首頁 產業/市場分類 出版商一覽 Email 通知 GII媒體代理會議 公司簡介 聯絡我們
- English Japanese Korean
首頁 > 市場調查報告書 > 能源 > 綠色能源 > 建物一體型太陽能發電市場的機會:2010年
產業/市場分類
能源 (4218)
太陽光發電 (343)
石化燃料 (956)
風力發電 (173)
核能 (85)
智慧電網 (255)
發電設備 (1024)
電力市場 (428)
電池 (205)
綠色能源 (820)
燃料電池 (75)
UPS (61)
市場調查報告書

建物一體型太陽能發電市場的機會:2010年

Building Integrated Photovoltaics: Opportunities 2010

出版商 NanoMarkets
出版日期 2010年07月 商品編碼 121780
內容資訊 英文  
價格
US $ 995 PDF By E-mail - Advanced User License (5 users)
US $ 1495 PDF By E-mail - Group Version (10 users)
US $ 1995 PDF By E-mail - Enterprise Version (Company Wide)


建物一體型太陽能發電市場的機會:2010年 是由出版商NanoMarkets在2010年07月所出版的。 這份英文市場調查報告書價格從美金995起跳。

簡介

本報告書為建物一體型太陽光發電(BIPV)市場之各種技術的概說,包含各自今後8年間的機會預測,概述如下。

總綱

第1章 導論

第2章 硬質BIPV瓷磚・屋頂・被覆材

  • 導論
    • BIPV市場動向
  • 建材市場:與BIPV共存就滿足了嗎
    • 成本因子
  • 結晶矽太陽電池:建築一體化的方法
    • BIPV瓷磚與石板、美的因子
    • 結晶矽BIPV受歡迎的要因
    • BIPV市場之液晶矽的界限
  • 薄膜太陽電池以及硬質BIPV市場
    • 薄膜太陽電池的價値評價
    • 薄膜太陽電池能與硬質瓷磚的結晶矽競爭嗎
    • 在與BIPV相關性中的薄膜太陽電池技術
  • 本章重點

第3章 透明・半透明BIPV:BIPV玻璃

  • 導論
    • 透明・半透明BIPV主要市場
  • 建築用玻璃
    • 以成本面來看的優點
    • 應用
  • 結晶矽BIP變成半透明的方法
    • 2個革新的c-Si BIPV玻璃產品
    • Peekaboo面板
    • 玻璃成本與結晶矽太陽電池之成本
    • 用於半透明BIP的結晶矽之優缺點
  • 薄膜太陽電池與半透明面板
  • BIPV玻璃真的可以變透明嗎
  • 本章重點

第4章 軟性BIPV

  • 導論
  • 軟性的建材
  • 軟性BIPV層壓板與"無處不在的太陽電池"的概念
  • 在軟性建材嵌入太陽電池
  • 本章重點

第5章 8年預測

  • 預測方法
  • 硬質BIPV瓷磚・面板的8年預測
  • 透明・半透明BIPV產品的8年預測
  • 軟性BIPV產品以及層壓板的8年預測
  • 預測摘要

略語

關於作者

圖表

目錄

Abstract

Innovative Building Integrated Photovoltaics (BIPV) products and solutions provide a strategy for the PV industry to compete in an increasingly crowded marketplace. By comparison with standard PV products, BIPV products provide two key benefits to customers: improved aesthetics and cost benefits when the total cost of a building is taken into consideration. From the manufacturers perspective they also add the ability to strongly distinguish their products in a marketplace in which solar panels are rapidly becoming commodities imported from low-cost manufacturing plants.

While early adopters of PV have remained undisturbed by the aesthetics of large panels being attached to roofs, it is likely that widespread adoption of PV will run into aesthetics barriers going forward. In order to address a larger market, PV manufacturers will find that PV needs to be more unobtrusive and there are now many options for doing so, including forming an entire roof out of BIPV tiles, interlacing BIPV slates or shingles with conventional ones, and incorporating PV into architectural glass. These kinds of approaches can make BIPV products more continuous and complementary to the conventional building skin materials and structures when compared to conventional solar panels mounted on a roof.

However, the business case for BIPV is not based entirely on the idea that it will make next generation solar panels prettier than the current generation. It also promises an improvement in the cost of building structures incorporating PV. This will be achieved by shifting the cost of photovoltaic systems from isolated panel, installation, and balance-of-system costs to more of a shared cost structure; one that is split between the power-generating system and the architectural system.

By incorporating PV modules into building materials - and forming dual- or multi-purpose products that serve building skin functions as well as power generating ones - BIPV products have the potential to reduce costs. Because conventional roofing products, cladding, etc. are not needed when the BIPV products serve those functions considerable savings are possible.

This report provides an opportunity analysis for BIPV over the next eight years, based on the aesthetic and cost benefits discussed above. We also examine how manufacturers in the PV space can leverage these benefits to distinguish themselves in the marketplace. These opportunities are explored in terms of the three major classes of BIPV products that NanoMarkets has identified and defined: rigid BIPV products, semitransparent BIPV products, and flexible BIPV products.

This report will be It is essential reading for both PV suppliers - whether currently supplying BIPV or not - as well as building materials suppliers, PV systems integrators, architects and firms in the construction industry.

Table of Contents

Executive Summary

  • E.1 The Economics of BIPV: BIPV< PV + Building Materials?
  • E.2 BIPV and Aesthetic Opportunities
    • E.2.1 BIPV, Aesthetics and the New Market for BIPV
    • E.2.2 Aesthetics, Architects and BIPV
  • E.3 Market Positioning and Distinguishing Features of BIPV
    • E.3.1 Current Status of BIPV Products
    • E.3.2 Opportunities for Crystalline Silicon PV Suppliers
    • E.3.3 Opportunities for Thin-Film PV Suppliers
  • E.4 BIPV' s Impact on the Construction Industry
  • E.5 Opportunities for Building Materials Suppliers
  • E.6 Firms to Watch
    • E.6.1 Ascent Solar
    • E.6.2 Dow Chemical
    • E.6.3 Dyesol and Corus
    • E.6.4 Konarka and Solarmer
    • E.6.5 Odersun
    • E.6.6 Pythagoras Solar
    • E.6.7 SRS Energy
    • E.6.8 Sunovation
    • E.6.9 United Solar Ovonic
  • E.7 Summary of Eight-Year Forecasts of BIPV Markets

Chapter One: Introduction

  • 1.1 Background to this Report
    • 1.1.1 BIPV: The New Value Proposition for Solar
    • 1.1.2 Three Approaches to Building Integration: Rigid, Flexible, Transparent
  • 1.2 Objectives and Scope of this Report
  • 1.3 Methodology of this Report
  • 1.4 Plan of this Report

Chapter Two: Rigid BIPV Tiles, Roofing, and Cladding. . . and Beyond

  • 2.1 Introduction
    • 2.1.1 The Market Dynamics of BIPV
  • 2.2 Building Materials Markets: A Happy Coexistence with BIPV?
    • 2.2.1 The Cost Factor
  • 2.3 Crystalline Silicon PV: Approaches to Building Integration
    • 2.3.1 BIPV Tiles and Slates and the Aesthetic Factor
    • 2.3.2 Factors in Favor of Crystalline Silicon BIPV
    • 2.3.3 Crystalline Silicon' s Limitations in the BIPV Market
  • 2.4 Thin-Film PV and the Rigid BIPV Market
    • 2.4.1 Thin-Film PV' s Value Propositions
    • 2.4.2 Can Thin-Film PV Compete with Crystalline Silicon in Rigid Tiles?
    • 2.4.3 Thin-Film PV Technologies as they Relate to BIPV
  • 2.5 Key Points Made in this Chapter

Chapter Three: Transparent and Semi-Transparent BIPV: BIPV Glass

  • 3.1 Introduction
    • 3.1.1 Primary Markets for Transparent and Semi-Transparent BIPV
  • 3.2 Architectural Glass: More than Just Windows
    • 3.2.1 Cost Advantages of Transparent/Semi-Transparent BIPV
    • 3.2.2 Applications of Transparent/Semi-Transparent BIPV
  • 3.3 Semitransparent Approaches to Crystalline Silicon BIPV
    • 3.3.1 Two Innovative c-Si BIPV Glass Products
    • 3.3.2 Peekaboo Panels: The Aesthetics of Glass Encapsulated Crystalline Silicon PV Cells
    • 3.3.3 The Cost of Glass vs. the Cost of the Crystalline Silicon PV Inside
    • 3.3.4 Advantages and Disadvantages of Crystalline Silicon for Semitransparent BIPV
  • 3.4 Thin-Film PV and the Semitransparent Panel
    • 3.4.1 See-Through Becomes More Attractive
    • 3.4.2 Glass Substrate Costs vs. Architectural Glass Costs
    • 3.4.3 Advantages and Disadvantages of Thin-Film PV for Semitransparent BIPV
  • 3.5 Can BIPV Glass Become Truly Transparent?
    • 3.5.1 OPV, BIPV and Transparency
    • 3.5.2 OPV, DSC and Transparency
  • 3.6 Key Points Made in this Chapter

Chapter Four: Flexible BIPV: Laminates, Shingles, and Other Flexible Products

  • 4.1 Introduction
  • 4.2 Flexible Building Materials: Ready for BIPV?
  • 4.3 Flexible BIPV Laminates and the "PV Anywhere" Concept
    • 4.3.1 The Aesthetics of Roll-On BIPV
    • 4.3.2 Separate but Less Costly: BIPV Laminates
    • 4.3.3 Issues with Flexible BIPV Modules
    • 4.3.4 Newer Approaches to Flexible BIPV Laminates
  • 4.4 One and the Same: Incorporating PV into Flexible Building Materials
    • 4.4.1 The Aesthetics of Invisibility
    • 4.4.2 Flexible BIPV Products and Cost
  • 4.5 Key Points Made in this Chapter

Chapter Five: Eight-Year Forecasts

  • 5.1 Forecasting Methodology
    • 5.1.1 Economics, Construction and BIPV
    • 5.1.2 Alternative Economic Scenarios
    • 5.1.3 Scope of Forecast
  • 5.2 Eight-Year Forecasts of Rigid BIPV Tiles and Panels
    • 5.2.1 Forecast of Rigid BIPV Shipments by PV Technology
    • 5.2.2 Cost Assumptions for Rigid BIPV Forecasts
    • 5.2.3 Forecast of Rigid BIPV Shipments by Product Type
  • 5.3 Eight-Year Forecasts of Transparent and Semi-Transparent BIPV Products
    • 5.3.1 Forecast of Transparent and Semi-Transparent BIPV Shipments by PV Technology
    • 5.3.2 Cost Assumptions for Transparent/Semi-Transparent BIPV Forecasts
  • 5.4 Eight-Year Forecasts of Flexible BIPV Products and Laminates
    • 5.4.1 Forecast of Flexible BIPV Shipments by PV Technology
    • 5.4.2 Cost Assumptions for Flexible BIPV Forecasts
    • 5.4.3 Forecast of Flexible BIPV Shipments by Product Type
  • 5.5 Summary of Forecasts
    • 5.5.1 Summary of Worldwide BIPV Markets by Product Type
    • 5.5.2 Summary of Worldwide BIPV Markets by Watts Shipped and Technology Type
  • Abbreviations and Acronyms Used In this Report
  • About the Author

List of Exhibits

  • Exhibit E-1: Cost Advantages and Disadvantages of BIPV.
  • Exhibit E-2: Aesthetic Advantages and Disadvantages of BIPV.
  • Exhibit E-3: Summary of BIPV Markets by PV Technology.
  • Exhibit E-4: Summary of BIPV Revenues by Product Type.
  • Exhibit 2-1: Cost of PV Systems per Square of Roof Area, 10 Percent Module Efficiency ($)
  • Exhibit 2-2: Peak Power Producible per Square of Roofing.
  • Exhibit 5-1: Rigid BIPV Shipments by PV Technology.
  • Exhibit 5-2: Rigid BIPV Average Cost
  • Exhibit 5-3: Rigid BIPV Products by Product Type
  • Exhibit 5-4: BIPV Glass Shipments by PV Technology.
  • Exhibit 5-5: BIPV Glass Average Cost
  • Exhibit 5-6: Flexible BIPV Shipments by PV Technology.
  • Exhibit 5-7: Flexible BIPV Average Cost
  • Exhibit 5-8: Flexible BIPV Products by Product Type
  • Exhibit 5-9: BIPV Revenues by Product Type.
  • Exhibit 5-10: BIPV Shipments by PV Technology
Back to Top