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集光型太陽熱発電(CSP)システム用低鉄ガラス:世界市場におけるシェア、戦略、予測

Low Iron Glass: Market Shares, Market Strategies, and Market Forecasts Worldwide, 2015 to 2021

発行 WinterGreen Research, Inc. 商品コード 299148
出版日 ページ情報 英文 642 Pages
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集光型太陽熱発電(CSP)システム用低鉄ガラス:世界市場におけるシェア、戦略、予測 Low Iron Glass: Market Shares, Market Strategies, and Market Forecasts Worldwide, 2015 to 2021
出版日: 2015年03月01日 ページ情報: 英文 642 Pages
概要

集光型太陽熱発電(CSP)システムの鏡などで使用される低鉄ガラスは、鉄の含有量を下げることでエネルギーの透過性を高めたものであり、世界各国でCSPの急速な普及が予想されることから、今後大きく成長すると見られています。25年後には、世界で生み出されるエネルギーの90%を太陽光発電が担うという予測もあり、CSP部門の潜在的な成長力は極めて大きいといえます。今後製品の価格が下がり、規模の経済が実現することで、太陽光発電システムの市場は急拡大すると予想されており、とりわけCSPは、発電コストを大幅に引き下げることが可能な技術として大きな期待を集めています。CSPの発電コストは、1kWhあたり0.15ドルから0.24ドルであり、施設の寿命が35年程度見込めることなどから、普及が本格化する2017年には0.03ドルまで下がると予想されています。CSPは、稼動開始後に必要な労働力が極めて少なく、燃料費もかからないため、経済性などの点で魅力的な選択肢となっています。

当レポートは、CSPシステムで使用される低鉄ガラスに光を当て、世界的な市場や技術のトレンドを詳細に分析したもので、各社の製品や技術についての解説、主要メーカーの詳細なプロファイルなども盛り込んでお届けいたします。

エグゼクティブサマリー

第1章 CSP用低鉄ガラス市場についての解説と市場の力学

  • CSPで使用される低鉄ガラス
  • 装飾的な低鉄ガラス
  • 低鉄ガラスコーティング
  • トラフ式太陽熱発電技術
  • ガラス用低鉄コーティング材
  • 低鉄ガラスの収率
  • 環境負荷の少ないエネルギーを生み出すCSP用低鉄ガラス
  • 太陽光発電
  • 性能の比較

第2章 CSP用低鉄ガラス市場のシェアと市場予測

  • CSP用低鉄ガラス市場の成長促進要因
  • CSP用低鉄ガラス市場のシェア
  • CSP用低鉄ガラス市場の予測;部門別
  • グリッドパリティ
  • CSP用低鉄ガラスの製造工程
  • フロートガラス生産ラインの数
  • 低鉄ガラスの生産
  • 中国における低鉄フロートガラス(エネルギーと原材料にまつわる課題)
  • 太陽光発電用低鉄ガラス市場の成長
  • 太陽光発電用低鉄ガラス市場の特徴
  • CSP太陽発電市場の設備容量
  • CSP用ガラス事業の投資収益
  • 集中型太陽熱発電;セグメント
  • CSP用低鉄ガラスの価格面のトレンド
  • 装飾的低鉄ガラスの価格
  • 地域市場の分析

第3章 CSP用低鉄ガラス製品についての解説

  • CSP用ガラス
  • Schott
  • Guardianの太陽光発電用積層ミラー
  • ACWA Holding/SUN & LIFE/Flabeg
  • Emirates Float Glass
  • RIO Glass
  • Guangfeng Solarglass(香港)の低鉄ガラス
  • 日本板硝子/Pilkington Solar Energy Glass
  • インドで導入されたMasdar PVの1.5MWp薄膜モジュール
  • Hangzhou AMD PV Glass Co Ltd
  • Ningbo Qixin Solar Electrical Appliance Co. Ltd
  • Borosil Glass Works
  • Yichang CSG Polysilicon Material Co., Ltd.
  • Dongguan CSG Solar Glass Co., Ltd.
  • ナイジェリアにあるEgi MJGのフロートガラス工場が操業開始
  • fSolar
  • 旭硝子
  • AJJ Glass の Ultra-Clear Solar Glass
  • Phoenica Flat Glass Industries の集光型太陽熱発電(CSP);Solargy
  • PPG Industries のソーラー機器用高性能コーティング
  • Bendheim

第4章 CSP用低鉄ガラスの技術

  • 低鉄ガラスの装飾的形状
  • 風洞実験
  • 放物面鏡式太陽熱発電の要素
  • セラミックマウンティングパッド
  • エネルギー反射

第5章 CSP用低鉄ガラスの主要メーカー

  • ACWA Holding / Sun & Life Acquires FLABEG, CSP Solar Technology
  • AEON Industries Corporation Ltd. Manufacturer
  • AJJ Glass
  • Alanod GmbH & Co KG / Alanod-Solar
  • 旭硝子
  • Bendheim
  • Carvart Architectural Glass
  • China Glass
  • Dubai Investments PJSC
  • eSolar
  • Glass LLC
  • Guangdong Golden Glass Technologies Ltd
  • Guangfeng Solarglass(香港)
  • Guardian Industries
  • Gujarat Borosil Ltd. (GBL)
  • Hangzhou AMD PV Glass Co Ltd
  • Hecker Glastechnik
  • Interfloat
  • Jinjing Group Co Ltd
  • 日本板硝子/Pilkington
  • Oerlikon Solar
  • Phoenica Flat Glass Industries
  • PPG Industries
  • ReflecTech
  • RIO Glass
  • Saint-Gobain/Saint Gobain Solar
  • Sener
  • Schott
  • Shandong Glass Group Jinjing Group Co Ltd
  • Siemens Concentrated Solar Power, Ltd
  • Secam Group
  • SunRunとU.S. Bancorp
  • Tata BP Solar
  • Succeed Glass Co., Ltd / Henan Succeed New Energy Material Co
  • Sunarc Technology A/S
  • Targray Solar
  • Trakya Cam Sanayii A.S.
  • Targray Solar Materials
  • US Silica
  • Zhejiang Flat Glass Co., Ltd / Shanghai Flat Glass Co Ltd
  • 他の低鉄ガラスメーカー
  • 中東地域の先駆的な太陽光発電プログラムで成果をあげている企業

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目次
Product Code: SH26201852

Worldwide markets for Low Iron Glass are growing as Concentrating Solar Power (CSP) takes off as a way to generate electricity. Rapid adoption of CSP worldwide is occurring as systems provide 24 hour per day power efficiently.

Low iron glass decorative and architectural markets are poised to achieve significant growth based on an expectation of declining prices for the low iron glass due to economies of scale.

As soon as a new market has 100 paying reference accounts, it becomes a viable market. CSP solar systems have reached that market inflection point and will exceeded it in 2015.

Growth potential of the CSP sector is strong, part of the solar growth that is poised to make solar energy represent 90% of the world's energy production within 25 years. Just as smart phones grew rapidly once the price points were affordable and the economies of scale large enough to drive down prices for the markets to achieve significant growth, so also solar markets will take off. CSP has a strong ability to reduce the cost of electricity produced. Compound annual growth rates are expected to be made meaningless by penetration analysis when the markets grow rapidly.

There are no hindrances to CSP growth except technology and the new nanotechnologies make solar processes possible. The materials are simple, silica, silica, and more silica. With solar energy available to support the CSP low iron glass and the CSP module manufacturing processes, the markets will grow at compound rates.

Costs of electricity from CSP plants at US $ 0.15-0.24/kWh will decline to $.03 and lower by 2017 as the effect of the 35 year life span of the plant is factored into cost analysis. Once the plant is built very little labor is necessary, there are no ongoing fuel costs. This is a compelling economic story.

By 2021, expectations are that CSP capital costs will decline even further by between 30% and 50%. New technology will make plant operations even more efficient by that time.

According to Susan Eustis, the lead author of the team that created the study, “Concentrating Solar Power (CSP) depends on low iron glass because the low iron glass is clear and creates increased efficiency in the capture of solar power. Low ion glass is proving to be of value because it drives the market for CSP. CSP has been further proven in newly operational installations, including Ivanpah.”

Concentrating Solar Power (CSP) has moved from the trial stage to the early adopter stage. Low iron glass CSP represents 3% of the world glass production. Markets at $510 million in 2014 are expected to reach $4.7 billion by 2021. Growth is expected to achieve 15% of total low iron glass at glass production in 2021, i.e. the same level as all automotive glass.

Table of Contents

LOW IRON SOLAR GLASS CONCENTRATED SOLAR POWER (CSP) EXECUTIVE SUMMARY

  • Low Iron Solar Glass Market Driving Forces
    • Low Iron Glass Concentrating Solar Power (CSP) Market Driving Forces
    • Increasing Installed Base At The Forefront Of Concentrating Solar Power (CSP) Market Shifts
    • Concentrating Solar Power (CSP) Key Growth Factor in Low Iron Glass Market
    • Low Iron Glass Used for CSP
  • Low Iron Glass Market Shares
    • CSP Low Iron Glass Market Shares
  • Low Iron Solar Glass Market Forecasts
    • Guardian UltraWhite Low-Iron Decorative Glass

1. LOW IRON SOLAR GLASS MARKET DESCRIPTION AND MARKET DYNAMICS

  • 1.1. Low Iron CSP Solar Glass
    • 1.1.1. Glass and Mirrors in Concentrated Solar Power Systems
  • 1.2. Decorative Low Iron Glass
    • 1.2.1. Architectural Low Iron Glass
    • 1.2.2. Low-Iron Glass Successful At Transmitting Light And Decreasing Reflections
  • 1.3. Low Iron Glass Coatings
    • 1.3.1. Solar Control Glazing
  • 1.4. Parabolic Trough Technology
    • 1.4.1. Concentrated Solar Power - Clean, Predictable Electricity Generation 24x7
    • 1.4.2. Parabolic Trough Power Plants
  • 1.5. Low Iron Containing Materials for Glass
    • 1.5.1. Clear Float Glass And Low Iron Glass
    • 1.5.2. Performance Comparison - Clear Float Glass Versus Low Iron Glass
  • 1.6. Low Iron Glass Yields
    • 1.6.1. Influence of Mirror Quality on Plant Performance and Revenues
    • 1.6.2. Glare Performance Anti-Soiling Coatings
  • 1.7. CSP Low-Iron Solar Glass Creates Green Energy
  • 1.8. Photovoltaics:
  • 1.9. Performance Comparison - Clear Float Glass Versus Low Iron Glass
    • 1.9.1. Clear Float and Low Iron Glass

2. LOW IRON SOLAR GLASS MARKET SHARES AND MARKET FORECASTS

  • 2.1. Low Iron Solar Glass Market Driving Forces
    • 2.1.1. Low Iron Glass Concentrating Solar Power (CSP) Market Driving Forces
    • 2.1.2. Increasing Installed Base At The Forefront Of Concentrating Solar Power (CSP) Market Shifts
    • 2.1.3. Concentrating Solar Power (CSP) Key Growth Factor in Low Iron Glass Market
    • 2.1.4. Low Iron Glass Used for CSP
    • 2.1.5. Low Iron Float Glass And Mirror Industry
    • 2.1.6. CSP Parabolic Mirror Forming
    • 2.1.7. Receiver Mirrors
    • 2.1.8. Decorative Low Iron Glass
    • 2.1.9. Automotive Low Iron Glass
  • 2.2. Low Iron Glass Market Shares
    • 2.2.1. CSP Low Iron Glass Market Shares
    • 2.2.2. Primary Suppliers Of Low Iron Float Glass
    • 2.2.3. Rioglass Solar
    • 2.2.4. Guardian Heat-Treated Glass
    • 2.2.5. Schott Solar CSP
    • 2.2.6. Schott Response To The Low Iron Glass CSP Market Challenge
    • 2.2.7. ACWA Holding / SUN & LIFE / Flabeg
    • 2.2.8. Bankrupt Flabeg Value: Installed Base
    • 2.2.9. Flabeg Solar US Assets Auctioned December, 17, 2013
    • 2.2.10. Nippon Sheet Glass Thin Film Photovoltaic Modules
    • 2.2.11. Nippon Sheet Glass Pilkington Crystalline Silicon PV
    • 2.2.12. Nippon Sheet Glass Pilkington NSG TEC™ - TCO
    • 2.2.13. Rio Glass Glass Vendors Emerging As Experienced And Innovative Solar Energy Partners
    • 2.2.14. Solar Panel Low Iron Glass
    • 2.2.15. Decorative, Architectural, and Automotive Low Iron Glass Market Shares
    • 2.2.16. Guardian UltraWhite Low-Iron Decorative Glass
    • 2.2.17. Guardian Low Iron Glass Applications
  • 2.3. Low Iron Solar Glass Market Forecasts By Sector: CSP, Solar Panel, Architectural, and Automotive 112
    • 2.3.1. Low Iron Solar Glass Concentrated Solar Power (CSP) Market Forecasts
    • 2.3.2. CSP Installed Capacity
    • 2.3.3. Demand for Low-Iron Float Glass
    • 2.3.4. Decorative and Architectural Low Iron Glass Market Forecasts
    • 2.3.5. Guardian UltraWhite Low-Iron Decorative Glass
  • 2.4. Grid Parity
  • 2.5. CSP Low Iron Glass Manufacturing Process
    • 2.5.1. The Cost Of Production (Raw Materials Breakdown)
    • 2.5.2. Technology Of Sheet Low Iron Glass
    • 2.5.3. Heliostats
    • 2.5.4. Low Iron Silica Quality
    • 2.5.5. Sources For Low Iron Sand
    • 2.5.6. Solar Low Iron Glass Segment Companies
  • 2.6. Number of Float Glass Lines
    • 2.6.1. Low-Iron Float Lines Globally / Ownership
    • 2.6.2. Nippon Sheet Glass Co., Ltd NSG Capacity
    • 2.6.3. Low Iron Glass Company Summary by Country
  • 2.7. Low Iron Glass Manufacturing
    • 2.7.1. Low Iron Removal Processes From Silica
    • 2.7.2. Other Glass Raw Materials / Supply of the Low Iron Materials
    • 2.7.3. Float Glass Cost Structure
    • 2.7.4. Low Iron Glass Cost Reduction Through Localization
  • 2.8. Low Iron Float Glass In China (Energy Implications, Raw Materials Implications)
    • 2.8.1. Guangdong Golden Glass Technologies Ltd
    • 2.8.2. Guangfeng Solarglass (Hong Kong)
    • 2.8.3. Shandong Glass Group Jinjing Group Advanced Equipment
  • 2.9. Low Iron Solar Glass Market Growth
    • 2.9.1. 50 MW CSP Plant
    • 2.9.2. Construction Costs of 50 MW CSP Plant
    • 2.9.3. Construction Costs of a 100 MW CSP Plant
    • 2.9.4. Mirrors
    • 2.9.5. Nano Silver Coating
  • 2.10. Solar Low Iron Glass Market Characteristics Factors
    • 2.10.1. Low Iron Glass Product Differentiation
    • 2.10.2. Outlook for Solar Electricity
    • 2.10.3. Low Iron Glass Product Differentiation
    • 2.10.4. Outlook for Solar Electricity
  • 2.11. CSP Solar Market Installed Capacity
    • 2.11.1. Concentrating Solar Power Projects by Project Name
    • 2.11.2. Parabolic Trough Projects
    • 2.11.3. Linear Fresnel Reflector Projects
    • 2.11.4. Power Tower Projects
    • 2.11.5. Dish/Engine Projects
    • 2.11.6. Concentrating Solar Power Projects by Project Country
    • 2.11.7. Concentrating Solar Power (CSP) Projects in the United States and By Country
    • 2.11.8. List of Concentrated Solar Power (CSP) Installations
    • 2.11.9. CSP Number of HelioStats
    • 2.11.10. Parabolic Trough Projects, General Contractor, Supplier, Glass, Turbine
  • 2.12. CSP Glass ROI
    • 2.12.1. ACWA Holding / Sun & Life / Flabeg ROI for Annealed Solar Mirrors
  • 2.13. Concentrated Solar Thermal - Segment
  • 2.14. Low Iron Glass Price Trends
    • 2.14.1. Reflectech Rolled Mirror Film Pricing
    • 2.14.2. Cell Efficiency Improvements
    • 2.14.3. Grid Parity
    • 2.14.4. Impact of Oil Price on Solar Industry
    • 2.14.5. Glass Manufacturer Infrastructure
    • 2.14.6. The Need for Low Iron Glass
  • 2.15. Decorative Low Iron Glass Prices
  • 2.16. Low Iron Glass Regional Analysis
    • 2.16.1. Middle East Dominates Low Iron Galss Markets by 2021
    • 2.16.2. Low Iron Glass Middle East Market Segment
    • 2.16.3. Egypt
    • 2.16.4. Dubai

3. LOW IRON SOLAR GLASS) PRODUCT DESCRIPTION

  • 3.1. Glass for Concentrated Solar Power (CSP)
  • 3.2. Schott
    • 3.2.1. Schott is the Leading Solar Receiver
    • 3.2.2. Schott Receivers Manufacturing Improvement
    • 3.2.3. Schott Receivers Specialized Part Of CSP Solar Field
    • 3.2.4. Schott Solar Concentrated Power Parabolic Trough Technology Receivers
    • 3.2.5. Schott PTR® 70 Receiver Platform
    • 3.2.6. Schott PTR® 70 Minimization Of Heat Conduction Losses
    • 3.2.7. Schott Solar Receiver Compact Bellow Design
  • 3.3. Guardian PV Laminated Mirrors
    • 3.3.1. Guardian Durable Concentrating Solar Power (CSP) Mirrors
    • 3.3.2. Guardian Sun-Tracking Mirrors Controlled Manufacturing Process
    • 3.3.3. Guardian Sun-Tracking Mirrors Testing Results
    • 3.3.4. Guardian Durable Concentrating Solar Power (CSP) Mirror Testing
    • 3.3.5. Guardian Durable Concentrating Solar Power (CSP) Mirror Outdoor Exposure Testing
    • 3.3.6. Guardian Durable Concentrating Solar Power (CSP) Mirror Wind tunnel testing
    • 3.3.7. Guardian EcoGuard
    • 3.3.8. Guardian UltraWhite Low-Iron Glass
    • 3.3.9. Guardian Float Glass
    • 3.3.10. Guardian Heavy Float Glass
    • 3.3.11. Guardian EcoGuard® Solar
    • 3.3.12. Guardian Solar Glass Positioning
    • 3.3.13. Guardian UltraWhite Low-Iron Decorative Glass
    • 3.3.14. Guardian Low Iron Glass in Transportation and Automotive Markets
  • 3.4. ACWA Holding / SUN & LIFE / Flabeg
    • 3.4.1. Flabeg Parabolic Mirrors
    • 3.4.2. Flabeg Solar Mirrors
    • 3.4.3. Flabeg Parabolic Trough
    • 3.4.4. Flabeg Parabolic Mirrors for Concentrating Solar Power (CSP)
    • 3.4.5. Flabeg Testing and Durability of Mirror Coating System
    • 3.4.6. Flabeg Flat Mirrors for Concentrating Solar Power (CSP)
  • 3.5. Emirates Float Glass
    • 3.5.1. Emirates Float Glass Technical Data
    • 3.5.2. Emirates Float Glass and Mirrors in Concentrated Solar Power Systems
  • 3.6. RIO Glass
    • 3.6.1. Rio Glass Production Process
    • 3.6.2. Rio Glass Nano Silver Coatings
    • 3.6.3. Rio Glass CSP Operational Advantages
    • 3.6.4. Rio Solar Glass Edge Protection
    • 3.6.5. Rio Solar Glass Deflectrometry Analysis
    • 3.6.6. Rio Glass Solar Mirror Reflectance
    • 3.6.7. Rio Glass CSP Shot Testing Measurements
    • 3.6.8. Rio Glass CSP Ball Drop Testing Measurements
    • 3.6.9. Rio Glass CSP Variable Temperature Testing Measurements
    • 3.6.10. Rio Glass CSP Testing Measurements Conclusions
    • 3.6.11. RIO Glass US Manufacturing in Arizona
  • 3.7. Guangfeng Solarglass (Hong Kong) Low Iron Glass
    • 3.7.1. Guangfeng Solarglass Characteristics
  • 3.8. Nippon Sheet Glass / Pilkington Solar Energy Glass
    • 3.8.1. Nippon Sheet Glass Thin Film Photovoltaics Modules
    • 3.8.2. Nippon Sheet Glass Pilkington Crystalline Silicon PV
    • 3.8.3. Nippon Sheet Glass Pilkington Concentrated Solar Power
    • 3.8.4. Nippon Sheet Glass Pilkington Solar Thermal Collectors
    • 3.8.5. Nippon Sheet Glass Pilkington NSG TEC™ - TCO
  • 3.9. Masdar PV supplies 1.5 MWp Thin Film Modules to Indian villages
    • 3.9.1. Masdar, Total S.A. and Abengoa Solar Abu Dhabi Solar Power Plant
  • 3.10. Hangzhou AMD PV Glass Co Ltd
  • 3.11. Ningbo Qixin Solar Electrical Appliance Co. Ltd
  • 3.12. Borosil Glass Works
  • 3.13. Yichang CSG Polysilicon Material Co., Ltd.
  • 3.14. Dongguan CSG Solar Glass Co., Ltd.
    • 3.14.1. Dongguan CSG Low Iron Solar Glass Anti-reflective Coating
    • 3.14.2. China Glass Solar Glass & Mirrors
    • 3.14.3. China Glass Solar Glass
  • 3.15. Egi MJG Launches Float Glass Manufacturing Plant In Nigeria
    • 3.15.1. Egi MJG Float Glass
  • 3.16. fSolar
    • 3.16.1. Low-Iron Solar Glass From F - Solar Is Used In High-Efficiency Photovoltaics Modules And Solar Collectors 417
    • 3.16.2. Solar Combined Heat And Power:
  • 3.17. Asahi Glass Co.
    • 3.17.1. Asahi Glass substrates for compound semiconductor solar module
    • 3.17.2. Asahi Reflective (Mirror) Substrates For Concentrating Solar Thermal Power Systems
    • 3.17.3. Asahi CSP Mirror
  • 3.18. AJJ Glass Ultra-Clear Solar Glass
  • 3.19. Phoenica Flat Glass Industries CSP - Solargy
    • 3.19.1. Phoenica UltraClear - Low Iron Glass
    • 3.19.2. Phoenica Laminated UltraClear™ Low Iron Glass
  • 3.20. PPG Industries High-Performance Coatings for Solar Components
    • 3.20.1. PPG Coraflon ADS
    • 3.20.2. PPG Duranar Coatings
  • 3.21. Bendheim

4. LOW-IRON GLASS TECHNOLOGY

  • 4.1. Low-Iron Glass Decorative Shapes
  • 4.2. CSP Low Iron Glass Wind Tunnel Testing
    • 4.2.1. RioGlass Wind Tunnel Testing
    • 4.2.2. CSP Glass Production Processes
  • 4.3. Parabolic Mirrors Solar Generation Elements
    • 4.3.1. Solar Receiver
    • 4.3.2. Key Parameters For The Yield Of A CSP Plant
  • 4.4. Ceramic Mounting Pads For Bonding
  • 4.5. Energy Reflection

5. LOW IRON SOLAR GLASS COMPANY DESCRIPTIONS

  • 5.1. ACWA Holding / Sun & Life Acquires FLABEG, CSP Solar Technology
    • 5.1.1. ACWA Holding / SUN & LIFE
    • 5.1.2. Sun & Life On Acquisition of Flabeg's Solar Division
    • 5.1.3. Flabeg QDec Measurement
    • 5.1.4. Flabeg Development Partners
    • 5.1.5. Flabeg Ultimate Trough Design
    • 5.1.6. Flabeg Solar Mirrors
    • 5.1.7. Flabeg Holding GmbH / Flabeg Technical Glass / Naugatuck Glass
    • 5.1.8. Flabeg Solar US Assets Auctioned December, 17, 2013
    • 5.1.9. Sun & Life On Acquisition of Flabeg's Solar Division
  • 5.2. AEON Industries Corporation Ltd. Manufacturer - China ]
  • 5.3. AJJ Glass
  • 5.4. Alanod GmbH & Co KG / Alanod-Solar
    • 5.4.1. Alanod-Solar
    • 5.4.2. Alanod-Solar Absorption
    • 5.4.3. Alanod-Solar Solar Reflection
    • 5.4.4. Alanod-Solar Surface Treatment
    • 5.4.5. Alanod-Solar Global player
    • 5.4.6. Almeco
    • 5.4.7. Almeco Solar
  • 5.5. Asahi Glass Co.
    • 5.5.1. AGC Specialty Glass Adopted for Use by Solar Power Plant
  • 5.6. Bendheim
  • 5.7. Carvart Architectural Glass
  • 5.8. China Glass
    • 5.8.1. China Glass Holdings Limited
    • 5.8.2. China Southern Glass (Australia)Pty Ltd is a Subsidiary of CSG Holding Co., Ltd.
    • 5.8.3. China Glass Holdings Production Base in Suqian, Jiangsua
    • 5.8.4. China Glass Holdings Production Base in Weihai, Shandong
    • 5.8.5. China Glass Holdings Production Base in Xianyang, Shaanxi
    • 5.8.6. China Glass Holdings Production Base in Beijing
    • 5.8.7. China Glass Holdings Production Base of Wuhai, Inner Mongolia
    • 5.8.8. China Glass Holdings Production base in Nanjing, Jiangsu
    • 5.8.9. China Glass Holdings Production base in Taicang, Jiangsu
    • 5.8.10. China Glass Holdings Outlook Tied To China's Twelfth Five Year Plan
    • 5.8.11. China Glass Holdings Lowers Cost to Manufacture Low Iron Glass
  • 5.9. Dubai Investments PJSC
    • 5.9.1. Dubai Investments PJSC / Emirates Float Glass
  • 5.10. Dulles Glass and Mirror
  • 5.11. eSolar
  • 5.12. Glass LLC
  • 5.13. Guangdong Golden Glass Technologies Ltd
  • 5.14. Guangfeng Solarglass (Hong Kong)
    • 5.14.1. Guangfeng Solar Glass (Hong Kong) Co., Ltd.
  • 5.15. Guardian Industries
    • 5.15.1. Guardian Industries Manufactures Glass Using The Float Process
    • 5.15.2. Guardian Heat-Treated Glass
    • 5.15.3. Guardian Tempered Glass
    • 5.15.4. Guardian Industries US Base, Global Growth
  • 5.16. Gujarat Borosil Ltd. (GBL)
    • 5.16.1. Gujarat Borosil Ltd. (GBL) Low Iron Glass
  • 5.17. Hangzhou AMD PV Glass Co Ltd
  • 5.18. Hecker Glastechnik
  • 5.19. Interfloat
    • 5.19.1. GMB Glasmanufaktur Brandenburg GmbH
    • 5.19.2. Interfloat / GMB Glasmanufaktur Brandenburg GmbH
    • 5.19.3. Interfloat Innovation At The Fore
    • 5.19.4. Interfloat / GMB Glasmanufaktur Brandenburg GmbH
  • 5.20. Jinjing Group Co Ltd
    • 5.20.1. Jinjing group co.,ltd [ Manufacturer - China ]
  • 5.21. Nippon / Pilkington
    • 5.21.1. Pilkington Clear Float Glass Solutions
    • 5.21.2. Pilkington Low-Iron Clear Float Glass Features and Benefits
    • 5.21.3. Nippon Sheet Glass Co., Ltd NSG Group
    • 5.21.4. Nippon Sheet Glass Revenue
    • 5.21.5. Nippon Sheet Glass Solar Energy Products
    • 5.21.6. Nippon Sheet Glass NSG Group / Pilkington
  • 5.22. Oerlikon Solar
  • 5.23. Phoenica Flat Glass Industries
  • 5.24. PPG Industries
  • 5.25. ReflecTech
    • 5.25.1. ReflecTech® Mirror Film
    • 5.25.2. ReflecTech® Mirror Film Construction
    • 5.25.3. ReflecTech® Mirror Film Applications
    • 5.25.4. ReflecTech® Mirror Film Properties
  • 5.26. RIO Glass
    • 5.26.1. RIO Glass Nano Silver Coating
  • 5.27. Saint-Gobain / Saint Gobain Solar
    • 5.27.1. Saint-Gobain/ SolarWood Technologies
    • 5.27.2. French: SolarWood Technologies Solar Sunlap SG and SG ® Solar
    • 5.27.3. Saint Gobain Solar
    • 5.27.4. Saint Gobain Solar Photovoltaic Solar Tiles System by Sunlap ®
    • 5.27.5. Saint Gobain Solar SG Solar Sunlap ® Embedded System
    • 5.27.6. Saint Gobain Solar SG Solar Suneka
  • 5.28. Sener
  • 5.29. Schott
    • 5.29.1. Schott Solar Manufacturing Facility in Albuquerque
    • 5.29.2. Schott Revenue
    • 5.29.3. Schott Parabolic Recievers
    • 5.29.4. Schott Powered Thermal Parabolic Trough Power
    • 5.29.5. Schott
    • 5.29.6. Schott Electronic Packaging Gmbh
    • 5.29.7. Schott AgFlat Glass
    • 5.29.8. Schott Technological Competence
    • 5.29.9. SCHOTT Solar Global presence
    • 5.29.10. SCHOTT Solar Photovoltaics (PV) Business Division
    • 5.29.11. SCHOTT Solar 2008 - Hospital Ward In Senegal
    • 5.29.12. SCHOTT Light for Tanzania
    • 5.29.13. SCHOTT Solar PV and Consolidated Solar Technologies at Moriarty High School
    • 5.29.14. SCHOTT Solar Black Frame Modules
    • 5.29.15. SCHOTT Solar Top in PV+ test by Solarpraxis and TÜV Rheinland
    • 5.30. Shandong Glass Group Jinjing Group Co Ltd
    • 5.30.1. Shandong Glass Group Jinjing Group Advanced Equipment
    • 5.30.2. Shandong Glass Group Jinjing Group Quality Management
    • 5.30.3. Shandong Glass Group Jinjing Grouppowerful Scientific Research Team
    • 5.30.4. Shandong Glass Group Jinjing Group Markets
    • 5.30.5. Shandong Glass Group Jinjing Groupgoals
    • 5.30.6. Shandong Glass Group Driving Development
  • 5.31. Siemens Concentrated Solar Power, Ltd
  • 5.32. Sisecam Group
  • 5.33. SunRun and U.S. Bancorp
  • 5.34. Tata BP Solar
  • 5.35. Succeed Glass Co., Ltd / Henan Succeed New Energy Material Co
  • 5.36. Sunarc Technology A/S
    • 5.36.1. Sunarc Technology Low Iron Solar Glass
    • 5.36.2. Sunarc Technology Float glass
    • 5.36.3. Sunarc Technology Rolled glass
    • 5.36.4. Sunarc Technology Tempering
    • 5.36.5. Sunarc Technology Glass Suppliers
  • 5.37. Targray Solar
    • 5.37.1. Targray Crystalline Cell Materials
    • 5.37.2. Process vs. Targray Materials - Combined For Results
    • 5.37.3. Targray Materials
    • 5.37.4. Targray Silver Paste
    • 5.37.5. Targray Aluminum Paste
    • 5.37.6. Targray Wafers
  • 5.38. Trakya Cam Sanayii A.S.
    • 5.38.1. Trakya Cam Partners with Saint-Gobain
  • 5.39. Trakya Cam
  • 5.40. Targray Solar Materials
  • 5.41. US Silica
    • 5.41.1. US Silica Uses
    • 5.41.2. US Silica Operations
    • 5.41.3. US Silica Low Iron Sand
  • 5.42. Zhejiang Flat Glass Co., Ltd / Shanghai Flat Glass Co Ltd
  • 5.43. Other Low Iron Glass Manufacturers
    • 5.43.1. AQT Solar
    • 5.43.2. Bergamo Acquisition Corporation
    • 5.43.3. Centrosolar Group AG
      • IG Solar PVT Ltd
      • Ningbo Qixin Solar Electrical Appliance Co. Ltd
      • Shenzhen Commonpraise Solar Co.,Ltd
      • ShenZhen SuoYang New Energy Co.,LTD
    • 5.43.4. Low Iron Glass Country Company Summary
  • 5.44. Winners of the Middle East Solar Pioneers Programme

List of Tables and Figures:

  • Table 3-22: Guardian Copper Accelerated Acetic Acid Salt Spray (CASS) Test
  • Table ES-1: CSP Solar Market Growth Key Factors Driving Demand
  • Figure ES-2: Concentrated Solar Power (CSP) Low Iron Glass Market Shares, Dollars, Worldwide, 2014
  • Figure ES-3: Low Iron Glass Market Forecasts Dollars, Worldwide, 2015-2021
  • Figure ES-4: Guardian UltraWhite Low-Iron Decorative Glass Compared to Standard Glass
  • Figure 1-1: Different Types of Low Iron Solar Glass
  • Figure 1-2: Decorative Low Iron Glass Shapes
  • Figure 1-3: Decorative Low Iron Glass Color
  • Figure 1-4: Arkitectural.com Low Iron Glass for Buildings
  • Figure 1-5: Architectural Low Iron Glass
  • Table 1-6: Arkitectural Decorative Low Iron Glass Benefits
  • Table 1-7: Arkitectural Decorative Low Iron Glass Applications
  • Table 1-8: Low Iron Glass Applications
  • Table 1-9: Low Iron Glass Coatings for Solar Applications
  • Figure 1-10: Glass Types Used for PV Cells
  • Table 1-11: Low Iron Solar Glass Production Issues
  • Figure 1-12: Solar Technologies and Glass Usage
  • Figure 1-13: Glass Segments and Products
  • Figure 1-14: CSP Low Iron Glass Consistently High Plant Yield
  • Figure 1-15: Flabeg CSP Focus Deviation <7mm, Direct Reflectance >94.4%
  • Figure 1-16: Influence of Mirror Quality on Plant Performance and Revenues
  • Table 1-17: Flabeg Dura Glare- Anti-Soiling Solar Glass Coating Testing
  • Figure 1-18: Flabeg Dura Glare- Anti-Soiling Solar Glass Yields
  • Figure 1-19: Transitional Roll Desk Used in Flat Glass Production
  • Figure 1-20: Total Cost of Flat Glass by Segment
  • Figure 1-21: Raw Material Breakdown of Flat Glass
  • Table 1-22: Performance Comparison - Clear Float Glass Versus Low Iron Glass
  • Table 1-23: Benefits Of Using Low Iron Glass Compared To Clear Float Glass
  • Table 2-1: CSP Solar Market Growth Key Factors Driving Demand
  • Table 2-2: CSP Production Aspects
  • Figure 2-3: Concentrated Solar Power (CSP) Low Iron Glass Market Shares, Dollars, Worldwide, 2014
  • Table 2-4: Concentrated Solar Power (CSP) Low Iron Glass and Market Shares, Dollars, Worldwide, 2014
  • Table 2-5: Concentrated Solar Power (CSP) Low Iron Glass Market Shares, Units and Dollars, Worldwide, 2014
  • Figure 2-6: Guardian PV Laminated Mirrors
  • Figure 2-7: Guardian PV CSP Laminated Mirrors
  • Figure 2-8: Schott Solar Low Iron Glass
  • Table 2-9: Schott Solar CSP Technology Strengths
  • Table 2-10: Schott Solar CSP Technology Challenges
  • Table 2-11: Flabeg ROI Assumptions
  • Figure 2-12: Flabeg Installations in Spain
  • Figure 2-13: Flabeg Installations in US and India
  • Figure 2-14: Flabeg Installations in Abu Dhabi, Australia, and Egypt
  • Figure 2-15: Flabeg Worldwide Installations
  • Figure 2-16: Decorative Architectural and Automotive Low Iron Glass Market Shares, Dollars, 2014
  • Table 2-17: Architectural, Specialty, and Automotive Low Iron Glass Market Shares, Dollars, Worldwide, 2014
  • Figure 2-18: Guardian UltraWhite Low-Iron Decorative Glass Compared to Standard Glass
  • Figure 2-19: Low Iron Glass Market Forecasts Dollars, Worldwide, 2015-2021
  • Table 2-20: Low Iron Glass by Sector, CSP, Solar Panel, Architectural, and Automotive, Dollars, Worldwide, 2015-2021
  • Table 2-21: Low Iron Glass by Sector, CSP, Solar Panel, Architectural, and Automotive, Percent, Worldwide, 2015-2021
  • Table 2-22: Low Iron Glass Concentrating Solar Power (CSP) Market Forecasts Dollars, Worldwide, 2015-2021
  • Figure 2-23: Low Iron Solar Glass Concentrated Solar Power (CSP) Mirrors and Receivers Market Forecasts Dollars, Worldwide, 2014-2020
  • Table 2-24: Low Iron Solar Glass Markets Dollars, Worldwide, 2014-2020
  • Table 2-25: Low Iron Glass and Receiver Concentrated Solar Power (CSP) Market Segment Forecasts, Worldwide, 2014-2020
  • Table 2-26: Concentrated Solar Power (CSP) Installed Capacity Market Forecasts Worldwide, 2014-2020
  • Figure 2-27: Low Iron Glass Market Decorative and Architectural Forecasts Dollars, Worldwide, 2015-2021
  • Figure 2-28: Guardian UltraWhite Low-Iron Decorative Glass Compared to Standard Glass
  • Figure 2-29: Rio Solar Glass Production Process
  • Table 2-30: Technology Of Nippon Sheet Glass Pilkington NSG TEC Low Iron Glass™ Products
  • Figure 2-31: US Silica Low Iron Sand Mines
  • Table 2-32: Low Iron Solar Glass Market Shares, Tonnes, Worldwide, 2010
  • Table 2-33: Low Iron Solar Glass Installed Capacity, Tonnes, Worldwide, 2010
  • Figure 2-34: Float Lines in The World by Region- 407
  • Figure 2-35: Nippon Sheet Glass Co., Ltd NSG Current and Planned Capacity
  • Table 2-36: PV Solar Glass Production Facilities
  • Figure 2-37: Glass Lines Needed to Support PV Development to 2020
  • Figure 2-38: Glass Production Growth per Segment Until 2015
  • Figure 2-39: Glass Production Cost Structure, 2010
  • Figure 2-40: Cost Structure for 50 MW Plant
  • Table 2-41: Low Iron Glass Company Summary by Country
  • Figure 2-42: Global Flat Glass Producers
  • Figure 2-43: European Float Sheet Capacity by Company
  • Figure 2-44: Low Iron Glass Number of Tanks and Capacity
  • Figure 2-45: Flat Glass Revenue Growth and Averages
  • Figure 2-46: Major Soda Ash Producers by Capacity
  • Table 2-47: Low Iron Silica Cost Reduction Through Localization
  • Figure 2-48: China Allows Media to Report on Air Pollution Crisis
  • Figure 2-49: Components of Solar Trough CSP Plant
  • Table 2-50: Construction Costs of 50 MW CSP Plant
  • Table 2-51: Economic Impact of 50 MW CSP Plant - HIGH (Maximum Local Purchasing)
  • Table 2-52: Economic Impact of 50 MW CSP Plant - LOW (Minimal Local Purchasing)
  • Table 2-53: Annual Operating Costs of 50 MW CSP Plant
  • Table 2-54: Economic Impact of Operating 50 MW CSP Plant
  • Table 2-55: Fiscal Impact of a 50 MW CSP Plant in New Mexico over 30 Years
  • Figure 2-56: Total Value of CSP Plant
  • Table 2-57: Construction Costs of 100 MW CSP Plant
  • Table 2-58: Parabolic-Reflector Power Station Glass Requirements
  • Table 2-59: PV Float Glass Plant Design Constraints
  • Table 2-60: CSP Low Iron Glass Specific Requirements
  • Figure 2-61: Nano Silver Coating
  • Figure 2-62: RioGlass Nano Silver Coating Reflectivity
  • Figure 2-63: Solar Low Iron Glass Market Characteristics Factors
  • Table 2-64: R&D Directions To Optimize Production Of PV Thin Film Solar Glass
  • Table 2-65: R&D Directions To Optimize Control Of PV Thin Film Solar Glass Coatings
  • Table 2-66: Guardian CSP Mirror R&D Successes
  • Table 2-67: R&D Directions To Optimize Glass Properties Of PV Thin Film Solar Glass
  • Table 2-68: Create More Resilient Glass Able To Be Stable For 25 Years
  • Table 2-69: Low Iron Glass Market Driving Factors
  • Table 2-70: Low Iron Glass Market Issues
  • Table 2-71: Parabolic-Reflector Power Station Glass Requirements
  • Table 2-72: PV Float Glass Plant Design Constraints
  • Table 2-73: CSP Low Iron Glass Specific Requirements
  • Table 2-74: CSP Low Iron Glass Market Characteristics Factors
  • Table 2-75: Create More Resilient Glass Able To Be Stable For 25 Years
  • Table 2-76: Concentrating Solar Power Projects by Project Name
  • Table 2-77: Concentrating Solar Power (CSP) Projects That Use Parabolic Trough Systems
  • Table 2-78: Concentrating Solar Power (CSP) Projects That Use Linear Fresnel Reflector Systems
  • Table 2-79: Concentrating Solar Power (CSP) Projects
  • Table 2-80: Concentrating Solar Power (CSP) Projects That Use Dish/Engine Systems
  • Table 2-81: Concentrating Solar Power Projects by Project Country
  • Figure 2-83: Concentrating Solar Power (CSP) Projects In The United States
  • Table 2- 84: Concentrating solar power (CSP) projects in Chile
  • Table 2- 85: Concentrating solar power (CSP) projects in Mexico
  • Table 2- 86: Concentrating Solar Power (CSP) Projects in Algeria
  • Table 2- 87: Concentrating Solar Power (CSP) Projects in France
  • Table 2- 88: Concentrating Solar Power (CSP) Projects in Egypt
  • Table 2- 89: Concentrating Solar Power (CSP) Projects in South Africa
  • Table 2- 90: Concentrating Solar Power (CSP) Projects in United Arab Emirates
  • Table 2- 91: Concentrating Solar Power (CSP) Projects in India
  • Table 2- 92: Concentrating Solar Power (CSP) Projects in China
  • Table 2- 93:
  • Table 2- 94:
  • Table 2- 95: Concentrating Solar Power (CSP) Projects in Australia.
  • Table 2- 96: List of Concentrated Solar Power (CSP) Installations
  • Table 2-97: Number of HelioStats in Each CSP
  • Table 2-98: Details of Parabolic Trough Projects, General Contractor, Supplier, Glass, Turbine
  • Table 2-99: CSP Installations and Suppliers
  • Figure 2-100: RIO Tempered Glass ROI Analysis
  • Figure 2-101: RioGlass Tempered Glass ROI
  • Figure 2-102: RioGlass 50 MW Plant Tempered Glass ROI
  • Table 2-103: ACWA Holding / Sun & Life / Flabeg ROI for Annealed Solar Mirrors
  • Figure 2-104: Reflectech Pricing
  • Figure 2-105: Shenzhen Sun Global Glass Co., Ltd. Manufacturing
  • Figure 2-106: Low Iron Glass Regional Market Segments, Dollars, 2014
  • Figure 2-107: Low Iron Glass Regional Market Segments, Dollars, 2021
  • Figure 2-108: Low Iron CSP Solar Glass Regional Market Segments, Dollars, 2013
  • Table 2-109: Low Iron CSP Solar Glass Regional Market Segments, 2013
  • Table 2-110: Low Iron Glass Middle East Market Segment, 2021
  • Table 3-1: Low Iron Solar Glass Application Areas for Concentrated Solar Power (CSP) and Concentrated Photovoltaic (CPV)
  • Table 3-2: Schott PTR®70 Receiver Features
  • Figure 3-3: Schott Solar Receivers
  • Figure 3-4: Schott Solar Receiver Manufacturing Excellence Award
  • Figure 3-5: CSP Solar Receiver Group Wide Best Production@SCHOTT Award
  • Figure 3-6: Schott Receivers As Specialized Part Of The Solar Field
  • Figure 3-7: Schott Solar CSP: Receivers
  • Figure 3-8: Schott PTR® 70 Receiver Platform
  • Table 3-9: Schott PTR® 70 Receiver Platform Modules
  • Table 3-10: Schott PTR® 70 Advanced Receiver Features
  • Table 3-11: Schott Solar Receiver Compact Bellow Design Components Specification
  • Table 3-12: Schott Solar Receiver Compact Bellow Design Components Solar, Thermal, and Vacuum Specification
  • Table 3-13: Schott Solar Receiver Design Components
  • Figure 3-14: Guardian PV Laminated Mirrors
  • Figure 3-15: Guardian PV CSP Laminated Mirrors
  • Figure 3-16: Guardian CSP Laminated Broken Mirror Still Works
  • Figure 3-17: Guardian Wind Tunnel Testing of Laminated CSP Mirrors
  • Figure 3-18: Guardian Wind Tunnel Breaking of Laminated CSP Mirrors
  • Figure 3-19: Guardian Durable Concentrating Solar Power (CSP) Mirrors
  • Figure 3-20: Emmaqua Test by Atlas at Phoenix, Arizona
  • Table 3-21: Guardian Sun-Tracking Mirrors
  • Table 3-22: Guardian Copper Accelerated Acetic Acid Salt Spray (CASS) Test
  • Table 3-23: Guardian Salt Spray (SS) Test
  • Table 3-24: Guardian Humidity test
  • Table 3-25: Guardian Climate Cycling Test
  • Table 3-26: Guardian UV Test
  • Table 3-27: Guardian Damp Heat Test
  • Table 3-28: Guardian Wind Tunnel Test
  • Table 3-29: Guardian Outdoor Exposure Test3
  • Figure 3-30: Guardian UltraWhite Low-Iron Glass
  • Table 3-31: Guardian EcoGuard® Solar Modules
  • Figure 3-32: Guardian EcoGuard® Solar Modules
  • Figure 3-33: Guardian Parabolic Mirrors
  • Figure 3-34: Guardian Solar Glass Positioning
  • Figure 3-35: Guardian UltraWhite Low-Iron Decorative Glass Compared to Standard Glass
  • Table 3-36: Guardian UltraWhite Low Iron Glass in Laminated Applications
  • Figure 3-37: Guardian Low Iron Glass Performance Data
  • Table 3-38: Flabeg Parabolic Mirrors Features
  • Figure 3-39: Flabeg Mirrors For Parabolic Troughs
  • Figure 3-40: Flabeg Mirrors For Parabolic Troughs Description
  • Figure 3-41: Flabeg Mirrors For Solar Dishes
  • Figure 3-42: Flabeg Mirrors For Towers and Linear Fresnel
  • Figure 3-43: Flabeg Mirrors For Towers and Linear Fresnel Description
  • Figure 3-44: Flabeg Mirrors For Concentrated Solar Photovoltaic
  • Table 3-45: Flabeg Leading Glass Technology Aspects
  • Table 3-46: Flabeg Solar Concentrating Mirror Benefits
  • Table 3-47: Flabeg ROI for Annealed Solar Mirrors
  • Figure 3-48: Flabeg Annealed Solar Mirrors
  • Figure 3-49: Flabeg Annealed Solar Mirrors vs. Tempered Advantages
  • Figure 3-50: Flabeg Parabolic Mirrors for Concentrating Solar Power (CSP)
  • Figure 3-51: Flabeg Parabolic Concentrating Solar Power (CSP) Mirrors
  • Table 3-52: Flabeg Testing and Durability of Mirror Coating System
  • Table 3-53: Flabeg Available Mirror Types
  • Figure 3-54: Flabeg Available Mirror Types
  • Table 3-55: Flabeg CSP Coatings
  • Table 3-56: Flabeg CSP Packaging
  • Figure 3-57: Flabeg Flat Mirrors for Concentrating Solar Power (CSP)
  • Table 3-58: Flabeg CSP Quality testing
  • Table 3-59: Flabeg CSP Quality Testing Metrics
  • Figure 3-60: Emirates Float Glass Dura GLARE
  • Figure 3-61: Emirates Float Glass Dura GLARE Performance
  • Figure 3-62: Rio Glass Solar CSP Installations I and II
  • Figure 3-63: Rio Glass Solar CSP Installations 1
  • Figure 3-64: Rio Glass Solar CSP Installations 2
  • Table 3-65: Rio Glass Production Process
  • Table 3-66: Rio Glass Nano Silver Coatings
  • Figure 3-67: Rio Glass Nano Silver Coating Capabilities
  • Figure 3-68: Rio Glass CSP Operational Advantages
  • Figure 3-69: Rio Solar Glass Edge Protection
  • Figure 3-70: Rio Solar Glass Edge Preparation Description
  • Figure 3-71: Rio Solar Glass Edge Specifications
  • Figure 3-72: Rio Glass Robot Edging for Solar Protection
  • Figure 3-73: Rio Solar Glass Edge Protection Durability Analysis
  • Figure 3-74: Rio Solar Glass Deflectrometry Analysis
  • Figure 3-75: Rio Solar Glass Deflectrometry Analysis Summary
  • Figure 3-76: Rio Glass Solar Mirror Reflectance Measurements
  • Figure 3-77: Rio Glass CSP Shot Testing Preparation
  • Figure 3-78: Rio Glass CSP Testing Design
  • Figure 3-79: Rio Glass CSP Shot Testing Measurements
  • Figure 3-80: Rio Glass CSP Shot Testing Results
  • Figure 3-81: Rio Glass CSP Ball Drop Testing Measurements
  • Figure 3-82: Rio Glass CSP Multi Impact Cannon Testing Measurements
  • Figure 3-83: Rio Glass CSP Scaled Wind Tunnel Testing Measurements
  • Figure 3-84: Rio Glass CSP Scaled Wind Tunnel Testing Measurements
  • Figure 3-85: Rio Glass CSP Scaled Wind Tunnel Testing Fragments Speed Claculation
  • Figure 3-86: Rio Glass CSP Testing Measurements
  • Figure 3-87: Rio Glass CSP Variable Temperature Testing Measurements
  • Figure 3-88: Rio Glass CSP Flexion Load Test With Vaariable Temperature Measurements
  • Figure 3-89: Rio Glass CSP Testing Measurements Conclusions
  • Figure 3-90: Rio Glass CSP Testing Certificate
  • Figure 3-91: RIO Glass US Manufacturing in Arizona
  • Figure 3-92: Guangfeng Solar Mirror Low Iron Glass
  • Figure 3-93: Guangfeng Solar Flat Low Iron Glass
  • Figure 3-94: Guangfeng Solar Flat Mirror Low Iron Glass
  • Figure 3-95: Guangfeng Solar Low Iron Glass Uses
  • Figure 3-96: Guangfeng Solar Light Transmittance of Low Iron Glass
  • Figure 3-97: Guangfeng Solar Light Transmittance Main Characteristics of Low Iron Glass
  • Figure 3-98: Guangfeng Solar Energy Transmittance of Low Iron Patterned Glass
  • Figure 3-99: Guangfeng Solar Specifications and Properties of 6Low Iron Glass
  • Table 3-100: Guangfeng Solarglass Characteristics
  • Figure 3-101: Guangfeng Solarglass (Hong Kong) Low Iron Patterned Glass, Low Iron Float Glass, and Solar Mirrors
  • Figure 3-102: Nippon Sheet Glass Pilkington Solar Energy
  • Figure 3-103: Nippon Sheet Solar Energy Glass
  • Table 3-104: Nippon Sheet Glass Pilkington Low Iron Patterned Glass for C-Si Cell
  • Figure 3-105: Nippon Sheet Glass Pilkington Concentrated Solar Power
  • Figure 3-106: Nippon Sheet Glass Pilkington Sunplus™ and Pilkington Optiwhite™ For Solar Thermal Collectors
  • Table 3-107: Nippon Sheet Glass Pilkington NSG TEC™ Range Product Features
  • Table 3-108: Properties Of Nippon Sheet Glass Pilkington NSG TEC Glass™ Products
  • Table 3-106: Technology Of Nippon Sheet Glass Pilkington NSG TEC Low Iron Glass™ Products
  • Figure 3-109: Masdar, Total S.A. and Abengoa Solar Abu Dhabi Solar Power Plant
  • Figure 3-110: Borosil Glass Works
  • Table 3-111: Dongguan CSG Low Iron Solar Glass Parameter s
  • Table 3-112: Dongguan Primary CSG Low Iron Solar Glass Characteristics
  • Table 3-113: Dongguan Tempered CSG Low Iron Solar Glass Characteristics
  • Table 3-114: Dongguan Anti-reflective Coating CSG Low Iron Solar Glass Characteristics
  • Figure 3-115: f - Solar Manufacturing Of High-Quality Glass
  • Figure 3-116: f - solar Glass Plant
  • Figure 3-117: f - solar Glass Making
  • Figure 3-118: Asahi Reflective (Mirror) Substrates For Concentrating Solar Thermal Power Systems
  • Figure 3-119: Asahi CSP mirror
  • Figure 3-120: AJJ Glass Ultra-Clear Solar Glass
  • Table 3-121: AJJ Glass Ultra Clear Float Solar Glass Specification:
  • Table 3-122: AJJ Glass Ultra Clear Float Solar Glass Features:
  • Figure 3-123: Phoenica UltraClear - Low Iron Glass
  • Table 3-124: Phoenica UltraClear - Low Iron Glass Product Benefits
  • Table 3-125: Phoenica Laminated UltraClear™ Low Iron Glass Functions
  • Table 4-1: Characteristics of Low-Iron Glass:
  • Figure 4-2: Clear Low Iron Glass vs. Green in Regular Glass
  • Figure 4-3: Visualization of Clear Low Iron Glass vs. Green in Regular Glass
  • Table 4-4: Decorative Low Iron Glass Available Edge Work:
  • Figure 4-5: Low Iron Glass Stock Table Tops, Stock Mirrors, and Custom Mirrors, Table Tops, Shelves, and Replacement Doors.
  • Table 4-6: CSP Low Iron Glass Functional Characteristics
  • Table 4-7: CSP Low Iron Glass Application of Coatings
  • Figure 4-8: Rio Wind Tunnel Testing
  • Figure 4-9: RioGlass Full Scale Wind Tunnel Testing Set Up
  • Figure 4-10: RioGlass Full Scale Wind Tunnel Testing Air Flow
  • Figure 4-11: RioGlass Full Scale Wind Tunnel
  • Figure 4-12: CSP Glass Production Processes
  • Table 4-13: Parabolic Mirrors Solar Generation Elements
  • Figure 4-14: Schott PTR 70 Receiver Heat Transfer Fluid
  • Table 4-15: Key Parameters For The Yield Of A CSP Plant
  • Table 4-16: Low Iron Solar Glass Coatings
  • Table 4-17: Low Iron Solar Glass Coating Functions
  • Table 4-18: Nanotechnology Techniques Are Emerging That Permit Even Better Laying
  • Figure 5-1: Flabeg Worldwide Presence: Solar Glass
  • Figure 5-2: Flabeg QDec Measurement
  • Figure 5-3: Flabeg Solar Mirrors
  • Figure 5-4: Flabeg CSP Solar Mirrors
  • Figure 5-5: Flabeg Development Partners
  • Figure 5-6: Flabeg Ultimate Trough Design
  • Table 5-7: FLABEG Holding GmbH Profile
  • Figure 5-8: Flabeg Worldwide Presence: Solar Glass
  • Figure 5-9: Alanod-Solar in Germany
  • Figure 5-10: Asahi Glass Solar FIeld
  • Table 5-11: China Glass Holdings CSGA's Notable Projects
  • Figure 5-12: Dulles Glass and Mirror Staff
  • Figure 5-13: Dulles Glass and Mirror Manufacturing
  • Figure 5-14: Dulles Glass and Mirror Materials Selectiion
  • Figure 5-15: Guangfeng Solarglass (Hong Kong) Low Iron Patterned Glass, Low Iron Float Glass, and Solar Mirrors
  • Figure 5-16: Nippon / Pilkington Brand Elegance
  • Figure 5-17: Pilkington Low-Iron Clear Float Glass Features
  • Figure 5-18: Pilkington Low-Iron Clear Float Glass Benefits
  • Figure 5-19: Pilkington Low-Iron Clear Float Glass
  • Figure 5-20: Pilkington Low-Iron Clear Float Glass Architecture
  • Figure 5-21: Nippon Sheet Glass Revenue and Logistics Business
  • Figure 5-22: Nippon Sheet Glass Business Segments
  • Figrue 5-23: Nippon Sheet Glass Pinkington World Presence
  • Figure 5-24: Nippon Sheet Glass Pinkington Northern Ballet Leeds UK
  • Figure 5-25: Nippon Sheet Glass Glazing In Car Show Room Ukraine
  • Figure 5-26: One Post Office Square Boston MA US
  • Figure 5-27: Centro Cultural Gabrieta Midtrial - Chile
  • Figure 5-28: Nippon Sheet Glass Solar Production Facilities Operational Plants
  • Figure 5-29: Nippon Sheet Glass Co., Ltd.NSG Group Current and Planned Capacity
  • Figure 5-30: Nippon Sheet Glass Co., Ltd. NSG Sales from Solar Sector
  • Table 5-31: Nippon Sheet Glass NSG Group Future Growth Options
  • Table 5-32: Nippon Sheet Glass Greenfield TCO float
  • Figure 5-33: ReflecTech® Mirror Film
  • Figure 5-34: ReflecTech® Mirror Film Characteristics
  • Figure 5-35: RIO Solar Glass Group
  • Figure 5-36: RioGlass Profile
  • Figure 5-37: RioGlass Product Lines
  • Figure 5-38: RIO Solar Glass Location Map
  • Figure 5-39: RIO Solar Glass Group Solar 1 and Solar 2 Locations
  • Figure 5-40: RIO Solar Glass Nano Silver Coating
  • Figure 5-41: RIO Solar Glass Group Customers
  • Figure 5-42: RIO Solar Glass Installation
  • Figure 5-43: RIO Solar Glass Seville Installation
  • Figure 5-44: RIO Solar Glass Nextra Martin Site
  • Figure 5-45: RIO Solar Glass Nextra Martin Site Overview
  • Figure 5-46: RIO Solar Glass Projects
  • Figure 5-47: RIO Solar Glass Buildings Project
  • Figure 5-48: RIO Solar Glass Overview
  • Figure 5-49: SolarWood Technologies
  • Figure 5-50: Sener Solar Tower Project
  • Table 5-51: Schott Solar CSP
  • Figure 5-52: Schott Global Presence
  • Figure 5-53: Solar Irradiation World Map
  • Table 5-54: SCHOTT POLY® PV Modules Key Advantages:
  • Figure 5-55: Schott ProductsGlass-to-Metal-Seals and Ceramic-to-Metal-Seals
  • Figure 5-56: Schott Automotive Glass
  • Figure 5-57: Schott Defense Seals
  • Figure 5-58: Schott Industry Special Products
  • Figure 5-59 (Continued): Schott Industry Special Products
  • Figure 5-60 (Continued): Schott Industry Special Products
  • Table 5-61: Schott Electronic Packaging Product Benefits:
  • Figure 5-62: Schott A Flexible Glass Fiber Light Guides Transmit The Light
  • Figure 5-63: Schott Ultra thin Glass Flexible Substrates
  • Table 5-64: SCHOTT Solar Products Photovoltaic Modules Advantages
  • Figure 5-65: Sisecam Group Sales Profile
  • Figure 5-66: Sisecam Group Results by Businesses
  • Figure 5-67: Sisecam Group Revenue
  • Figure 5-68: Sisecam Group Revenue and International Sales
  • Figure 5-69: Sisecam Group Employees and Glass Production
  • Table 5-70: Targray Materials Intelligence Segments
  • Figure 5-71: Trakya Cam Float glass Manufacturing Process
  • Figure 5-72: US Silica Low Iron Sand Mines
  • Table 5-57: US Silica Locations
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