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市場調查報告書
零耗能建築:提升商用及住宅用建築之能源效率及促進可再生能源普及之全球市場、法規、技術分析
Zero Energy Buildings - Global Market, Regulatory, and Technology Analysis for Energy Efficiency and Renewable Energy in Commercial and Residential Buildings
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零耗能建築:提升商用及住宅用建築之能源效率及促進可再生能源普及之全球市場、法規、技術分析 是由出版商Pike Research在2012年01月所出版的。
這份英文市場調查報告書包含79 Pages 價格從美金3900起跳。
在全球建築業於關心環保,對建築建設之活動越來越廣泛下,建築物內消費能源佔地裡,可覆蓋可再生能源之零耗能建築,成為下個極為重要之目標。目前已有多個國家及地區設定其長期性目標,而推動零耗能建築之法規最早也可能於2016年即開始實行。因此,空調設備供應商、房地產開發商、可再生能源開發企業等,必須要因應零耗能建築需求,產品開發及服務也將依新法規進行。預計今後零耗能建築趨勢將可能大幅崛起。
本報告為,匯整空調系統、玻璃、牆壁及屋頂、可再生能源系統等零耗能建築市場規模及成長性相關數據,並提供2035年止預測、市場驅力及趨勢評估、個別技術、主要企業簡介,以下列摘要形式闡述。
第1章 實施概要
第2章 市場挑戰
- 市場概要
- 零耗能之定義
- 零耗能市場及法規整頓
- 成長驅力
- 零耗能建築規格及法規
- 綠色建築
- 技術創新及低成本化
- 成長阻力
- 歐洲
- 歐盟
- 英國
- 法國
- 德國
- 被動式房屋標準
- 超低耗能住宅
- 商用及住宅用建築市場趨勢
- 北美
- 美國聯邦政府
- 加州
- 美國馬薩諸塞州
- 成長驅力
- 商用及住宅用建築市場趨勢
- 加拿大
- 亞太地區
- 其他地區
第3章 技術問題
- 技術概要
- 能源效率
- 建築圍護結構及被動技術
- 牆體保溫及「魔法瓶」效果
- 玻璃
- 熱量(熱質)存儲系統
- 採光
- 屋頂
- 建物方向及設計
- 主動技術
- 空調系統及整合設計
- 電力照明系統
- 熱水
- 大樓管理
- 能源管理軟體及系統
- 電力負荷
- 可再生能源
- 太陽能發電(PV)系統
- 太陽能發電建築一體化(BIPV)
- 太陽能光熱系統
- 生物質能及とCHP(熱電聯產)系統
- 其他可再生能源
- 儲能系統
第4章 主要企業
- Arup
- Autodesk
- CB Richard Ellis
- Daikin Industries
- Danfoss
- Eaton
- Honeywell
- Johnson Controls
- Jones Lang LaSalle
- Masdar
- Meritage Homes
- Samsung Everland
- Schneider Electric
- Serious Materials
- Siemens Building Technologies
- Soladigm
- Trane
- United Technologies Corporation
第5章 市場預測
- 概要
- 預測方式
- 歐洲
- 北美
- 亞太平洋
- 中東
- 其他地區
- 全球市場展望
第6章 企業一覽
第7章 首字母大寫及縮寫清單
第8章 目錄
第9章 圖表清單
第10章 調查範圍、出處、調查方式、註記
Abstract
As green building practices become more commonplace in the global construction
industry, the goal of designing zero energy buildings, or buildings that
consume as much energy as they produce through on-site and renewable energy
systems, has emerged as the next major frontier. A number of countries and
regions have already established long-term targets and regulations that will
require zero energy building construction that will come into effect over the
coming years, some as soon as 2016. As a result, the construction industry as
a whole, led by HVAC vendors, real estate developers, construction companies,
as well as renewable energy developers, are in the process of developing
products and service lines that will meet demand for zero energy building and
ensure compliance with new regulations.
A market is already emerging for zero energy buildings today, but it remains a
small fraction of the overall building construction industry. Most product and
service providers agree that the technologies required to make zero energy
buildings possible, from efficient lighting and HVAC systems to glazing,
insulation, solar photovoltaic and other systems, can add significant upfront
cost. The goal of zero energy building will become more broadly attainable as
advances in energy efficiency and renewable energy technologies improve system
performance and reduce cost.
This Pike Research report provides data on the size and growth of the market
for zero energy building markets, including HVAC systems, glazing systems,
wall and roof construction, renewable energy systems, and construction soft
costs, from 2011 through 2035. The study also includes a qualitative
assessment of major drivers and trends for zero energy buildings in key
markets, including both commercial and residential zero energy buildings. It
also provides a discussion of the individual technology elements associated
with zero energy building as well as the design challenges that the AEC
(architecture/engineering/construction) service providers will face in
delivering zero energy buildings.
Key Questions Addressed:
- How large is the demand for zero energy buildings worldwide?
- How will the European Union's net zero energy building regulations impact
market development, and what is the current status of such regulation?
- Will the market for commercial zero energy buildings be larger than the
market for residential zero energy buildings?
- What regulations exist worldwide for zero energy building, and what
regulations are likely to come online over the next 10-20 years?
- What is the cost premium to build a zero energy building?
- Which companies in the AEC industry are taking a lead on developing the
technologies required for zero energy buildings?
Who needs this report?
- Building systems service providers
- HVAC equipment vendors
- Architecture/engineering/construction firms
- Solar photovoltaics vendors
- Renewable energy developers
- Energy service companies
- Building materials vendors
- Real estate companies
- Green building design & construction firms
- Government agencies
- Investor community
About Pike Research
Pike Research is a market research and consulting firm that provides in-depth
analysis of global clean technology markets. The company's research
methodology combines supply-side industry analysis, end-user primary research
and demand assessment, and deep examination of technology trends to provide a
comprehensive view of these industry sectors.
Report Statistics
- Last update : 1Q 2012
- Total Number of Pages: 79
- Total Number of Tables, Charts, Figures: 52
Table of Contents
1. Executive Summary
- 1.1. Overview
- 1.2. Accelerated Adoption
2. Market Issues
- 2.1. Market Overview
- 2.2. Definitions of Zero Energy
- 2.3. Zero Energy Market and Legislation
- 2.4. Market Drivers
- 2.4.1. Zero Energy Building Codes and Regulations
- 2.4.2. Green Building
- 2.4.3. Technology Innovation and Cost Decreases
- 2.5. Market Barriers
- 2.5.1. Cost Premiums
- 2.5.2. Payback Periods
- 2.5.3. Grid Integration
- 2.5.4. Construction Practices
- 2.6. Europe
- 2.6.1. European Union
- 2.6.1.1. EU Energy Performance of Buildings Directive (EPBD)
- 2.6.1.2. Status of Zero Energy Building Definitions
- 2.6.1.3. Analysis of EPBD and “Nearly Zero Energy”
- 2.6.1.4. EU 20-20-20 Targets
- 2.6.2. United Kingdom
- 2.6.3. France
- 2.6.4. Germany
- 2.6.5. Passivhaus Standard
- 2.6.6. Very Low Energy Houses
- 2.6.7. Commercial vs. Residential Market Dynamics
- 2.7. North America
- 2.7.1. U.S. Federal Government
- 2.7.1.1. U.S. General Services Administration
- 2.7.1.2. U.S. Department of Energy and National Laboratories
- 2.7.2. California
- 2.7.3. Massachusetts
- 2.7.4. Drivers
- 2.7.4.1. Regulation
- 2.7.4.2. PACE Financing
- 2.7.4.3. Energy Performance Contracting
- 2.7.5. Commercial vs. Residential Market Dynamics
- 2.7.6. Canada
- 2.8. Asia Pacific
- 2.8.1. Japan
- 2.8.2. Singapore
- 2.8.3. China
- 2.8.4. Rest of Asia Pacific
- 2.9. Rest of World
- 2.9.1. Middle East
- 2.9.2. Latin America
- 2.9.3. Africa
3. Technology Issues
- 3.1. Technology Overview
- 3.2. Energy Efficiency
- 3.2.1. Building Envelope and Passive Energy Efficiency Technologies
- 3.2.1.1. Wall Insulation and the “Thermos” Effect
- 3.2.1.2. Glazing
- 3.2.1.2.1. Double- and Triple-Pane Glass
- 3.2.1.2.2. Smart Glass
- 3.2.1.2.3. Glazing System Framing
- 3.2.1.3. Thermal Mass Storage Systems
- 3.2.1.4. Daylighting
- 3.2.1.5. Roofs
- 3.2.1.6. Building Orientation and Architectural Design
- 3.2.2. Active Energy Efficiency Technologies
- 3.2.2.1. HVAC Systems and Integrated Design
- 3.2.2.1.1. Heating
- 3.2.2.1.2. Cooling
- 3.2.2.1.3. Ground-Source Heat Pumps
- 3.2.2.2. Electrical Lighting Systems
- 3.2.2.3. Hot Water
- 3.2.2.4. Building Controls
- 3.2.2.5. Energy Management Software and Systems
- 3.2.2.5.1. Architectural Design Software Development Trends
- 3.2.2.5.2. Continuous Commissioning
- 3.2.2.6. Plug Loads
- 3.2.2.6.1. Energy Efficiency Appliance Standards
- 3.2.2.6.2. Smart Appliances
- 3.3. Renewable Energy
- 3.3.1. Solar Photovoltaic (PV) Systems
- 3.3.2. Building-Integrated Photovoltaics (BIPV)
- 3.3.3. Solar Thermal Systems
- 3.3.4. Biomass and CHP
- 3.3.5. Other Renewable Energy Sources
- 3.3.6. Energy Storage Systems
4. Key Industry Players
- 4.1. Arup
- 4.2. Autodesk
- 4.3. CB Richard Ellis
- 4.4. Daikin Industries
- 4.5. Danfoss
- 4.6. Eaton
- 4.7. Honeywell
- 4.8. Johnson Controls
- 4.9. Jones Lang LaSalle
- 4.10. Masdar
- 4.11. Meritage Homes
- 4.12. Samsung Everland
- 4.13. Schneider Electric
- 4.14. Serious Materials
- 4.15. Siemens Building Technologies
- 4.16. Soladigm
- 4.17. Trane
- 4.18. United Technologies Corporation
5. Market Forecasts
- 5.1. Overview
- 5.2. Methodology
- 5.2.1. Segmentation Definitions
- 5.2.2. Costs
- 5.3. Europe
- 5.3.1. Commercial
- 5.3.2. Residential
- 5.4. North America
- 5.4.1. Commercial
- 5.4.2. Residential
- 5.5. Asia Pacific
- 5.5.1. Commercial
- 5.5.2. Residential
- 5.6. Middle East
- 5.6.1. Commercial
- 5.6.2. Residential
- 5.7. Rest of World
- 5.8. Global Outlook
6. Company Directory
7. Acronym and Abbreviation List
8. Table of Contents
9. Table of Charts and Figures
10. Scope of Study, Sources and Methodology, Notes
List of Charts and Figures
- Zero Energy Building Revenue by Region, World Markets: 2011-2035
- Annual LEED Certified Space by Category, World Markets: 2000-2010
- Building Stock Growth by Sector, Western Europe: 2010-2020
- Commercial Construction Index by Metropolitan Market, World Markets: 2010
- Zero Energy Building Revenue by Product/Service, Commercial Markets,
Europe: 2011-2035
- Zero Energy Building Revenue by Product/Service, Residential Markets,
Europe: 2011-2035
- Zero Energy Building Revenue by Product/Service, Commercial Markets, North
America: 2011-2035
- Zero Energy Building Revenue by Product/Service, Residential Markets,
North America: 2011-2035
- Zero Energy Building Revenue by Product/Service, Commercial Markets, Asia
Pacific: 2011-2035
- Zero Energy Building Revenue by Product/Service, Residential Markets, Asia
Pacific: 2011-2035
- Zero Energy Building Revenue by Product/Service, Commercial Markets,
Middle East: 2011-2035
- Zero Energy Building Revenue by Product/Service, Residential Markets,
Middle East: 2011-2035
- Zero Energy Building Revenue by Region, World Markets: 2011-2035
- Zero Energy Building Revenue by Product/Service, World Markets: 2011-2035
- Zero Energy Building Concept
- Existing and Prospective Zero Energy Building Regulation by Country
- Zero Energy Building Concept
- Member States of the European Union: 2011
- Comparison of Passivhaus Standard vs. Other European Standards
- Conceptual Market Diffusion for Zero Net Energy Targets
- Commercial Building Space by Owner, United States: 2003
- LEED/Green Building Requirements by State, United States: 2011
- Double Pane Window Example
- Underground Labyrinth System, NREL Research Support Facility
- NREL Research Support Facility Total Power Consumption: December 2010
- Solar PV Panel Cost: 1998-2010
- Existing and Prospective Zero Energy Building Regulation by Country
List of Tables
- Annual LEED Certified Space by Category, World Markets: 2000-2010
- Building Stock Growth by Sector, Western Europe: 2010-2020
- Commercial Building Space by Owner, United States: 2003
- Building Stock Growth by Sector, North America: 2010-2020
- Zero Energy Building Revenue by Product/Service, Commercial Markets,
Europe: 2011-2035
- Zero Energy Building Revenue by Product/Service, Residential Markets,
Europe: 2011-2035
- Zero Energy Building Revenue by Product/Service, Total Markets, Europe:
2011-2035
- Zero Energy Building Revenue by Product/Service, Commercial Markets, North
America: 2011-2035
- Zero Energy Building Revenue by Product/Service, Residential Markets,
North America: 2011-2035
- Zero Energy Building Revenue by Product/Service, Total Markets, North
America: 2011-2035
- Zero Energy Building Revenue by Product/Service, Commercial Markets, Asia
Pacific: 2011-2035
- Zero Energy Building Revenue by Product/Service, Residential Markets, Asia
Pacific: 2011-2035
- Zero Energy Building Revenue by Product/Service, Total Markets, Asia
Pacific: 2011-2035
- Zero Energy Building Revenue by Product/Service, Commercial Markets,
Middle East: 2011-2035
- Zero Energy Building Revenue by Product/Service, Residential Markets,
Middle East: 2011-2035
- Zero Energy Building Revenue by Product/Service, Total Markets, Middle
East: 2011-2035
- Zero Energy Building Revenue by Product/Service, Commercial Markets, Rest
of the World: 2011-2035
- Zero Energy Building Revenue by Product/Service, Residential Markets, Rest
of the World: 2011-2035
- Zero Energy Building Revenue by Product/Service, Total Markets, Rest of
the World: 2011-2035
- Zero Energy Building Revenue, Commercial Markets by Region, World Markets:
2011-2035
- Zero Energy Building Revenue, Residential Markets by Region, World
Markets: 2011-2035
- Zero Energy Building Revenue by Region, World Markets: 2011-2035
- Zero Energy Building Revenue by Product/Service, World Markets: 2011-2035
- Status of EPBD and NZEB Legal Compliance, Europe: June 2011
- Low-Rise Low-Energy Model Energy Efficiency Measure Selections (abridged)
2035年網路零能源大樓市場將達到1兆3,000億美元的收益
2012年02月16日
Global Information, Inc.已開始銷售Pike Research所發行的報告書「Zero Energy Buildings - Global Market, Regulatory, and Technology Analysis for Energy Efficiency and Renewable Energy in Commercial and Residential Buildings (零耗能建築:提升商用及住宅用建築之能源效率及促進可再生能源普及之全球市場、法規、技術分析)」
全球建設業界採取關懷環境的建築物建設方向,開始展開零能源大樓的下個大目標。
所謂的零能源大樓,乃指依據地基內有可再生能源系統,能用自己發電的方式維持在建築物內消費的能源之建築物。
許多國家和地區已設定長期目標,促進零能源大樓建設的法規最早可在2016年之前施行。
全球採納如此嚴格的法規,同業界在今後數年將體驗到巨大變革。
依據Pike Research的本報告書,全球零能源大樓的收益,預計今後20年間將迅速擴大,2020年約為6,900億美元,2035年時達到1兆3,000億美元左右的規模。此期間的複合年成長率為43%,其成長的大部分來自EU各國。
調查分析師Eric Bloom敘述:「近幾年全球迅速普及環境性能評價(LEED)系統和其他綠色大樓認證制度,接著零能源大樓將作為綠色大樓設計的最終目標。
對許多地區的各種建築物來說,技術上可實現零能源大樓的設計。然因擔憂成本,成為阻礙市場的要因。」。
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