
TABLE CHINA SMALL HYDROPOWER CLASSIFICATION STATIONS ACCORDING TO INSTALLED CAPACITY 101
TABLE ENERGY SAVING BENEFITS OF WIND-SOLAR- HYDROPOWER HYBRID SYSTEM 104
TABLE PART OF BEIJING DER PROJECTS SITUATION 133
TABLE PART OF SHANGHAI DER PROJECTS SITUATION 136
TABLE GAS TURBINES INSTALLED IN 2010 UNIT: MILLION KILOWATTS 142
TABLE 2008-2010 GAS TURBINE WASTE HEAT BOILER OUTPUT 143
TABLE CHINA SMALL FAN SCALE OF DEVELOPMENT 149
TABLE 2010 CHINA SOLAR CELL PRODUCTION 151
TABLE 2011 SALES AND EXPORTS OF SOLAR CELLS 152
FIGURE DC MICRO-GRID STRUCTURE 174
FIGURE VOLTAGE SOURCE IN PARALLEL EQUIVALENT SCHEMATIC 175
FIGURE DC MICRO-GRID SOURCE CONVERTER STATIC V-I CURVE 176
FIGURE FLYWHEEL ENERGY STORAGE AC-DC BIDIRECTIONAL CONVERTER CONTROL 177
FIGURE AC MICRO-GRID STRUCTURE 178
TABLE BOILER - STEAM TURBINE - LITHIUM BROMIDE REFRIGERATOR SCHEMATIC 180
FIGURE GAS TURBINE - WASTE HEAT BOILER - STEAM LITHIUM BROMIDE ABSORPTION AIR CONDITIONING UNIT DIAGRAM 181
FIGURE GT - SHUNT WASTE HEAT / DIRECT-FIRED COMBINED CYCLE SCHEMATIC DIAGRAM OF A LITHIUM BROMIDE ABSORPTION AIR CONDITIONING UNITS 182
FIGURE GAS - STEAM COMBINED CYCLE + ABSORPTION CHILLERS WORK SCHEMATIC 183
FIGURE MICRO GAS TURBINE PLUS COLD-WARM WATER MACHINE WORKING SCHEMATIC 184
FIGURE THE INTERNAL COMBUSTION ENGINE - PARALLEL WASTE HEAT / DIRECT-FIRED LITHIUM BROMIDE ABSORPTION AIR CONDITIONING UNITS TO COMBINED CYCLE SCHEMATIC 185
FIGURE DISTRIBUTED CCHP AND ITS SUB-PRODUCTION SYSTEM POWER CONSUMPTION MODEL DIAGRAM 187
TABLE DIFFERENT ELECTRICITY GENERATION EFFICIENCY CHARACTERISTICS 194
FIGURE ENERGY SAVING RATE IN HEATING CONDITIONS OF THE DER SYSTEM 195
TABLE THE LOWEST INDEX OF TOTAL ENERGY-SAVING EFFICIENCY OF THE DISTRIBUTED COGENERATION 196
FIGURE ENERGY-SAVING RATE OF DISTRIBUTED COOLING AND POWER GENERATION SYSTEMS IN THE COOLING CONDITIONS OF 197
TABLE THE THERMOELECTRIC EFFICIENCY OF THE VARIOUS DER SYSTEMS 198
FIGURE THE RELATION BETWEEN ENERGY-SAVING RATE AND GRID EFFICIENCY IN HEATING 199
FIGURE THE RELATION BETWEEN ENERGY-SAVING RATE AND GRID EFFICIENCY IN COOLING 200
FIGURE THE RELATION BETWEEN ENERGY SAVING RATE AND THERMOELECTRIC RATIO IN HEATING 201
FIGURE THE RELATION BETWEEN ENERGY SAVING RATE AND THERMOELECTRIC RATIO IN COOLING 202
FIGURE THE RELATION BETWEEN CHILLER COEFFICIENT OF PERFORMANCE AND ENERGY-SAVING RATE CHANGE 204
TABLE EXERGY COMPARISON BETWEEN THE CCHP AND THE SCHP 205
TABLE EACH PERIOD OF TIME PRICE IN OFFICE BUILDING 211
TABLE THE COMPOSITION AND CHARACTERISTICS OF NATURAL GAS IN SHAANXI-GANSU-NINGXIA 212
TABLE HEAT AND COLD PRICE CALCULATION 212
FIGURE GAS TURBINE - WASTE HEAT BOILER - STEAM LITHIUM BROMIDE ABSORPTION AIRCONDITIONING PLAN SCHEMATIC DIAGRAM 213
TABLE SOLAR SATURN20 GAS TURBINE TECHNOLOGY INDEX IN STANDARD CONDITIONS 214
TABLE THE MAIN TECHNICAL INDICATORS OF THE SOLAR SATURN20 GAS TURBINE IN DIFFERENT AMBIENT TEMPERATURES 214
FIGURE GAS TURBINE - WASTE HEAT/ DIRECT COMBUSTION LITHIUM BROMIDE ABSORPTION AIR CONDITIONING UNIT COMBINED-CYCLE SCHEMATIC DIAGRAM 215
TABLE TECHNICAL PARAMETERS OF THE BROAD GROUP BHRS 250VII TYPE WASTE HEAT DOUBLE-EFFECT ABSORPTION CHILLER 215
FIGURE FUEL GAS INTERNAL-COMBUSTION ENGINE - WASTE HEAT/DIRECT COMBUSTION LITHIUM BROMIDE ABSORPTION AIR CONDITIONING COMBINED-CYCLE SCHEMATIC DIAGRAM 216
TABLE BASIC TECHNICAL PARAMETERS OF CATERPILLER G3516LE FUEL GAS INTERNAL-COMBUSTION ENGINE 216
TABLE ENERGY DEMAND AND ENERGY SUPPLY BALANCE ANALYSIS TABLE 217
TABLE INITIAL COSTS OF EACH PLAN 218
TABLE EXPECTED EQUIPMENT UTILIZATION TIME 218
TABLE FUEL CONSUMPTION IN EACH PLAN 219
TABLE THE CALCULATION OF THE GENERATING CAPACITY UNDER EACH PLAN 220
TABLE THE COMPUTATIONAL TABLE OF INVESTMENT, COSTS AND REVENUE UNDER EACH PLAN. 220
FIGURE CURVE ON COST PER KILOWATT OF GAS ENGINE 226
TABLE MAINTENANCE COSTS OF DIFFERENT CAPACITIES OF GAS ENGINES 228
FIGURE COST CURVE OF THE SMALL GAS TURBINE 231
TABLE MAINTENANCE COSTS OF DIFFERENT CAPACITIES OF SMALL GAS TURBINES 233
TABLE 58 THE RESULTS AT THE OPERATING MODE OF HEAT BASED ON ELECTRICITY 238
TABLE THE RESULTS AT THE OPERATING MODE OF ELECTRICITY BASED ON HEAT 240
TABLE THE COMPARISON OF OPTIMIZATION WITH THE ORIGINAL PROGRAM AND THE REGULAR PROGRAM 241
TABLE SICHUAN HOPE SENLAN AIR-CONDITIONING MANUFACTURING CO., LTD. PROFILE 243
TABLE 2007-2009 SICHUAN HOPE, SENLAN AIR-CONDITIONING MANUFACTURING CO., LTD. MAIN ECONOMIC INDICATORS 245
TABLE 2007-2009 SICHUAN HOPE, SENLAN AIR-CONDITIONING MANUFACTURING CO., LTD. SOLVENCY ANALYSIS 246
TABLE 2007-2009 SICHUAN HOPE, SENLAN AIR-CONDITIONING MANUFACTURING CO., LTD. THE OPERATIONAL CAPACITY 246
TABLE 2007-2009 SICHUAN HOPE, SENLAN AIR-CONDITIONING MANUFACTURING CO., LTD. PROFITABILITY ANALYSIS 246
TABLE 2008-2009 SICHUAN HOPE SENLAN AIR-CONDITIONING M ANUFACTURING CO., LTD. DEVELOPMENT CAPACITY 247
TABLE 2008-2011 SHUANGLIANG ECO-ENERGEY SYSTEMS CO., LTD. MAJOR ECONOMIC INDICATORS 253
TABLE 2008-2011 SHUANGLIANG ECO-ENERGEY SYSTEMS CO., LTD. TOTAL LIABILITIES ANALYSIS 253
TABLE 2010-2012 Q1 SHUANGLIANG ECO-ENERGEY SYSTEMS CO., LTD. OPERATIONAL CAPABILITY 254
TABLE 2010-2012 Q1SHUANGLIANG ECO-ENERGEY SYSTEMS CO., LTD. PROFITABILITY ANALYSIS 254
TABLE 2010-2012 Q1SHUANGLIANG ENERGY-SAVING SYSTEM SHARES LIMITED DEVELOPMENT CAPACITY ANALYSIS 254
TABLE SHENGLI OILFIELD SHENGLI POWER MACHINERY CO., LTD. PROFILE 258
TABLE 2007-2009 SHENGLI OILFIELD SHENGLI POWER MACHINERY CO., LTD.,MAIN ECONOMIC INDICATORS 259
TABLE 2007-2009 SHENGLI OILFIELD SHENGLI POWER MACHINERY CO., LTD., TOTAL LIABILITIES 260
TABLE 2007-2009 SHENGLI OILFIELD SHENGLI POWER MACHINERY CO., LTD.,, LTD. OPERATIONAL CAPABILITY 260
TABLE 2007-2009 SHENGLI OILFIELD SHENGLI POWER MACHINERY CO., LTD., PROFITABILITY ANALYSIS 260
TABLE 2008-2009 SHENGLI OILFIELD SHENGLI POWER MACHINERY CO., LTD., DEVELOPMENT CAPACITY ANALYSIS 261
TABLE SHENYANG LIMING AERO ENGINE (GROUP) CO., LTD. PROFILE 262
TABLE 2007-2009 SHENYANG LIMING AERO ENGINE (GROUP) CO., LTD. MAIN ECONOMIC INDICATORS 263
TABLE 2007-2009 SHENYANG LIMING AERO ENGINE (GROUP) CO., LTD. LIABILITIES 263
TABLE 2007-2009 SHENYANG LIMING AERO ENGINE (GROUP) CO., LTD. SOLVENCY 263
TABLE 2007-2009 SHENYANG LIMING AERO ENGINE (GROUP) CO., LTD. OPERATIONAL CAPABILITY 263
TABLE 2008-2009 SHENYANG LIMING AERO ENGINE (GROUP) CO., LTD. DEVELOPMENT CAPACITY ANALYSIS 264

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Thursday, March 8, 2012

Global Micro Irrigation System Market – by Types, Applications, Geography, Crop Trends, and Forecasts (2011 – 2016) : ReportsnReports

ReportsnReports.com adds new global research report on Micro Irrigation System Market to its store. Here are the details for the same:

Published: March 2012
No. of Pages: 370
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Micro Irrigation System Market


Table of Contents
1 INTRODUCTION
1.1 KEY TAKE-AWAYS
1.2 REPORT DESCRIPTION
1.3 RESEARCH METHODOLOGY
1.3.1 MARKET SIZE
1.3.2 KEY DATA POINTS FROM SECONDARY SOURCES
1.3.3 ASSUMPTIONS MADE FOR THIS REPORT
1.3.4 STAKEHOLDERS
1.4 KEY QUESTIONS ANSWERED
2 EXECUTIVE SUMMARY
3 MARKET OVERVIEW
3.1 INTRODUCTION
3.2 WINNING IMPERATIVE
3.2.1 FERTIGATION & CHEMIGATION REDUCED FERTILIZER & HERBICIDES USE
3.3 DRIVERS
3.3.1 RISING POPULATION & INCREASING FOOD REQUIREMENTS
3.3.2 WATER SCARCITY DEMANDS MICRO IRRIGATION
3.3.3 MICRO IRRIGATION IMPROVES CROP YIELD & QUALITY
3.3.4 WATER USE EFFICIENCY WITH MICRO IRRIGATION
3.4 RESTRAINTS
3.4.1 HIGH INITIAL INVESTMENT
3.4.2 CONTINUOUS MAINTENANCE ADDS TO THE COST
3.5 OPPORTUNITY
3.5.1 STRONG PROGRESS IN NEW & EMERGING MARKET – ASIA-PACIFIC & REST OF THE WORLD
3.6 MARKET SHARE ANALYSIS
3.7 PATENTS ANALYSIS
3.7.1 PATENT ANALYSIS, BY GEOGRAPHY
3.7.2 PATENT ANALYSIS, BY YEAR
3.7.3 PATENT ANALYSIS, BY COMPANY
4 GLOBAL MICRO IRRIGATION SYSTEM MARKET, BY TYPES
4.1 INTRODUCTION
4.2 SPRINKLER IRRIGATION
4.2.1 ADVANTAGES OF SPRINKLER IRRIGATION
4.2.2 CONSTRAINTS IN APPLICATION OF SPRINKLER IRRIGATION
4.2.3 COMPONENTS OF SPRINKLER IRRIGATION SYSTEM
4.2.3.1 Pumping Unit
4.2.3.2 Tubings
4.2.3.3 Couplers
4.2.3.4 Spray/Sprinkler Heads
4.2.3.5 Fittings and Accessories
4.3 DRIP IRRIGATION
4.3.1 ADVANTAGES OF DRIP IRRIGATION
4.3.2 CHALLENGES OF DRIP IRRIGATION
4.3.3 COMPONENTS OF DRIP IRRIGATION SYSTEM
4.3.3.1 Valves
4.3.3.2 Backflow Preventers
4.3.3.3 Pressure Regulators & Valves
4.3.3.4 Filters
4.3.3.5 Emitters
4.3.3.6 Mainline
4.3.3.7 Sub-main or Laterals
4.3.3.8 Drip Tubing/Drip Hose
4.3.3.9 Drip Tube Fittings
4.3.3.10 Air Vent
4.3.3.11 Flush Valve
4.4 COMPARATIVE ANALYSIS OF SPRINKLER & DRIP SYSTEMS
5 MECHANIZED IRRIGATION SYSTEMS – CENTRAL PIVOT & LATERAL MOVE
5.1 INTRODUCTION
5.2 CENTRAL PIVOT IRRIGATION
5.2.1 COMPONENTS OF CENTRAL PIVOT IRRIGATION SYSTEM
5.2.1.1 Pipeline
5.2.1.2 Water Emitters
5.2.1.3 Central Tower
5.2.1.4 System Control Panel
5.3 LATERAL MOVE IRRIGATION
5.3.1 COMPONENTS OF LATERAL MOVE IRRIGATION SYSTEM
5.4 CENTRAL PIVOT-LATERAL MOVE IRRIGATION SYSTEMS
5.5 OPPORTUNITIES
5.5.1 CONVERSION TO MECHANIZED IRRIGATION SYSTEMS FROM TRADITIONAL IRRIGATION SYSTEMS
5.5.2 REPLACEMENT OF OLD SYSTEMS & PARTS RETAILING
5.6 DRIVERS
5.6.1 MORE RETURNS ON INVESTMENT
5.6.2 REDUCED INSTALLATION COSTS
5.6.3 LOWER MAINTENANCE & LABOR COSTS
5.6.4 INCREASED DURABILITY & RESALE VALUE
5.7 RESTRAINT
5.7.1 LOW FEASIBILITY FOR SMALL FARM AREAS
5.8 MECHANIZED IRRIGATION SYSTEM MARKET SHARE ANALYSIS
5.9 MECHANIZED IRRIGATION SYSTEM – CROP TRENDS
6 GLOBAL MICRO IRRIGATION SYSTEM MARKET, BY CROP TYPES
6.1 INTRODUCTION
6.2 FIELD CROPS
6.3 PLANTATION CROPS
6.4 ORCHARD CROPS
6.5 FORAGE & TURF GRASSES
7 GLOBAL MICRO IRRIGATION SYSTEM MARKET, BY APPLICATIONS
7.1 OVERVIEW
8 GLOBAL MICRO IRRIGATION SYSTEMS MARKET, BY GEOGRAPHY
8.1 INTRODUCTION
8.2 NORTH AMERICA
8.2.1 U.S.
8.2.2 CANADA
8.2.3 MEXICO
8.3 EUROPE
8.3.1 RUSSIA
8.3.2 SPAIN
8.3.3 ITALY
8.3.4 FRANCE
8.3.5 UKRAINE
8.3.6 GERMANY
8.3.7 ROMANIA
8.3.8 U.K.
8.4 ASIA-PACIFIC
8.4.1 INDIA
8.4.2 CHINA
8.4.3 IRAN
8.4.4 AUSTRALIA
8.4.5 JAPAN
8.4.6 ISRAEL
8.5 ROW
8.5.1 BRAZIL
8.5.2 SOUTH AFRICA
8.5.3 SAUDI ARABIA
8.5.4 REPUBLIC OF KOREA
8.5.5 EGYPT
9 COMPETITIVE LANDSCAPE
9.1 INTRODUCTION
9.2 NEW PRODUCTS LAUNCH – MOST PREFERRED STRATEGIC APPROACH
9.3 KEY MARKET STRATEGIES
9.4 VALMONT & JAIN IRRIGATION - MOST ACTIVE COMPANIES
10 COMPANY PROFILES
10.1 ACCESS IRRIGATION LTD
10.1.1 OVERVIEW
10.1.2 FINANCIALS
10.1.3 PRODUCT & SERVICES
10.1.4 STRATEGY
10.1.5 DEVELOPMENTS
10.2 ANTELCO PTY. LTD.
10.2.1 OVERVIEW
10.2.2 FINANCIALS
10.2.3 PRODUCT & SERVICES
10.2.4 STRATEGY
10.2.5 DEVELOPMENTS
10.3 DRIPTECH INC.
10.3.1 OVERVIEW
10.3.2 FINANCIALS
10.3.3 PRODUCT & SERVICES
10.3.4 STRATEGY
10.3.5 DEVELOPMENTS
10.4 ELGO IRRIGATION LTD
10.4.1 OVERVIEW
10.4.2 FINANCIALS
10.4.3 PRODUCT & SERVICES
10.4.4 STRATEGY
10.4.5 DEVELOPMENTS
10.5 EPC INDUSTRIES
10.5.1 OVERVIEW
10.5.2 FINANCIALS
10.5.3 PRODUCT & SERVICES
10.5.4 STRATEGY
10.5.5 DEVELOPMENTS
10.6 EWING IRRIGATION PRODUCTS INC.
10.6.1 OVERVIEW
10.6.2 FINANCIALS
10.6.3 PRODUCT & SERVICES
10.6.4 STRATEGY
10.6.5 DEVELOPMENTS
10.7 HUNTER INDUSTRIES INC.
10.7.1 OVERVIEW
10.7.2 FINANCIALS
10.7.3 PRODUCT & SERVICES
10.7.4 STRATEGY
10.7.5 DEVELOPMENTS
10.8 JAIN IRRIGATION SYSTEM LIMITED
10.8.1 OVERVIEW
10.8.2 FINANCIALS
10.8.3 PRODUCT & SERVICES
10.8.4 STRATEGY
10.8.5 DEVELOPMENTS
10.9 JOHN DEERE & COMPANY
10.9.1 OVERVIEW
10.9.2 FINANCIALS
10.9.3 PRODUCT & SERVICES
10.9.4 STRATEGY
10.9.5 DEVELOPMENTS
10.10 LIFE IRRIGATION
10.10.1 OVERVIEW
10.10.2 FINANCIALS
10.10.3 PRODUCT & SERVICES
10.10.4 STRATEGY
10.10.5 DEVELOPMENTS
10.11 LINDSAY CORPORATION
10.11.1 OVERVIEW
10.11.2 FINANCIALS
10.11.3 PRODUCT & SERVICES
10.11.4 STRATEGY
10.11.5 DEVELOPMENTS
10.12 NELSON IRRIGATION CORPORATION
10.12.1 OVERVIEW
10.12.2 FINANCIALS
10.12.3 PRODUCT & SERVICES
10.12.4 STRATEGY
10.12.5 DEVELOPMENTS
10.13 NETAFIM LIMITED
10.13.1 OVERVIEW
10.13.2 FINANCIALS
10.13.3 PRODUCT & SERVICES
10.13.4 STRATEGY
10.13.5 DEVELOPMENTS
10.14 OLSON IRRIGATION SYSTEMS
10.14.1 OVERVIEW
10.14.2 FINANCIALS
10.14.3 PRODUCT & SERVICES
10.14.4 STRATEGY
10.14.5 DEVELOPMENTS
10.15 ORBIT IRRIGATION PRODUCTS INC.
10.15.1 OVERVIEW
10.15.2 FINANCIALS
10.15.3 PRODUCT & SERVICES
10.15.4 STRATEGY
10.15.5 DEVELOPMENTS
10.16 PARIXIT INDUSTRIES LIMITED
10.16.1 OVERVIEW
10.16.2 FINANCIALS
10.16.3 PRODUCT & SERVICES
10.16.4 STRATEGY
10.16.5 DEVELOPMENTS
10.17 RAIN BIRD
10.17.1 OVERVIEW
10.17.2 FINANCIALS
10.17.3 PRODUCT & SERVICES
10.17.4 STRATEGY
10.17.5 DEVELOPMENTS
10.18 REINKE MANUFACTURING CO. INC.
10.18.1 OVERVIEW
10.18.2 FINANCIALS
10.18.3 PRODUCT & SERVICES
10.18.4 STRATEGY
10.18.5 DEVELOPMENTS
10.19 SENNINGER IRRIGATION INC.
10.19.1 OVERVIEW
10.19.2 FINANCIALS
10.19.3 PRODUCT & SERVICES
10.19.4 STRATEGY
10.19.5 DEVELOPMENTS
10.20 SIGNATURE CONTROL SYSTEMS INC.
10.20.1 OVERVIEW
10.20.2 FINANCIALS
10.20.3 PRODUCT & SERVICES
10.20.4 STRATEGY
10.20.5 DEVELOPMENTS
10.21 T-L IRRIGATION CO.
10.21.1 OVERVIEW
10.21.2 FINANCIALS
10.21.3 PRODUCT & SERVICES
10.21.4 STRATEGY
10.21.5 DEVELOPMENTS
10.22 THE TORO COMPANY
10.22.1 OVERVIEW
10.22.2 FINANCIALS
10.22.3 PRODUCT & SERVICES
10.22.4 STRATEGY
10.22.5 DEVELOPMENTS
10.23 VALMONT INDUSTRIES INC.
10.23.1 OVERVIEW
10.23.2 FINANCIALS
10.23.3 PRODUCT & SERVICES
10.23.4 STRATEGY
10.23.5 DEVELOPMENTS
List of Tables
TABLE 1 MICRO IRRIGATION SYSTEM MARKET REVENUE, BY GEOGRAPHY, 2009 – 2016 ($MILLION)
TABLE 2 MICRO IRRIGATION SYSTEM MARKET AREA, BY GEOGRAPHY, 2009 – 2016 (’000 HECTARES)
TABLE 3 FERTILIZER SAVINGS THROUGH FERTIGATION (%)
TABLE 4 FERTILIZER USE EFFICIENCY WITH FERTIGATION
TABLE 5 GLOBAL POPULATION, BY GEOGRAPHY,  2011 – 2016 (MILLION PEOPLE)
TABLE 6 GLOBAL WATER AVAILABILITY, 2010
TABLE 7 EFFECT OF DRIP IRRIGATION ON YIELD, 2010
TABLE 8 WATER SAVINGS & RESULTED HIGHER WATER USE EFFICIENCY, BY CROPS, 2010
TABLE 9 GLOBAL MICRO IRRIGATION SYSTEM MARKET REVENUE, BY TYPES, 2009 – 2016 ($MILLION)
TABLE 10 GLOBAL MICRO IRRIGATION SYSTEM AREA, BY TYPES, 2009 – 2016 (’000 HECTARES)
TABLE 11 RESPONSE OF DIFFERENT CROPS TO SPRINKLER IRRIGATION (%)
TABLE 12 SPRINKLER IRRIGATION SYSTEM MARKET REVENUE, BY GEOGRAPHY, 2009 – 2016 ($MILLION)
TABLE 13 AREA UNDER SPRINKLER IRRIGATION SYSTEM, BY GEOGRAPHY, 2009 – 2016 (’000 HECTARES)
TABLE 14 SPRINKLER IRRIGATION COMPONENTS REQUIREMENT FOR 1 HECTARE TO 4 HECTARE AREA
TABLE 15 DRIP IRRIGATION SYSTEM MARKET REVENUE, BY GEOGRAPHY, 2009 – 2016 ($MILLION)
TABLE 16  AREA UNDER DRIP IRRIGATION SYSTEM, BY GEOGRAPHY, 2009 – 2016 (’000 HECTARES)
TABLE 17 DRIP IRRIGATION SYSTEM: COMPONENTS & THEIR FUNCTIONS
TABLE 18 PRESSURE DROP ACROSS COMPONENTS IN DRIP IRRIGATION
TABLE 19 DRIP IRRIGATION COMPONENTS REQUIREMENT FOR 1 HECTARE TO 4 HECTARE AREA
TABLE 20 MAINTENANCE & MONITORING TASKS FOR SPRINKLER & DRIP IRRIGATION SYSTEMS
TABLE 21 GLOBAL MECHANIZED IRRIGATION MARKET REVENUE, BY TYPES, 2009 – 2016 ($MILLION)
TABLE 22 ADVANTAGES OF CP-LM IRRIGATION SYSTEMS
TABLE 23 DISADVANTAGES OF CP-LM IRRIGATION SYSTEM
TABLE 24 COST SAVING ON ELECTRICITY & DIESEL WITH MECHANIZED IRRIGATION SYSTEM
TABLE 25 RETURNS ON INVESTMENT – PIVOT IRRIGATION VS DRIP IRRIGATION
TABLE 26 COST COMPARISON BETWEEN MICRO IRRIGATION & MECHANIZED IRRIGATION SYSTEMS ($/HECTARE)
TABLE 27 LABOR COMPARISON BETWEEN SUBSURFACE DRIP IRRIGATION & CENTER PIVOTS
TABLE 28 GLOBAL MICRO IRRIGATION SYSTEM MARKET REVENUE, BY CROP TYPES, 2009 – 2016 ($MILLION)
TABLE 29 GLOBAL MICRO IRRIGATION SYSTEM AREA, BY CROP TYPES, 2009 – 2016 (’000 HECTARE)
TABLE 30 CEREALS: AREA (’000 HECTARE) & PRODUCTION (’000 TONS), BY GEOGRAPHY, 2010
TABLE 31 COARSE GRAINS: AREA (’000 HECTARE) & PRODUCTION (’000 TONS), BY GEOGRAPHY, 2010
TABLE 32 FIBER CROPS: AREA (’000 HECTARE) & PRODUCTION (’000 TONS), BY GEOGRAPHY, 2010
TABLE 33 OIL CROPS: AREA (’000 HECTARE) & PRODUCTION (’000 TONS), BY GEOGRAPHY, 2010
TABLE 34 PULSES: AREA (’000 HECTARE) & PRODUCTION (’000 TONS), BY GEOGRAPHY, 2010
TABLE 35 ROOTS & TUBERS: AREA (’000 HECTARE) & PRODUCTION (’000 TONS), BY GEOGRAPHY, 2010
TABLE 36 VEGETABLES & MELONS: AREA (’000 HECTARE) & PRODUCTION (’000 TONS), BY GEOGRAPHY, 2010
TABLE 37 TREE NUTS: AREA (’000 HECTARE) & PRODUCTION (’000 TONS), BY GEOGRAPHY, 2010
TABLE 38 CITRUS FRUITS: AREA (’000 HECTARE) & PRODUCTION (’000 TONS), BY GEOGRAPHY, 2010
TABLE 39 FRUIT CROPS (EXCL MELONS):AREA (’000 HECTARE) & PRODUCTION (’000 TONS), BY GEOGRAPHY, 2010
TABLE 40 GLOBAL MICRO IRRIGATION SYSTEM MARKET REVENUE, BY APPLICATIONS, 2009 – 2016 ($MILLION)
TABLE 41 GLOBAL MICRO IRRIGATION SYSTEM MARKET AREA, BY APPLICATIONS, 2009 – 2016 (’000 HECTARE)
TABLE 42 NORTH AMERICA: MICRO IRRIGATION SYSTEM MARKET REVENUE, BY COUNTRY, 2009 – 2016 ($MILLION)
TABLE 43 NORTH AMERICA: MICRO IRRIGATION SYSTEM MARKET AREA, BY COUNTRY, 2009 – 2016 (’000 HECTARE)
TABLE 44 U.S: MICRO IRRIGATION SYSTEM MARKET REVENUE, BY TYPES, 2009 – 2016 ($MILLION)
TABLE 45 U.S: MICRO IRRIGATION SYSTEM MARKET AREA, BY TYPES, 2009 – 2016 (’000 HECTARE)
TABLE 46 CANADA: MICRO IRRIGATION SYSTEM MARKET REVENUE, BY TYPES, 2009 – 2016 ($MILLION)
TABLE 47 CANADA: MICRO IRRIGATION SYSTEM MARKET AREA, BY TYPES, 2009 – 2016 (’000 HECTARE)
TABLE 48 MEXICO: MICRO IRRIGATION SYSTEM MARKET REVENUE, BY TYPES, 2009 – 2016 ($MILLION)
TABLE 49 MEXICO: MICRO IRRIGATION SYSTEM MARKET AREA, BY TYPES, 2009 – 2016 (’000 HECTARE)
TABLE 50 EUROPE: MICRO IRRIGATION MARKET REVENUE, BY COUNTRY, 2009 – 2016 ($MILLION)
TABLE 51 EUROPE: MICRO IRRIGATION MARKET AREA, BY COUNTRY, 2009 – 2016 (’000 HECTARE)
TABLE 52 RUSSIA: MICRO IRRIGATION SYSTEM MARKET REVENUE, BY TYPES, 2009 – 2016 ($MILLION)
TABLE 53 RUSSIA: MICRO IRRIGATION SYSTEM MARKET AREA, BY TYPES, 2009 – 2016 (’000 HECTARE)
TABLE 54 SPAIN: MICRO IRRIGATION SYSTEM MARKET REVENUE, BY TYPES, 2009 – 2016 ($MILLION)
TABLE 55 SPAIN: MICRO IRRIGATION SYSTEM MARKET REVENUE, BY TYPES, 2009 – 2016 (’000 HECTARE)
TABLE 56 ITALY: MICRO IRRIGATION SYSTEM MARKET REVENUE, BY TYPES, 2009 – 2016 ($MILLION)
TABLE 57 ITALY: MICRO IRRIGATION SYSTEM MARKET AREA, BY TYPES, 2009 – 2016 (’000 HECTARE)
TABLE 58 FRANCE: MICRO IRRIGATION SYSTEM MARKET REVENUE, BY TYPES, 2009 – 2016 ($MILLION)
TABLE 59 FRANCE: MICRO IRRIGATION SYSTEM MARKET AREA, BY TYPES, 2009 – 2016 (’000 HECTARE)
TABLE 60 UKRAINE: MICRO IRRIGATION SYSTEM MARKET REVENUE, BY TYPES, 2009 – 2016 ($MILLION)
TABLE 61 UKRAINE: MICRO IRRIGATION SYSTEM MARKET AREA, BY TYPES, 2009 – 2016 (’000 HECTARE)
TABLE 62 GERMANY: MICRO IRRIGATION SYSTEM MARKET REVENUE, BY TYPES, 2009 – 2016 ($MILLION)
TABLE 63 GERMANY: MICRO IRRIGATION SYSTEM MARKET AREA, BY TYPES, 2009 – 2016 (’000 HECTARE)
TABLE 64 ROMANIA: MICRO IRRIGATION SYSTEM MARKET REVENUE, BY TYPES, 2009 – 2016 ($MILLION)
TABLE 65 ROMANIA: MICRO IRRIGATION SYSTEM MARKET AREA, BY TYPES, 2009 – 2016 (’000 HECTARE)
TABLE 66 U.K: MICRO IRRIGATION SYSTEM MARKET REVENUE, BY TYPES, 2009 – 2016 ($MILLION)
TABLE 67 U.K: MICRO IRRIGATION SYSTEM MARKET AREA, BY TYPES, 2009 – 2016 (’000 HECTARE)
TABLE 68 ASIA-PACIFIC: MICRO IRRIGATION SYSTEM MARKET REVENUE, BY COUNTRY, 2009 – 2016 ($MILLION)
TABLE 69 ASIA-PACIFIC: MICRO IRRIGATION SYSTEM MARKET, BY COUNTRY, 2009 – 2016 (’000 HECTARE)
TABLE 70 INDIA: MICRO IRRIGATION SYSTEM MARKET REVENUE, BY TYPES, 2009 – 2016 ($MILLION)
TABLE 71 INDIA: MICRO IRRIGATION SYSTEM MARKET AREA, BY TYPES, 2009 – 2016 (’000 HECTARE)
TABLE 72 CHINA: MICRO IRRIGATION SYSTEM MARKET REVENUE, BY TYPES, 2009 – 2016 ($MILLION)
TABLE 73 CHINA: MICRO IRRIGATION SYSTEM MARKET AREA, BY TYPES, 2009 – 2016 (’000 HECTARE)
TABLE 74 IRAN: MICRO IRRIGATION SYSTEM MARKET REVENUE, BY TYPES, 2009 – 2016 ($MILLION)
TABLE 75 IRAN: MICRO IRRIGATION SYSTEM MARKET AREA, BY TYPES, 2009 – 2016 (’000 HECTARE)
TABLE 76 AUSTRALIA: MICRO IRRIGATION SYSTEM MARKET REVENUE, BY TYPES, 2009 – 2016 ($MILLION)
TABLE 77 AUSTRALIA: MICRO IRRIGATION SYSTEM MARKET AREA, BY TYPES, 2009 – 2016 (’000 HECTARE)
TABLE 78 JAPAN: MICRO IRRIGATION SYSTEM MARKET REVENUE, BY TYPES, 2009 – 2016 ($MILLION)
TABLE 79 JAPAN: MICRO IRRIGATION SYSTEM MARKET AREA, BY TYPES, 2009 – 2016 (’000 HECTARE)
TABLE 80 ISRAEL: MICRO IRRIGATION SYSTEM MARKET SHARE, BY TYPES, 2009 – 2016
TABLE 81 ISRAEL: MICRO IRRIGATION SYSTEM MARKET AREA, BY TYPES, 2009 – 2016 (’000 HECTARE)
TABLE 82 ROW: MICRO IRRIGATION MARKET REVENUE, BY COUNTRY, 2009 – 2016 ($MILLION)
TABLE 83 ROW: MICRO IRRIGATION MARKET REVENUE, BY COUNTRY, 2009 – 2016 (’000 HECTARE)
TABLE 84 BRAZIL: MICRO IRRIGATION SYSTEM MARKET REVENUE, BY TYPES, 2009 – 2016 ($MILLION)
TABLE 85 BRAZIL: MICRO IRRIGATION SYSTEM MARKET AREA, BY TYPES, 2009 – 2016 (’000 HECTARE)
TABLE 86 SOUTH AFRICA: MICRO IRRIGATION SYSTEM MARKET REVENUE, BY TYPES, 2009 – 2016 ($MILLION)
TABLE 87 SOUTH AFRICA: MICRO IRRIGATION SYSTEM MARKET AREA, BY TYPES, 2009 – 2016 (’000 HECTARE)
TABLE 88 SAUDI ARABIA: MICRO IRRIGATION SYSTEM MARKET REVENUE, BY TYPES, 2009 – 2016 ($MILLION)
TABLE 89 SAUDI ARABIA: MICRO IRRIGATION SYSTEM MARKET AREA, BY TYPES, 2009 – 2016 (’000 HECTARE)
TABLE 90 REPUBLIC OF KOREA: MICRO IRRIGATION SYSTEM MARKET REVENUE, BY TYPES, 2009 – 2016 ($MILLION)
TABLE 91 REPUBLIC OF KOREA: MICRO IRRIGATION SYSTEM MARKET AREA, BY TYPES, 2009 – 2016 (’000 HECTARE)
TABLE 92 EGYPT: MICRO IRRIGATION SYSTEM MARKET REVENUE, BY TYPES, 2009 – 2016 ($MILLION)
TABLE 93 EGYPT: MICRO IRRIGATION SYSTEM MARKET AREA, BY TYPES, 2009 – 2016 (’000 HECTARE)
TABLE 94 MERGERS & ACQUISITIONS, 2008 – 2011
TABLE 95 NEW PRODUCTS LAUNCH, 2012 – 2008
TABLE 96 COLLABORATIONS, PARTNERSHIPS, JOINT VENTURES & AGREEMENTS, 2008 – 2011
TABLE 97 EXPANSIONS, INVESTMENTS & OTHERS, 2008 – 2012
TABLE 98 ACCESS IRRIGATION LTD: NURSERY MICRO IRRIGATION PRODUCTS & ITS APPLICATIONS
TABLE 99 ACCESS IRRIGATION LTD: LANDSCAPE MICRO IRRIGATION PRODUCTS & ITS APPLICATIONS
TABLE 100 ACCESS IRRIGATION LTD: GENERAL SPRINKLER IRRIGATION PRODUCTS & ITS APPLICATIONS
TABLE 101 ACCESS IRRIGATION LTD: GENERAL IRRIGATION PRODUCTS & ITS APPLICATIONS
TABLE 102 ANTELCO PTY LTD: MICRO IRRIGATION SYSTEM PRODUCTS & ITS APPLICATIONS
TABLE 103 DRIPTECH: DRIP IRRIGATION PRODUCTS
TABLE 104 ELGO IRRIGATION: MICRO IRRIGATION PRODUCTS & ITS APPLICATIONS
TABLE 105 EPC INDUSTRIES: TOTAL REVENUE, BY SEGMENTS, 2009 – 2010 ($MILLION)
TABLE 106 EPC INDUSTRIES: DRIP IRRIGATION PRODUCTS &
TABLE 107 EPC INDUSTRIES: SPRINKLER IRRIGATION PRODUCTS & ITS APPLICATIONS
TABLE 108 HUNTER INDUSTRIES: MICRO IRRIGATION PRODUCTS & ITS APPLICATIONS
TABLE 109 JAIN IRRIGATION: TOTAL REVENUE, BY SEGMENTS, 2009 – 2010 ($MILLION)
TABLE 110 JAIN IRRIGATION: TOTAL REVENUE, BY GEOGRAPHY, 2010 – 2011 ($MILLION)
TABLE 111 JAIN IRRIGATION: MICRO IRRIGATION PRODUCTS & ITS APPLICATIONS
TABLE 112 JOHN DEERE & COMPANY: TOTAL REVENUE, BY SEGMENTS,2010 – 2011 ($MILLION)
TABLE 113 JOHN DEERE & COMPANY: TOTAL REVENUE, BY GEOGRAPHY, 2010 – 2011 ($MILLION)
TABLE 114 JOHN DEERE & COMPANY: MICRO IRRIGATION PRODUCTS ITS APPLICATIONS
TABLE 115 LIFE IRRIGATION: MICRO IRRIGATION PRODUCTS & ITS APPLICATIONS
TABLE 116 LINDSAY CORPORATION: TOTAL REVENUE, BY SEGMENTS, 2010 – 2011 ($MILLION)
TABLE 117 LINDSAY CORPORATION: TOTAL REVENUE, BY GEOGRAPHY, 2010 – 2011 ($MILLION)
TABLE 118 LINDSAY CORPORATION: MICRO IRRIGATION PRODUCTS & ITS APPLICATIONS
TABLE 119 NELSON IRRIGATION CORPORATION: MECHANIZED IRRIGATION PRODUCTS & ITS APPLICATIONS
TABLE 120 NETAFIM LIMITED: MICRO IRRIGATION PRODUCTS & ITS APPLICATIONS
TABLE 121 OLSON IRRIGATION SYSTEMS: PRODUCTS & ITS FEATURES
TABLE 122 ORBIT IRRIGATION: SPRINKLER IRRIGATION SYSTEMS PRODUCTS & ITS APPLICATIONS
TABLE 123 ORBIT IRRIGATION: DRIP IRRIGATION PRODUCTS & ITS APPLICATIONS
TABLE 124 ORBIT IRRIGATING: OTHER IRRIGATION COMPONENTS & ITS APPLICATIONS
TABLE 125 ORBIT IRRIGATION: MISTS COOLING PRODUCTS & ITS APPLICATIONS
TABLE 126 PARIXIT INDUSTRIES: SPRINKLER SYSTEMS
TABLE 127 RAIN BIRD: MICRO IRRIGATION PRODUCTS FOR HOMEOWNERS & ITS APPLICATIONS
TABLE 128 RAIN BIRD: MICRO IRRIGATION PRODUCTS FOR LANDSCAPE & ITS APPLICATIONS
TABLE 129 RAIN BIRD: MICRO IRRIGATION PRODUCTS FOR GOLF & ITS APPLICATIONS
TABLE 130 RAIN BIRD: MICRO IRRIGATION PRODUCTS FOR AGRICULTURE & ITS APPLICATIONS
TABLE 131 REINKE MANUFACTURING: CENTER PIVOTS PRODUCTS & ITS APPLICATIONS
TABLE 132 REINKE MANUFACTURING: LATERAL MOVE SYSTEMS PRODUCTS & ITS APPLICATIONS
TABLE 133 REINKE MANUFACTURING: CONTROL PANELS PRODUCTS & ITS APPLICATIONS
TABLE 134 REINKE MANUFACTURING: REMOTE MANAGEMENT PRODUCTS & ITS APPLICATIONS
TABLE 135 SENNINGER IRRIGATION: MICRO IRRIGATION PRODUCTS & ITS APPLICATIONS
TABLE 136 SENNINGER IRRIGATION: MICRO IRRIGATION PRODUCTS FOR NURSERIES & GREENHOUSE
TABLE 137 SENNINGER IRRIGATION: MICRO IRRIGATION PRODUCTS FOR SOLID SET & ITS APPLICATIONS
TABLE 138 SIGNATURE CONTROL SYSTEMS: MICRO IRRIGATION PRODUCTS FOR GOLF
TABLE 139 SIGNATURE CONTROL SYSTEMS: MICRO IRRIGATION PRODUCTS FOR TURF
TABLE 140 T-L IRRIGATION: PIVOT & LINEAR IRRIGATION SYSTEMS PRODUCTS & ITS APPLICATIONS
TABLE 141 TORO COMPANY: TOTAL REVENUE, BY SEGMENTS, 2009 – 2010 ($MILLION)
TABLE 142 TORO COMPANY: TOTAL REVENUE, BY GEOGRAPHY, 2009 – 2010 ($MILLION)
TABLE 143 TORO COMPANY: MICRO IRRIGATION PRODUCTS & ITS APPLICATIONS FOR HOMEOWNERS
TABLE 144 TORO COMPANY: MICRO IRRIGATION PRODUCTS & ITS APPLICATIONS FOR GOLF
TABLE 145 TORO COMPANY: MICRO IRRIGATION PRODUCTS & ITS APPLICATIONS FOR PROFESSIONAL CONTRACTOR
TABLE 146 TORO COMPANY: MICRO IRRIGATION PRODUCTS & ITS APPLICATIONS FOR AGRICULTURE
TABLE 147 VALMONT: TOTAL REVENUE, BY SEGMENTS, 2009 – 2010 ($MILLION)
TABLE 148 VALMONT: IRRIGATION EQUIPMENTS & ITS APPLICATIONS, BY VALLEY IRRIGATION
TABLE 149 VALMONT: CONTROL PRODUCTS & ITS APPLICATIONS FOR IRRIGATIONS
TABLE 150 VALMONT: VALLEY PARTS PRODUCTS & ITS APPLICATIONS FOR IRRIGATIONS
List of Figures
FIGURE 1 GLOBAL MICRO IRRIGATION SYSTEM MARKET SEGMENTATION
FIGURE 2 IMPACT OF MAJOR DRIVERS ON GLOBAL MICRO IRRIGATION SYSTEM MARKET, 2011 – 2016
FIGURE 3 WORLD POPULATION & FUTURE FRESHWATER NEEDS
FIGURE 4 IMPACT OF MAJOR RESTRAINTS ON GLOBAL MICRO IRRIGATION SYSTEM MARKET, 2011 – 2016
FIGURE 5 GLOBAL MICRO IRRIGATION SYSTEMS SHARE, BY COMPANY, 2010
FIGURE 6 PATENT ANALYSIS, BY GEOGRAPHY, JANUARY 2006 – DECEMBER 2011
FIGURE 7 PATENT ANALYSIS, BY YEAR, JANUARY 2006 – DECEMBER 2011
FIGURE 8 PATENT ANALYSIS, BY COMPANY, JANUARY 2006 – DECEMBER 2011
FIGURE 9 MECHANIZED IRRIGATION SYSTEMS MARKET SHARE ANALYSIS, 2010
FIGURE 10 MECHANIZED IRRIGATION SYSTEMS MARKET, BY CROPS, 2010
FIGURE 11 GLOBAL FIELD CROPS MICRO IRRIGATION MARKET REVENUE, 2009 – 2016 ($MILLION)
FIGURE 12 GLOBAL PLANTATION CROP MICRO IRRIGATION MARKET REVENUE, 2009 – 2016 ($MILLION)
FIGURE 13 GLOBAL ORCHARD CROPS MICRO IRRIGATION SYSTEM MARKET REVENUE, 2009 – 2016 ($MILLION)
FIGURE 14 GLOBAL FORAGE & TURF GRASSES MICRO IRRIGATION SYSTEM MARKET REVENUE, 2009 – 2016 ($MILLION)
FIGURE 15 MICRO IRRIGATION SYSTEM MARKET SHARE, BY GEOGRAPHY, 2010
FIGURE 16 NORTH AMERICA: MICRO IRRIGATION MARKET SHARE, BY COUNTRY, 2010
FIGURE 17 U.S: AREA UNDER IRRIGATION, 2010
FIGURE 18 CANADA: AREA UNDER IRRIGATION, 2010
FIGURE 19 MEXICO: AREA UNDER IRRIGATION, 2010
FIGURE 20 EUROPE: MICRO IRRIGATION MARKET SHARE, BY COUNTRY, 2010
FIGURE 21 RUSSIA: AREA UNDER IRRIGATION, 2010
FIGURE 22 SPAIN: AREA UNDER IRRIGATION, 2010
FIGURE 23 ITALY: AREA UNDER IRRIGATION, 2010
FIGURE 24 FRANCE: AREA UNDER IRRIGATION, 2010
FIGURE 25 UKRAINE: AREA UNDER IRRIGATION, 2010
FIGURE 26 GERMANY: AREA UNDER IRRIGATION, 2010
FIGURE 27 ROMANIA: AREA UNDER IRRIGATION, 2010
FIGURE 28 U.K: AREA UNDER IRRIGATION, 2010
FIGURE 29 ASIA-PACIFIC: MICRO IRRIGATION MARKET SHARE, BY COUNTRY, 2010
FIGURE 30 INDIA: AREA UNDER IRRIGATION, 2010
FIGURE 31 CHINA: AREA UNDER IRRIGATION, 2010
FIGURE 32 IRAN: AREA UNDER IRRIGATION, 2010
FIGURE 33 AUSTRALIA: AREA UNDER IRRIGATION, 2010
FIGURE 34 JAPAN: AREA UNDER IRRIGATION, 2010
FIGURE 35 ISRAEL: TOTAL IRRIGATED AREA, 2010
FIGURE 36 ROW: MICRO IRRIGATION MARKET SHARE, BY COUNTRY, 2010
FIGURE 37 BRAZIL: AREA UNDER IRRIGATION, 2010
FIGURE 38 SOUTH AFRICA: AREA UNDER IRRIGATION, 2010
FIGURE 39 SAUDI ARABIA: AREA UNDER IRRIGATION, 2010
FIGURE 40 REPUBLIC OF KOREA: AREA UNDER IRRIGATION, 2010
FIGURE 41 EGYPT: AREA UNDER IRRIGATION, 2010
FIGURE 42 GLOBAL MICRO IRRIGATION & MECHANIZED IRRIGATION SYSTEM MARKET GROWTH STRATEGIES, 2008 – 2012
FIGURE 43 GLOBAL MICRO IRRIGATION & MECHANIZED IRRIGATION SYSTEM MARKET DEVELOPMENTS, 2008 – 2012
FIGURE 44 GLOBAL MICRO IRRIGATION & MECHANIZED IRRIGATION SYSTEM MARKET GROWTH STRATEGIES, BY COMPANY, 2008 – 2012

Tuesday, March 6, 2012

Electric Vehicle Traction Batteries 2012-2022

Published: March 2012
No. of Pages: 341
: US$3995



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Electric Vehicle Traction Batteries Market Report

Table of Contents

1. EXECUTIVE SUMMARY AND CONCLUSIONS
1.1. The decade of hybrid vehicles
1.2. Market 2012-2022
1.3. Replacement business
1.3.1. Replacement market
1.3.2. Lithium polymer electrolyte now important
1.3.3. Winning chemistry
1.3.4. Winning lithium traction battery manufacturers
1.3.5. Making lithium batteries safe
1.4. Price war
1.5. Massive investments
1.6. Largest sectors
1.7. Market for EV components
1.8. Who is winning in lithium-ion traction batteries - and why
1.8.1. The needs have radically changed
1.8.2. It started with cobalt
1.8.3. Great variety of recipes
1.8.4. Other factors
1.8.5. Check with reality
1.8.6. Lithium winners today and soon
1.8.7. Reasons for winning
1.8.8. Winner will be Toyota?
1.8.9. Lithium polymer electrolyte now important
1.8.10. Genuinely Solid State Traction Batteries
1.8.11. Winning chemistry
1.8.12. Titanate establishes a place for Li-ion anodes
1.8.13. Laminar structure

2. INTRODUCTION
2.1. Definitions, scope, history
2.2. The EV value chain
2.3. Pure electric vs hybrid vehicles
2.4. Battery cells, modules, packs
2.5. Construction of battery packs
2.5.1. Changing factors
2.5.2. NiMH vs lithium
2.5.3. Replacement traction battery pack market 2011-2021
2.5.4. Plug in hybrids take over from mild hybrids
2.6. Pure electric and hybrid converge
2.6.1. Two options converge
2.7. Fuel cells
2.8. The ideal car traction battery pack
2.9. Traction batteries today
2.10. First generation lithium traction batteries
2.11. Second generation lithium traction batteries
2.12. The future
2.12.1. Third generation lithium traction batteries
2.12.2. Trends in energy storage vs battery pack voltage
2.12.3. Companies wishing to make the new batteries
2.13. How to improve lithium traction batteries
2.13.1. Basic needs
2.13.2. Life
2.13.3. Safety
2.14. USA and Europe play catch up
2.15. Technological leapfrog
2.16. Academic research and small companies
2.17. Industrial leverage
2.17.1. Major funding can have strange impacts
2.17.2. Rapid profits for some
2.17.3. Impediments
2.18. Benefits of EVs
2.19. Traction battery design considerations
2.20. Future evolution of hybrids and pure electric cars
2.20.1. Specification changes
2.20.2. Move to high voltage
2.20.3. Battery performance over time - battery life
2.20.4. Battery state of charge
2.20.5. Depth of discharge affects life
2.20.6. Capacity rating
2.20.7. Daily depth of discharge
2.20.8. Charging and discharging rates
2.21. Requirements - hybrids vs pure electric
2.21.1. Plug in requirements align with pure electric cars
2.21.2. Hybrids need power and pure electrics need capacity - for now
2.21.3. Parallel hybrids differ
2.21.4. Plug in hybrids try to be the best of both worlds
2.21.5. Watt hours per mile
2.21.6. Charging rates
2.21.7. Custom packaging
2.22. Fast charging batteries and infrastructure

3. PROGRESS WITH NEW GENERATION LITHIUM TRACTION BATTERIES
3.1. Introduction
3.2. Lithium manganese
3.3. Lithium iron phosphate
3.4. Lithium air and lithium metal
3.5. Lithium sulfur
3.5.1. Other challenges

4. HEAVY INDUSTRIAL EVS
4.1. Examples of battery suppliers to this sector
4.1.1. GE USA
4.1.2. East Penn Manufacturing Corporation USA
4.1.3. Furukawa Battery Japan
4.1.4. Nissan lithium forklift Japan
4.1.5. Balqon lithium heavy duty vehicles USA
4.2. Listing of manufacturers
4.3. Market size
4.4. Heavy industrial traction battery market forecasts 2011 to 2021

5. LIGHT INDUSTRIAL AND COMMERCIAL EVS
5.1.1. Sub categories
5.1.2. Buses
5.2. Examples of battery suppliers to this sector
5.2.1. A123 Systems
5.2.2. Axeon UK
5.2.3. Eaton Corporation USA
5.2.4. KD Advanced Battery Group Dow USA Kokam Korea
5.2.5. Lithium Technology Corporation/GAIA USA
5.2.6. MAGNA STEYR AG & Co KG Austria
5.2.7. Valence Technologies USA
5.2.8. Lishen Power Battery China
5.3. Market drivers
5.3.1. Governments get involved
5.4. Importance of batteries and power trains
5.4.1. Freightliner and Enova
5.4.2. China Vehicles Company
5.4.3. Ford Transit
5.5. EVs for local services
5.6. Airport EVs
5.7. Small people-movers
5.8. Light industrial aids
5.8.1. Heavy duty on-road trucks become hybrids
5.9. Listing of manufacturers
5.10. Light industrial / commercial traction battery market forecasts 2011-2021

6. MOBILITY FOR THE DISABLED
6.1. Examples of battery suppliers to this sector
6.2. The sector with the most compelling and enduring need
6.3. Laws make mobility easier
6.4. Interchina Industry Group China
6.5. Market drivers
6.5.1. Geographical distribution
6.5.2. Zhejiang R&P Industry China
6.6. Listing of manufacturers
6.7. Mobility aid traction battery market forecasts 2011 to 2021
6.7.1. Growth by creating new markets

7. TWO WHEELED EVS AND ALLIED VEHICLES
7.1. Examples of battery suppliers to this sector
7.1.1. Advanced Battery Technologies (ABAT) China
7.1.2. Leyden Energy USA
7.1.3. PowerGenix USA
7.1.4. ReVolt Technologies Ltd Switzerland
7.1.5. Toshiba Japan
7.2. Batteries and specifications for two wheelers
7.2.1. Electric two wheelers prices and performance
7.2.2. Yamaha lithium Japan
7.2.3. Eko Vehicles lead acid scooters India
7.2.4. Honda lithium motorcycle Japan
7.2.5. Peugeot lithium scooter France
7.3. Hybrid motorcycles
7.3.1. YikeBike lithium New Zealand
7.4. The big winners in western markets
7.5. Listing of manufacturers
7.5.1. 70 examples of manufacturers
7.5.2. China
7.6. Two wheeled and allied traction battery market forecasts 2011 to 2021

8. GOLF EVS
8.1. Examples of battery suppliers to this sector
8.1.1. Change of leader? Ingersoll Rand and Textron USA
8.1.2. Suzhou Eagle and many others in China
8.2. Listing of manufacturers
8.3. Golf car and caddy traction battery market forecasts 2011 to 2021

9. CARS
9.1. Examples of battery suppliers to this sector
9.1.1. Automotive Energy Supply Japan
9.1.2. Panasonic EV Energy, Sanyo Japan
9.1.3. Blue Energy, Lithium Energy Japan - GS Yuasa Japan with Honda, Mitsubishi
9.1.4. Bolloré France
9.1.5. Boston Power
9.1.6. BYD China
9.1.7. China BAK in China
9.1.8. Coda Battery Systems, Yardney USA, Tianjin Lishen China
9.1.9. Continental Germany and ENAX Japan
9.1.10. Envia Systems USA
9.1.11. Hitachi Japan
9.1.12. IBM and National laboratories USA
9.1.13. Inci Holding Turkey
9.1.14. LG Chem Korea with Compact Power
9.1.15. LiFeBATT Taiwan
9.1.16. Li-Tec Evonik Industries Germany and Daimler
9.1.17. Mitsubishi Japan with Sumitomo Japan
9.1.18. Next Alternative Germany, Micro Bubble Technology Korea
9.1.19. Planar Energy Devices USA
9.1.20. Sakti3 USA and General Motors USA
9.1.21. SB LiMotive Co. Ltd - Samsung Korea with Bosch Germany
9.1.22. Sony Japan
9.1.23. Superlattice Power USA
9.2. Rapid increase in number of manufacturers
9.2.1. Examples of manufacturers
9.2.2. Recharging points
9.2.3. Battery changing points
9.2.4. Can the grid cope?
9.3. Car traction battery market forecasts 2011 to 2021
9.3.1. Total car traction battery market value 2011 to 2021
9.3.2. Battery pack market by car type 2012-2022
9.3.3. Hybrid battery prices
9.3.4. Replacement car traction battery pack market 2010-2020

10. PURE ELECTRIC CARS
10.1. Electricity solely for traction
10.2. Examples of pure EV cars
10.2.1. Nissan Leaf lithium Japan, UK, USA
10.2.2. Here come the Chinese - BYD, Brilliance, Geely, Chengfang
10.2.3. Jianghsu lead acid China
10.2.4. High performance pure lithium EVs - Tesla USA
10.2.5. Lightning lithium UK
10.2.6. Subaru Stella lithium Japan
10.2.7. REVA lead acid or lithium India
10.2.8. Club Car lead acid USA
10.2.9. Tara Tiny lead acid India
10.2.10. Mitsubishi iMiEV lithium Japan
10.2.11. Renault Nissan lithium France

11. HYBRID CARS
11.1. Construction and advantages of hybrids
11.1.1. Evolution
11.1.2. Frazer Nash Namir lithium UK
11.1.3. Chevrolet Volt lithium USA
11.1.4. Toyota Prius NiMH, lithium Japan
11.1.5. Fisker Karma lithium USA

12. MILITARY
12.1. Examples of battery suppliers to this sector
12.1.1. ABSL UK
12.1.2. Altair Nanotechnologies (Altairnano) USA
12.1.3. Electrovaya Canada
12.1.4. Hummer
12.1.5. Chrysler
12.1.6. Saft France, Johnson Controls USA
12.2. Examples of military EVs
12.2.1. Manned land vehicles.
12.2.2. Hummer lithium USA / China
12.2.3. Quantum Technologies lithium USA
12.2.4. US Army trucks etc - ZAP, Columbia ParCar USA
12.2.5. Oshkosh Truck Corp USA
12.2.6. Plug-in trucks - BAE Systems UK
12.2.7. Electric robot vehicles USA
12.3. In the air
12.3.1. Disposable surveillance aircraft
12.3.2. DARPA insects USA
12.3.3. COM-BAT lithium robot bat USA
12.3.4. Aerovironment electric aircraft USA
12.4. Examples of military EVs - in the water
12.4.1. Robot lithium jellyfish USA and Germany
12.5. Manufacturers of military EVs
12.6. Military traction battery market forecasts 2011 to 2021

13. MARINE
13.1. Examples of battery suppliers to this sector
13.1.1. Gavia Iceland
13.1.2. PolyPlus Battery USA
13.1.3. ThunderPower USA
13.2. Market segments
13.2.1. Total market
13.2.2. Underwater
13.2.3. On the water
13.3. Commonality with land EVs
13.4. Market drivers
13.4.1. Pollution laws back electric boats
13.5. Energy harvesting superyacht UK
13.5.1. Cleaner yachts - Valence, Bénéteau
13.6. Autonomous Underwater Vehicles (AUVs)
13.6.1. Swimmers
13.7. Leisure and tourist submarines USA
13.8. Manufacturers by country and product
13.8.1. Examples of companies making electric water craft
13.9. Marine traction battery market forecasts 2011 to 2021
13.9.1. Surface and subsurface boat markets
13.9.2. AUV

14. OTHER EVS
14.1. Market drivers
14.2. Listing of manufacturers by country and product
14.3. Companies in the mobile robot and leisure sector
14.4. Electric aircraft for civil use
14.4.1. Sion Power USA - Aircraft batteries
14.4.2. Aircraft - Renault, Piccard
14.5. Other traction battery market forecasts 2011 to 2021

APPENDIX 1: IDTECHEX PUBLICATIONS AND CONSULTANCY

TABLES
1.1. Comparison of the price, performance, safety compromise of lithium-ion traction battery packs
1.2. Numbers of vehicle traction batteries, in thousands, sold globally in new vehicles, 2012-2022, by applicational sector.
1.3. Ex factory unit price of traction battery packs, in thousands of US dollars, sold globally, 2012-2022, by applicational sector
1.4. Global market value of traction battery packs, in billions of US dollars, sold globally, 2012-2022, by applicational sector, rounded
1.5. Replacement market for traction battery packs in value $ million 2011 to 2021
1.6. Traction battery technologies in 2011, number percentage lead acid, NiMH and lithium
1.7. Traction battery technologies in 2021 number percentage lead acid, NiMH and lithium
1.8. 71 vertically integrated lithium traction battery cell manufacturers, their chemistry, cell geometry and customer relationships (not necessarily orders)
1.9. Applicants to accelerate the manufacturing and deployment of the next generation of US batteries and electric vehicles
1.10. Main market drivers 2010-2020
1.11. Number of hybrid and pure electric cars sold and those that plug in thousands 2012-2022
1.12. Breakdown of global market in 2010 for light industrial and commercial vehicles - global park, new vehicles, % electric, number of battery packs at one per vehicle, ex factory unit price and value for the subsections Buses, Other
1.13. Number of hybrid and pure electric cars plugged in and the total number in thousands 2010-2020
1.14. Components and subsystems fitted in new electric vehicles 2010-2020 in thousands
1.15. Highlights 2010-2020
1.16. What is on the way in or out with traction batteries
2.1. Some ways to reduce the cost and increase the performance of lithium-ion car traction batteries
2.2. Improvement in cost and performance of hybrid and pure electric vehicle traction battery packs 2009-2020
2.3. Some reasons why ICE vehicles are replaced with EVs
3.1. Typical lithium iron phosphate traction battery
4.1. Twenty examples of manufacturers of heavy industrial EVs by country
4.2. Percentage split of global manufacture of heavy industrial trucks
4.3. Distribution of trade volume for heavy industrial EVs
4.4. Global league table of powered industrial truck manufacturers 2010 by value of sales
4.5. Global sales of heavy industrial battery sets at one per vehicle, by numbers, ex factory unit price and total value 2011 to 2021, rounded.
5.1. 150 manufacturers of light industrial and commercial EVs and drive trains by country and examples of their products
5.2. Global sales of light industrial and commercial vehicle traction battery sets at one per new vehicle by numbers thousands, ex factory unit price in thousands of dollars and total value in billions of dollars 2011 to 2021, rounded
5.3. Breakdown of global market in 2010 for light industrial and commercial vehicles - global park, new vehicles, % electric, number of battery sets at one per new vehicle, ex factory unit price and value for the subsections Full Size
6.1. The continental percentage split of markets for vehicles for the disabled by value in 2010
6.2. The percentage split of market for vehicles for the disabled by country within Europe
6.3. The numbers in thousands of scooters plus power chairs that were and will be sold in Europe 2005 to 2015
6.4. The percentage distribution of manufacture between Taiwan and Mainland China by value of vehicles for the disabled 2005, 2010 and 2015
6.5. Market for EVs for the disabled by geographical region, ex works pricing and percentage split in 2005, 2010 and 2020
6.6. 83 examples of manufacturers of EVs for the disabled by country
6.7. Global sales of traction battery sets used in mobility aids for the disabled at one set per new vehicle, by number, ex factory unit price in thousands of dollars and total value in billions of dollars, 2011 to 2021, rounded
7.1. Prices and performance of electric two wheelers
7.2. 70 examples of manufacturers of two wheel EVs and electric quad bikes
7.3. Largest suppliers of electric bicycles by number (not in order)
7.4. 34 sources of two wheelers in China by brand, region and battery chemistry
7.5. Listing of light electric scooter makers in China. Most use lead-acid battery chemistry but there is a move to lithium-ion batteries
7.6. Global sales of two wheel and allied battery sets at one per new vehicle, number, ex factory unit price in thousands of dollars and total value in billions of dollars 2011 to 2021, rounded
7.7. Global Replacement market for traction battery packs for two wheel vehicles in value $ million 2010-2020
8.1. 18 examples of golf EV manufacturers
8.2. Global sales of electric golf car battery sets in number at one per new vehicle, thousands, ex factory unit price in thousands of dollars and total value in billions of dollars 2011 to 2021, rounded.
8.3. Geographical split of golf EV sales by value 2010, 2015, 2020
9.1. BYD financials
9.2. 121 examples of manufacturers of electric cars including pictures of many Chinese electric cars
9.3. IDTechEx projection for total car traction battery pack sales in $ billion 2011 to 2021
9.4. Number of hybrid and pure electric cars sold and those that plug in thousands 2012-2022
9.5. Replacement market for car traction battery packs in value $ million 2010-2020
11.1. Prius NiMH traction battery evolution
12.1. 26 suppliers of military EVs
12.2. Global sales of military vehicle traction battery sets at one per new vehicle in number thousands, ex factory unit price in thousands of dollars and total value in billions of dollars 2011 to 2021, rounded.
13.1. 44 examples of manufacturers of EV electric water craft
13.2. AUV specifications, prices and market leaders
13.3. Global sales of marine craft traction battery sets at one per new vehicle, in number thousands, ex factory unit price in thousands of dollars and total value in billions of dollars 2011 to 2021, rounded.
14.1. 30 examples of manufacturers of mobile robots, toy, leisure, research or hobbyist EVs by country and product
14.2. Global sales of other electric vehicle traction battery sets at one per new vehicle, in number thousands, ex factory unit price in thousands of dollars and total value in billions of dollars 2011 to 2021, rounded.

FIGURES
1.1. Numbers of traction battery packs for two wheelers, cars and mobility for the disabled compared in thousands, sold globally in new vehicles, 2012-2022, by applicational sector
1.2. Ex factory unit price of traction battery packs, in thousands of US dollars, sold globally, 2012-2022, by applicational sector
1.3. Global market value of traction battery packs, in billions of US dollars, sold globally, 2012-2022, by applicational sector, rounded
1.4. Here comes lithium
1.5. Approximate percentage of manufacturers offering traction batteries with less cobalt vs those offering ones with no cobalt vs those offering both. We also show the number of suppliers that offer lithium iron phosphate versions.
1.6. The UPS 747 that crashed in the UAE with a shipment of lithium batteries
1.7. Number of hybrid and pure electric cars sold in thousands 2012-2022
1.8. Market breakdown for light industrial and commercial electric vehicles in 2010 in $ billion - buses, other on road, airport GSE, other off road
1.9. Market breakdown for industrial and commercial electric vehicles in 2020 in billions of dollars - buses, other on road, off road
1.10. Possible evolution of affordable, mainstream electric cars and other electric vehicles that mainly employ conventional internal combustion engines today. This shows the convergence of hybrid and pure electric technologies
1.11. Evolution of lithium traction batteries 2010-2030
1.12. Geely IG solar car
1.13. Japanese ten meter long deep sea cruising AUV, the URASHIMA
1.14. Bionic dolphin
1.15. Deepflight Merlin
1.16. Cri-Cri pure electric stunt plane new in 2010
1.17. Oshkosh truck
2.1. EV sectors with the largest gross sales value and profits over the years
2.2. Electric vehicle value chain
2.3. Comparison of cells, modules and battery packs.
2.4. Possible evolution of affordable, mainstream electric cars showing the convergence of hybrid and a pure electric technologies
2.5. Nikkei forecast of lithium battery cost reduction by year at 80 yen per dollar
2.6. Cost structure of lithium cobalt batteries according to Deutsche Bank Securities
2.7. Volumetric vs gravimetric energy density of batteries used in vehicles
2.8. Traction battery pack nominal energy storage vs battery pack voltage for mild hybrids in red, plug on hybrids in blue and pure electric cars in green
2.9. Battery specification based on end of life
2.10. Car traction battery operating requirements compared
3.1. Future improvement in power and energy density
3.2. Subaru lithium ion manganese battery
3.3. Mitsubishi lithium-ion batteries for cars
3.4. Lithium air batteries
3.5. Li-S Cell Configuration
3.6. Ragone plots for different rechargeable systems
3.7. Active Materials Transformation Diagram
3.8. Prototype lithium sulfur battery by Sion Power
4.1. East Penn lead acid battery for golf cars
4.2. Furukawa Cycle-service storage battery for Golf Cars
5.1. Chevrolet Volt lithium-ion battery
5.2. Chrysler electric minivan
5.3. Smith electric vehicle
5.4. Magna Steyr traction battery pack capability
5.5. Magna Steyr energy battery for pure electric and plug in hybrid cars
5.6. Magna Steyr power battery for hybrid cars
5.7. EVI truck powered by Valence lithium-ion batteries
5.8. Lishen Power battery products
5.9. Freightliner MT-45 step van uses 120kW Enova electric drive system
5.10. Electric pick up truck from China Vehicles Company
5.11. Ford Transit pure EV
6.1. The Electric Car (INEC-KARO) for the disabled from Interchina Industry Group
6.2. Zhejiang R&P Industry ES 413
7.1. Toshiba e-bike battery
7.2. Yamaha EC-f and EC-fs concept electric scooters
7.3. Yamaha EC03
7.4. Eko Vehicles ET-120 hybrid scooter
7.5. Honda EV Cub sports twin, front and rear electric drive motors
7.6. Peugeot E-Vivacity electric scooter planned for 2010
7.7. YikeBike in action
9.1. Nissan Leaf battery
9.2. Pininfarina Bolloré B0 electric car powered by Bolloré lithium polymer batteries
9.3. Pininfarina Bolloré Bluecar cross section showing battery
9.4. LEV electric car by Qingyuan Motors
9.5. Continental lithium ion traction battery
9.6. Safety testing of Continental lithium ion traction batteries
9.7. 25Ah lithium-ion battery cell for plug-in hybrid electric vehicles
9.8. LiFeBATT manufacture
9.9. IDTechEx projection for total car traction battery pack sales in $ billion 2011 to 2021
9.10. Number of hybrid and pure electric cars sold in thousands 2012-2022
9.11. Market forecasts for traction battery packs for new cars ex factory price 2010-2020
9.12. Market forecasts for traction battery packs for new cars value in million dollars 2010-2020
9.13. Replacement market for car traction battery packs in value $ million 2010-2020
10.1. Gemcar
10.2. The planned Nissan Leaf pure electric car
10.3. Nissan leaf lithium traction batteries
10.4. The BYD E6 pure EV car
10.5. Jianghsu DHCLBC EF-1 car
10.6. Tesla Motors Roadster pure EV performance car
10.7. Tesla battery pack with coolant tubes at bottom.
10.8. The Lighting pure electric sports car
10.9. Subaru Stella pure electric vehicle
10.10. REVA pure EV car
10.11. The Club Car street legal car launched in 2009
10.12. Tara Tiny
10.13. Mitsubishi pure EV car
10.14. Mitsubishi i-MiEV
11.1. Evolution of EV design for on-road and many non-road vehicles
11.2. Frazer Nash Namir
11.3. Toyota Prius NiMH traction battery
11.4. Toyota Highlander Hybrid Battery
12.1. Altairnano view of some of the primary performance advantages of its lithium traction batteries
12.2. Hummer H3 ReEV Lithium Ion SuperPolymer battery pack made by Electrovaya.
12.3. Oshkosh truck
12.4. COM-BAT
13.1. Gavia defense AUV
13.2. Electric launch
13.3. The rigid-wing superyacht concept called 'Soliloquy'
13.4. The British Scorpio remote controlled rescue vehicle that released the trapped Russian submarine in August 2005.
13.5. The Ocean Explorer AUV
13.6. A British Remote Controlled Mine Destruction Vehicle being lowered into the water
13.7. Deep Flight Aviator two-person leisure submarine
13.8. Seattle personal luxury submarine by US Submarines
14.1. The new Electrolux Automower

Printed, Organic & Flexible Electronics Forecasts, Players & Opportunities 2012-2022

Published: March 2012
No. of Pages: 304
: US$3995


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Printed, Organic & Flexible Electronics Market Report

Table of Contents

1. EXECUTIVE SUMMARY AND CONCLUSIONS
1.1. Definitions
1.2. Overall market size in 2022
1.3. 3,000 organisations active in the field
1.4. Organic versus Inorganic Electronics
1.5. Markets in 2012
1.6. Market by territory

2. INTRODUCTION
2.2. Twenty year forecasts of unusual breadth
2.3. Terminology and definitions
2.4. Scope for printed electronics and electrics
2.5. There is a bigger picture
2.6. Printed electronics products today
2.6.1. New technologies, more opportunity
2.6.2. With or without a silicon chip
2.6.3. Highest volume products with no silicon chip
2.6.4. Printed electronics with silicon chips
2.6.5. Electronic apparel
2.6.6. Display and lighting
2.6.7. Photovoltaic power by the mile
2.6.8. Stretchable electronic products for sale
2.6.9. A view from Toppan Forms
2.7. Displays are the main sector for now
2.8. Photovoltaics beyond conventional silicon are the second largest market
2.9. How printed electronics is being applied
2.10. Surprisingly poor progress with low cost electronics so far
2.11. Threat - silicon chips keep getting cheaper
2.12. Printed electronics for smart packaging
2.13. Driving forces for disposable electronics
2.14. Inorganic patterning shows the way
2.15. Great uncertainty
2.16. Challenging conventional electronics
2.17. Flexible is a big market
2.18. Assumptions for our forecasts
2.19. Market Background

3. LOGIC AND MEMORY
3.1. Logic and Memory Market Forecasts 2012-2022
3.1.1. Logic and memory forecasts 2012-2022
3.2. Impact on silicon
3.3. Transistor design
3.3.2. New TFT geometry
3.3.3. Advantages of printed and thin film transistors and memory vs traditional silicon
3.3.4. The main options for the printed semiconductor
3.3.5. What reads to most of the potential strengths of printed transistors
3.3.6. Development path
3.3.7. Obtaining higher frequency performance
3.3.8. Shakeout of organic transistor developers
3.3.9. Kovio
3.3.10. NanoGram/Teijin
3.3.11. Metal oxide semiconductors
3.3.12. Do organic transistors have a future?
3.4. Latest progress in 2012
3.4.1. Oxide Semiconductors
3.4.2. Carbon Nanotube and Graphene
3.4.3. Organics
3.4.4. Others
3.5. Choice of printing technologies
3.6. Company strategy and value chain
3.6.1. TFTC value chain
3.7. Memory
3.7.2. Thinfilm unveils first scalable printed CMOS memory
3.8. Flexible memristor
3.9. RFID
3.9.1. Market for RFID
3.9.2. Ultimate potential for highest volume RFID
3.9.3. Penetration of chipless/printed RFID

4. DISPLAYS
4.1. Market drivers
4.2. OLEDs as displays for electronic products
4.3. Developers of OLEDs
4.4. OLED market forecasts 2012-2022
4.4.1. Impediments to OLED adoption
4.4.2. Unmet technical needs for OLEDs
4.5. Electrophoretic
4.5.1. Applications of E-paper displays
4.5.2. E ink
4.5.3. The Killer Application
4.5.4. SiPix, Taiwan
4.5.5. Polymer Vision/Wistron
4.5.6. Electrowetting displays
4.5.7. Liquavista, The Netherlands (Samsung, Korea)
4.5.8. ITRI, Taiwan and PVI (E-ink), Taiwan
4.5.9. Electrophoretic and Bi-Stable displays market forecasts 2012-2022
4.6. Electrochromic
4.6.1. Electrochromic displays market forecasts 2012-2022
4.7. AC Electroluminescent
4.7.1. Applications
4.7.2. Electroluminescent displays market forecasts 2012-2022
4.8. Other display technologies
4.8.1. Thermochromic
4.8.2. Electrochemical displays on paper
4.8.3. Flexible LCDs
4.8.4. Kent Displays

5. LIGHTING
5.1. Significance of lighting and challenges
5.2. Comparisons of lighting technologies
5.3. Lighting forecasts 2012-2022
5.4. Value Chain and examples of OLED lighting
5.5. AC electroluminescent lighting
5.6. LEDs

6. POWER: PHOTOVOLTAICS AND BATTERIES
6.1. Photovoltaics
6.1.1. Thin film photovoltaics
6.1.2. Comparison of technologies
6.1.3. Parameters for comparing photovoltaic technologies
6.2. Photovoltaics Forecasts
6.2.1. Forecast analysis
6.3. Batteries
6.3.1. Importance of laminar batteries
6.3.2. Button batteries vs laminar batteries
6.3.3. Choices of laminar battery
6.3.4. Applications of laminar batteries
6.4. Printed batteries forecasts 2012-2022
6.4.1. Laminar batteries - missing the big opportunity?
6.5. Fuel cells

7. SENSORS AND OTHER ELECTRONIC COMPONENTS
7.1. General situation and examples
7.2. Photodetector arrays
7.2.1. Printed flexible scanners
7.3. Touch screens
7.4. Successes and failures
7.5. Sensor Forecasts 2012-2022

8. MARKET BY TERRITORY, COMPONENTS, MATERIALS, OPPORTUNITIES
8.1. Market by territory
8.1.1. Number of active organisations globally in this field
8.1.2. Geographical split 2012-2022
8.1.3. Giant corporations of the world and their progress with printed electronics
8.2. The total market opportunity by component
8.3. Organic versus Inorganic
8.4. Printed versus non printed electronics
8.5. Flexible/conformal versus rigid electronics
8.6. Market forecasts for materials 2012-2022
8.7. Impact of printed electronics on conventional markets
8.7.2. Impact on end-use markets
8.7.3. Potential markets

9. UNMET NEEDS, OPPORTUNITIES AND PROGRESS
9.1. Statistics for materials running out
9.1.1. Indium
9.1.2. Rare Earths
9.1.3. Escape Routes
9.1.4. Selenium
9.1.5. Quantum dots, carbon nanotubes, common compounds
9.1.6. Material supply and sustainability of thin film CIGS and CdTe Photovoltaics
9.2. Low temperature processes/curing
9.2.1. New ink formulations
9.2.2. Breakthrough in metal ink cure from Novacentrix: room temperature on cheap substrates
9.2.3. New Copper ink
9.3. Backplane transistor arrays hold up AMOLED market penetration
9.4. Need for better flexible, transparent, low cost barriers
9.5. Lack of standardised benchmarking
9.6. Urgent need for creative product design

10. COMPANY PROFILES
10.1.1. ACREO
10.1.2. Asahi Kasei
10.1.3. Asahi Glass
10.1.4. BASF
10.1.5. Cambrios
10.1.6. DaiNippon Printing
10.1.7. E Ink
10.1.8. Evonik
10.1.9. Fujifilm Dimatix
10.1.10. G24i
10.1.11. Hereaus
10.1.12. Hewlett Packard
10.1.13. Holst Centre
10.1.14. InkTec
10.1.15. ITRI Taiwan
10.1.16. Konarka
10.1.17. Kovio Inc
10.1.18. Merck Chemicals
10.1.19. Optomec
10.1.20. Philips
10.1.21. Plastic Logic
10.1.22. Plextronics
10.1.23. PolyIC
10.1.24. Samsung
10.1.25. Soligie
10.1.26. Thinfilm
10.1.27. Toppan Forms
10.1.28. Toppan Printing
10.1.29. University of Tokyo
10.1.30. Waseda University
10.1.31. Other players in this value chain

APPENDIX 1: MATRIX OF PRINTED ELECTRONICS SUPPLIERS AND ACTIVITIES

APPENDIX 2: IDTECHEX PUBLICATIONS AND CONSULTANCY

TABLES
1.1. Description and analysis of the main technology components of printed and potentially printed electronics
1.2. Market forecast by component type for 2012-2022 in US $ billions, for printed and potentially printed electronics including organic, inorganic and composites
1.3. Market forecasts for 2032 in US$ billion
1.4. Leading market drivers 2022
1.5. Some potential benefits of printed and partly printed organic and inorganic electronics and electrics over conventional devices and non-electronic printing in various applications
1.6. The different states of readiness of organic and inorganic electronic technologies (semiconductors and conductors)
1.7. Spend on organic versus inorganic materials 2012-2022 US$ Billion
1.8. Split of material types by component
1.9. Market value $ billions of only printed electronics 2012-2022
1.10. Total market value of printed versus non printed electronics 2012-2022 US$ billion
1.11. Market value $ billions of only flexible/conformal electronics 2012-2022
1.12. Total market value of flexible/conformal versus rigid electronics 2012-2022 in US$ billion
1.13. End user markets relevant to printed and potentially printed electronics
1.14. Possible breakdown of the market for printed and potentially printed electronics in 2032 by numbers and value
1.15. The market for printed and potentially printed electronics by territory in $ billion 2012-2032
2.3. Types of printed/thin film photovoltaics beyond silicon compared, with examples of suppliers
2.4. Some of today's disposable electronics and why inorganic technology is needed
2.5. Primary assumptions of organic electronics in full production 2012-2032
3.1. Global market for printed electronics logic and memory 2012-2022 in billions of dollars, with % printed and % flexible
3.2. Scope for printed TFTCs to create new markets or replace silicon chips
3.3. Advantages of printed and thin film transistors and memory vs traditional silicon
3.4. Comparison of some of the main options for the semiconductors in printed and potentially printed transistors
3.5. Typical carrier mobility in different potential TFTC semiconductors (actual and envisaged) vs higher mobility silicon, not printable
3.6. Objectives and challenges of organisations developing printed and potentially printed transistor and/ or memory circuits and/or their materials
3.7. Some of the small group of contestants for large capacity printed memory
3.8. Total value of tags by application - passive RFID tags only 2012-2022
3.9. Chipless versus Chip RFID, in numbers of units (billions) (Chip includes Active RFID tags) 2011-2021
3.10. Market size of various chipless solutions, 2011-2021
4.1. Some new and established display technologies compared
4.2. Comparison of the features of various technologies for advertising and signage
4.3. Examples of OLED materials and displays investment until the beginning of 2012
4.4. Examples of companies developing OLEDs
4.5. Market forecasts for OLED panel displays 2012-2022
4.6. Advantages and disadvantages of electrophoretic displays
4.7. Comparison between OLEDs and E-Ink of various parameters
4.8. Electrophoretic and Bi-stable displays market forecasts 2012-2022
4.9. Electrochromic displays market forecasts 2012-2022
4.10. Electroluminescent displays market forecasts 2012-2022
5.1. Incandescent, fluorescent, inorganic LED and the potential performance of OLED lighting compared
5.2. Lighting forecasts 2012-2022
6.1. The leading photovoltaic technologies compared
6.2. Comparison of the typical power conversion technologies of different types of solar cell technologies
6.3. Performance of various types of photovoltaic cell compared
6.4. Photovoltaics forecasts 2012-2022
6.5. Shapes of battery for small RFID tags advantages and disadvantages
6.6. The spectrum of choice of technologies for laminar batteries
6.7. Examples of potential sources of flexible thin film batteries
6.8. Some examples of marketing thrust for laminar batteries
6.9. Batteries forecasts 2012-2022
7.1. Examples of companies developing organic sensors and other components and their main emphasis
7.2. Sensor forecasts 2012-2022
8.1. The market for printed and potentially printed electronics by territory in $ billion 2012-2032
8.2. Examples of giant corporations intending to make the printed and potentially printed devices with the largest market potential, showing East Asia dominant.
8.3. Examples of giant corporations, making or intending to make materials for printed and potentially printed electronics
8.4. Most supported technology by number of organisations identified in North America, East Asia and Europe
8.5. Summary of the trends by territory
8.6. Market forecast by component type for 2012-2022 in US $ billions, for printed and potentially printed electronics including organic, inorganic and composites
8.7. Market forecasts for 2032 in US$ billion
8.8. Spend on organic versus inorganic materials 2012-2022 US$ Billion
8.9. Split of material types by component
8.10. Market value $ billions of only printed electronics 2012-2022
8.11. Market value $ billions of only flexible/conformal electronics 2012-2022
8.12. Materials market forecasts 2012-2022 US$ billion
8.13. End user markets relevant to printed and potentially printed electronics
8.14. Possible breakdown of the market for printed and potentially printed electronics in 2032 by numbers and value
9.1. Water vapour and oxygen transmission rates of various materials.
9.2. Requirements of barrier materials
10.1. Other players in the value chain

FIGURES
1.1. The 3000 organisations tackling printed and potentially printed devices and their materials
1.2. Market forecast by component type for 2012-2022 in US $ billions, for printed and potentially printed electronics including organic, inorganic and composites
1.3. Market forecasts for 2032 in US$ billion
1.4. Leading market drivers 2022
1.5. Spend on organic versus inorganic materials 2012-2022 US$ Billion
1.6. Market value $ billions of only printed electronics 2012-2022
1.7. Total market value of printed versus non printed electronics 2012-2022 US$ billion
1.8. Market value $ billions of only flexible/conformal electronics 2012-2022
1.9. Total market value of flexible versus non flexible electronics 2012-2022 in US$ billion
1.10. Giant industries collaborate for the first time
1.11. Some of the potential markets
1.12. How printed electronics is being applied to products
1.13. Examples of organic and inorganic electronics and electrics potentially tackling different technologies and applications
1.14. The potential annual global sales of each type by 2022 in US$ billions and percentage
1.15. The potential annual global sales of each type by 2032 in US$ billions
1.16. Market by Territory 2012-2032
1.17. The emerging value chain is unbalanced
1.18. Those going to market first move right
2.1. Market volume in Euro billions
2.2. Smart iontophoretic skin patches
2.3. Esquire magazine with animated display September 2008
2.4. Plastic Logic E-reader
2.5. T-equaliser animated t-shirt
2.6. OLED TV from LG
2.7. How printed electronics is being applied to products
2.8. Printed Electronics Applications
2.9. Typical price breaks for high volume electronics and examples of potential advances
2.10. Examples of printed electronics creating new products
3.1. Traditional geometry for a field effect transistor
3.2. Semiconductor options
3.3. Performance of Kovio's ink versus others by mobility
3.4. Road map
3.5. NanoGram's Laser Reactive Deposition (LRD) technology
3.6. Transparent Zinc Oxide transistors
3.7. Options for high speed, low-cost printing of TFTCs
3.8. Value chain for TFTCs and examples of migration of activity for players
3.9. An all-organic permanent memory transistor
3.10. Thinfilm memory compared with the much more complex DRAM in silicon
3.11. Structure of Thinfilm memory
3.12. Thinfilm priorities for commercialisation of mega memory
3.13. Total value of tags by application 2012-2022 (US Dollar Millions)
3.14. Prototype 13.56 MHz RFID smart labels from reel to reel production of organic TFTCs by PolyIC
3.15. Potential, in billions yearly, for global sales of RFID labels and circuits printed directly onto products or packaging. Item level is shown in red. These are examples.
3.16. Chipless versus Chip RFID, in numbers of units (billions) 2011-2021
3.17. Market size of a variety of chipless solutions, US$ millions
4.1. Basic structure of an OLED
4.2. Samsung OLED television, Philips OLED shaver and Eastman Kodak OLED camera
4.3. Concept of apparel that illuminates with flexible OLED displays
4.4. LEP process flow
4.5. An OLED display from Samsung which folds in the middle
4.6. A 4" flexible AM OLED from LG on stainless steel
4.7. OLED TV from LG
4.8. Principle of operation of electrophoretic displays
4.9. E-paper displays on a magazine sold in the US in October 2008
4.10. Retail Shelf Edge Labels from UPM
4.11. Secondary display on a cell phone
4.12. Amazon Kindle 2, launched in the US in February 2009
4.13. Electrophoretic display on a commercially sold financial card
4.14. A Polymer Vision/Wistron display
4.15. Droplet contracting and relaxing from Liquavista
4.16. Droplet driven electrowetting displays from adt, Germany
4.17. Display on an EnOcean wireless switch
4.18. Transmissive electrowetting displays from Liquavista
4.19. Demonstrator from Liquavista
4.20. Flow chart of the manufacture process
4.21. Electrochromic display on a Valentine's card sold by Marks and Spencer in the UK in 2004 and electrochromic display with drive circuits in a laminate for smart cards
4.22. Boardroom lighting in Alcatel France that switches to various modes
4.23. Animated EL artwork in a two meter suspended ball for event lighting
4.24. Coyopa rum with four segment sequentially switched pictures
4.25. TV controller
4.26. Car instrument illumination by electroluminescent display
4.27. Duracell battery tester
4.28. Interactive game on a beer package by VTT Technologies in Finland
4.29. The dollhouse. When energy is added to the system the colour of the wallpaper changes and a picture appears on the wall
4.30. Two state electrolytic display on paper
4.31. Seven segment display printed with bi-stable inks
4.32. Color LCD by photo alignment
4.33. Photo alignment of LCD
4.34. The HKUST optical rewriting
4.35. Color printable flexible LCD
5.1. Impact of the various forms of lighting, with the overlap showing degree of competition
5.2. Value chain for manufacture of OLEDs for lighting and signage
5.3. The space saving of OLED lights and their exceptional colour tunability
5.4. Example of OLED Lighting
5.5. Motion lighting concept
6.1. Some of the overlapping requirements for photovoltaics
6.2. Progress of confirmed research-scale photovoltaic device efficiencies, under AM 1.5 simulated solar illumination, for a variety of technologies
6.3. Construction of a traditional bulk heterojunction organic photovoltaic cell
6.4. Module stack for photovoltaics
6.5. Efficiency, lifetime and cost of laminar organic photovoltaics
6.6. Power PlasticTM Advantage - High Energy Yield
6.7. Estee Lauder smart skin patch which delivers cosmetics using the iontophoretic effect
7.1. The main options for organic sensors
7.2. Plastic film scanner with no moving parts
8.1. Organisations involved in printed and potentially printed electronics across the world, by type of interest
8.2. Primary devices being developed
8.3. Market by Territory 2012-2032
8.4. Number of printed electronics products by country
8.5. Number of organisations active in printed electronics by country in Europe
8.6. Display project distribution in East Asia: OLED top left, electroluminescent top right, electrophoretic bottom
8.7. Number of projects by device type in North America
8.8. Market forecast by component type for 2012-2022 in US $ billions, for printed and potentially printed electronics including organic, inorganic and composites
8.9. Market forecasts for 2032 in US$ billion
8.10. Spend on organic versus inorganic materials 2012-2022 US$ Billion
8.11. Market value $ billions of only printed electronics 2012-2022
8.12. Market value $ billions of only flexible/conformal electronics 2012-2022
8.13. Relative investments from the key areas of printed electronics development
8.14. Materials market forecast 2012-2022
8.15. Examples of organic and inorganic electronics and electrics potentially tackling different technologies and applications
8.16. The potential annual global sales of each type by 2022 in US$ billions
8.17. The potential annual global sales of each type by 2032 in US$ billions
8.18. Some of the potential markets
9.1. Indium price 2001-2006
9.2. Typical SEM images of CU flake C1 6000F. Copper flake
9.3. Thermal requirements and capabilities of different materials
9.4. The NovaCentrix process
9.5. Pre and post sintering
9.6. SEM Image of the copper oxide ink as printed (left) followed by the same film (right) post-processing showing densification and conversion to copper with the PulseForge 3100
9.7. Current options and challenges for backplane TFTs
9.8. Schematic diagrams for encapsulated structures a) conventional b) laminated c) deposited in situ
9.9. Scanning electron micrograph image of a barrier film cross section
9.10. Progress of confirmed research-scale photovoltaic device efficiencies, under AM 1.5 simulated solar illumination, for a variety of technologies
9.11. Innovative product designers/ sellers are in short supply
10.1. Semiconductor development at Evonik
10.2. Target range for mobility and processing temperature of semiconductors
10.3. Transfer characteristics of gen3 semiconductor system
10.4. Current efficiency of a Novaled PIN OLEDTM stack on an inkjet printed, transparent conductive ITO anode
10.5. G24i Solar bag
10.6. Solar camera bag powered by G24i - due to launch Q1 2010 with dedicated camera battery charger
10.7. Inks developed by InkTec
10.8. InkTec Printing methods
10.9. A prototype of the Plastic Logic E-reader
10.10. Printed Flexible Circuits from Soligie
10.11. Capabilities of Soligie
10.12. Printed electronics from Soligie
10.13. Printing presses used for printing electronics at Soligie
10.14. A flexible display sample
10.15. Printed electronics samples
10.16. New electronics targets physical space
10.17. Large-area electronics
10.18. 32" pressure sensor matrix
10.19. Wireless power transmission sheet
10.20. Device structure
10.21. Organic transistors
10.22. Organic transistor 3D ICs
10.23. Scanner with no moving parts
10.24. Scanning a wine bottle label
10.25. Stretchable electronics
10.26. Flexible battery that charges in one minute