本報告已在2012年04月04日停止出版。
更改為出版
Membrane Separation Technologies to 2016
出版日期 : 2012年04月
商品編碼: 235746
2009年美國的膜分離材料需要已經達到33億美元,之後以年成長率8%的速度擴大,預測到2014年為止會成長到48億美元的規模。
此報告書根據過去實戰成績所需要的數據(1999年、2004年、2009年),預測2014年及2019年的各種材料、製品、市場,另外包括美國國內的市場環境因子、市場佔有率、及投入市場的37家企業檔案。
簡介
第1章 重點摘要
第2章 市場環境
- 概要
- 微觀經濟動向
- 消費者支出動向
- 人口統計動向
- 公害規章設備之預測
- 價格設定與商品構成
- 環境問題與規章問題
- 膜系的需要
- 全球膜分離技術之預測
第3章 技術概要
- 概要
- 膜分離過程
- 膜配置
- 膜的優點
- 液液膜技術
- 瓦斯分離膜技術
- 膜之管理
- 競爭技術
第4章 種類
第5章 運用
- 概要
- 精密過濾
- 反滲透法
- Ultrafiltration(超過濾)
- Pervaporation (滲透蒸發)法
- 其他運用
第6章 市場
- 概要
- 水處理/廢水處理
- 食品/飲料加工
- 醫藥品/醫療之利用
- 化學處理
- 工業用瓦斯處理
- 其他市場
第7章 產業構造
- 概要
- 產業購成
- 市場佔有率
- 競爭戰略
- 開發研究
- 行銷
- 合併/併購
- 合作關係
企業檔案
圖表
Abstract
US demand to increase 8% annually through 2014
Demand for membrane materials is forecast to grow 8.0 percent per year to $4.8
billion in 2014. Growth will be driven by ongoing interest in process fluids
with higher purity levels in a variety of markets, as well as the introduction
of increasingly strict environmental regulations for water and wastewater
streams, as requirements surpass levels that can be achieved with conventional
filtration equipment alone. Additionally, a rising number of industries are
using membranes to reduce water use and waste disposal expenditures, and to
improve water re-use and material recovery. Gains will also be aided by the
increasing use of value-added, high performance membranes, such as those that
are made from more durable materials or that produce higher purity streams.
Nonpolymer membrane materials to make inroads
In 2009, polymeric membrane materials led the market because of relatively low
initial costs and applicability to a number of products. However, they are
subject to an increasing level of competition from nonpolymer membranes
because of their performance limitations in extreme conditions and a tendency
toward biological fouling and clogging. Therefore, demand for nonpolymeric
materials, including ceramic, metal and composite types, is expected to record
faster growth through 2014, benefitting from better performance in extreme
temperatures and greater pH ranges, as well as generally lower maintenance
costs.
Microfiltration membranes will continue to account for the largest share of
total demand, but advances are projected to be stronger for ultrafiltration
and reverse osmosis membranes, both of which produce higher purity streams.
Among major applications, best gains are expected for pervaporation membranes
due to their use in high-growth specialty markets. Other membrane separation
technologies include gas separation, nanofiltration, dialysis and
electrodialysis.
Water treatment to remain largest market
The largest market for membranes in 2009 was water and wastewater treatment,
representing nearly half of sales. Demand is driven by regulations for water
and waste streams that increasingly require membrane separation technologies
to achieve the mandated results, and the rising need for water conservation in
many parts of the US. These trends particularly affect the municipal and
industrial segments. However, the best opportunities for growth will emerge in
the chemical processing, and pharmaceutical and medical markets, as well as
smaller markets such as environmental treatment and remediation, as well as
fuel cells. Other key markets for membranes include food and beverage
processing and industrial gas production.
Study coverage
Membrane Separation Technologies is a new Freedonia industry study. It
presents historical demand data (1999, 2004, 2009) plus forecasts (2014, 2019)
by material, product and market. The study also examines market environment
factors, assesses company market share and profiles 37 companies.
Table of Contents
INTRODUCTION
I. EXECUTIVE SUMMARY
II. MARKET ENVIRONMENT
- General
- Macroeconomic Trends
- Consumer Spending Trends
- Demographic Trends
- Pollution Control Equipment Outlook
- Pricing & Product Mix
- Environmental & Regulatory Considerations
- Membrane System Demand
- World Membrane Separation Outlook
- North America
- Asia/Pacific
- Western Europe
- Other Regions
III. TECHNOLOGY OVERVIEW
- General
- Membrane Separation Processes
- Membrane Configurations
- Membrane Advantages
- Liquid Processing Membrane Technologies
- Microfiltration
- Ultrafiltration
- Nanofiltration
- Reverse Osmosis
- Other
- Direct Osmosis
- Dialysis
- Electrodialysis
- Pervaporation
- Gas Separation Membrane Technologies
- Membrane Maintenance
- Competitive Technologies
- Liquid
- Conventional Filters
- Distillation
- Ion Exchange Resins
- Other Liquid Separation Processes
- Gas
- Cryogenic Separation
- Pressure Swing Adsorption
- Other Gas Separation Processes
IV. TYPES
- General
- Polymeric Membranes
- Cellulosic Membranes
- Polysulfone & Nylon Membranes
- Other Polymeric Membranes
- PTFE Membranes
- Acrylic Membranes
- Silicone Membranes
- Polyacrylonitrile Membranes
- PVDF Membranes
- All Other Polymeric Membranes
- Nonpolymeric Membranes
- Ceramic Membranes
- Characteristics
- Markets
- Producers
- Other Nonpolymeric Membranes
V. APPLICATIONS
- General
- Microfiltration
- Characteristics
- Markets
- Producers
- Reverse Osmosis
- Characteristics
- Markets
- Producers
- Ultrafiltration
- Characteristics
- Markets
- Producers
- Pervaporation
- Characteristics
- Markets
- Producers
- Other Applications
- Gas Separation
- Characteristics
- Markets
- Producers
- Nanofiltration
- Characteristics
- Markets
- Producers
- Dialysis
- Electrodialysis
VI. MARKETS
- General
- Water & Wastewater Treatment
- Water Withdrawal & Use Trends
- Membrane Demand
- Water Treatment
- Municipal Water Treatment
- Industrial Water Treatment
- Ultrapure Water Treatment
- Residential Water Treatment
- Wastewater Treatment
- Municipal
- Industrial
- Other Wastewater Treatment Markets
- Food & Beverage Processing
- Food Industry Outlook
- Beverage Industry Outlook
- Membrane Demand
- Food Processing
- Beverage Processing
- Pharmaceuticals & Medical Uses
- Pharmaceutical & Health Care Outlook
- Membrane Demand
- Pharmaceutical Production
- Dialysis & Related Uses
- Biotechnology
- Drug Delivery
- Testing & Diagnostics
- Blood Collection
- Chemical Processing
- Chemical Processing Outlook
- Membrane Demand
- Chlor-Alkali Production
- Other Chemical Processing
- Industrial Gas Processing
- Industrial Gas Outlook
- Membrane Demand
- Nitrogen Processing
- Other Industrial Gas Processing
- Other Markets
VII. INDUSTRY STRUCTURE
- General
- Industry Composition
- Market Share
- Competitive Strategies
- Research & Development
- Marketing
- Mergers & Acquisitions
- Cooperative Agreements
COMPANY PROFILES
- Air Products and Chemicals Incorporated
- Applied Biosystems, see Life Technologies
- Applied Membranes Incorporated
- APV, see SPX
- Ballard Power Systems Incorporated
- Baxter International Incorporated
- Becton, Dickinson and Company
- Berkshire Hathaway Incorporated
- Bio-Rad Laboratories Incorporated
- C' treat Offshore, see ITT
- Celgard, see Polypore International
- Corning Incorporated
- Culligan International Company
- Daramic, see Polypore International
- Discovery Labware, see Becton, Dickinson and Company
- Donaldson Company Incorporated
- Dow Chemical Company
- DuPont (EI) de Nemours
- Ecodyne, see Berkshire Hathaway
- EcoWater Systems, see Berkshire Hathaway
- Entegris Incorporated
- ESCO Technologies Incorporated
- FilmTec, see Dow Chemical
- Filtertek, see Illinois Tool Works
- General Electric Company
- Generon IGS Americas, see Innovative Gas Systems
- Gore (WL) & Associates Incorporated
- Graver Technologies, see Berkshire Hathaway
- Hydranautics, see Nitto Denko
- Illinois Tool Works Incorporated
- Innovative Gas Systems Incorporated
- ITT Corporation
- Koch Industries Incorporated
- L' Air Liquide SA
- Life Technologies Corporation
- Linde AG
- Marmon Group, see Berkshire Hathaway
- MEDAL, see L' Air Liquide
- Medtronic Incorporated
- Membrana, see Polypore International
- Microporous Products, see Polypore International
- Millipore Corporation
- Nitto Denko Corporation
- Pall Corporation
- Parker-Hannifin Corporation
- Polypore International Incorporated
- Praxair Incorporated
- PTI Technologies, see ESCO Technologies
- Sartorius AG
- Siemens AG
- Sigma-Aldrich Corporation
- Spectrum Laboratories Incorporated
- SpinTek Filtration LLC
- SPX Corporation
- Supelco, see Sigma-Aldrich
- 3M Company
- Whatman, see General Electric
- Other Companies
LIST OF TABLES
SECTION I -- EXECUTIVE SUMMARY
SECTION II -- MARKET ENVIRONMENT
- 1 Macroeconomic Indicators
- 2 Personal Consumption Expenditures
- 3 Population & Households
- 4 Pollution Control Equipment Shipments
- 5 Selected Membrane Material Prices
- 6 Membrane Separation System Demand
SECTION III -- TECHNOLOGY OVERVIEW
- 1 Advantages & Disadvantages of Membrane Separation Technologies
- 2 Membrane Separation Spectrum
SECTION IV -- TYPES
- 1 Membrane Demand by Type
- 2 Polymeric Membrane Demand
- 3 Cellulosic Membrane Demand by Application
- 4 Polysulfone & Nylon Membrane Demand by Application
- 5 Other Polymeric Membrane Demand by Application
- 6 Nonpolymeric Membrane Demand by Type & Application
- 7 Ceramic Membrane Demand
- 8 Other Nonpolymeric Membrane Demand
SECTION V -- APPLICATIONS
- 1 Membrane Material Demand by Application
- 2 Microfiltration Membrane Demand by Type
- 3 Microfiltration Membrane Demand by Market
- 4 Reverse Osmosis Membrane Demand by Type
- 5 Reverse Osmosis Membrane Demand by Market
- 6 Ultrafiltration Membrane Demand by Type
- 7 Ultrafiltration Membrane Demand by Market
- 8 Pervaporation Membrane Demand by Type
- 9 Pervaporation Membrane Demand by Market
- 10 Membrane Demand in Other Applications by Type & Market
SECTION VI -- MARKETS
- 1 Membrane Demand by Market
- 2 Water Withdrawal & Use
- 3 Water & Wastewater Treatment Market for Membranes
- 4 Water Treatment Market for Membranes by Application & Segment
- 5 Municipal Water Treatment Market for Membranes
- 6 Industrial Water Treatment Market for Membranes
- 7 Ultrapure Water Treatment Market for Membranes
- 8 Residential Water Treatment Market for Membranes
- 9 Wastewater Treatment Market for Membranes
- 10 Food & Beverage Shipments
- 11 Food & Beverage Processing Market for Membranes
- 12 Food Processing Market for Membranes by Application
- 13 Beverage Processing Market for Membranes by Application
- 14 Pharmaceutical & Healthcare Indicators
- 15 Pharmaceutical & Medical Market for Membranes by Application
- 16 Chemical Product Shipments
- 17 Chemical Processing Market for Membranes by Application
- 18 Industrial Gas Shipments
- 19 Industrial Gas Market for Membranes by Application
- 20 Other Markets for Membranes by Application
SECTION VII -- INDUSTRY STRUCTURE
- 1 US Membrane Material Sales by Company, 2009
- 2 Selected Acquisitions & Divestitures
- 3 Selected Cooperative Agreements
LIST OF CHARTS
SECTION II -- MARKET ENVIRONMENT
- 1 World Membrane Separation Materials Demand by Region, 2009
SECTION III -- TECHNOLOGY OVERVIEW
- 1 Dead-End & Crossflow Membrane Separation Processes
SECTION IV -- TYPES
- 1 Polymeric Membrane Demand in Volume & Value Terms, 2009
SECTION V -- APPLICATIONS
- 1 Membrane Material Demand by Application, 2009
SECTION VI -- MARKETS
- 1 Membrane Demand by Market, 2009
- 2 Water & Wastewater Treatment Market for Membranes, 1999-2019
- 3 Water Treatment Market for Membranes by Segment, 2009
SECTION VII -- INDUSTRY STRUCTURE
- 1 US Membrane Material Market Share by Company, 2009
預估水處理將成為膜分離技術產業的最大市場
2010年05月31日
Global Information, Inc.已開始銷售美國市場調查公司The Freedonia Group所發行的報告書「MEMBRANE SEPARATION TECHNOLOGIES to 2014 (US industry forecasts for 2014 & 2019) (膜分離技術(美國業界預測:2014年及2019年))」
上下水道處理在2009年時成為膜(分離技術)的最大市場。為使該區塊的需求達成政府所規定義務的要件,藉由越來越需膜分離技術的上下水道法規而變得活躍。另一個促進要因乃許多美國地區擴大水保全的必要性。這些動向,尤其是對地方自治體及產業區塊有很大的影響。
越來越多的產業為了利用水及削減廢棄物處理費用,或提高水的再利用及材料的回收而利用膜(分離)。依據該報告,今後對薄膜材料的需求,預估將以年率8.0%擴大,2014年時達到48億美元。膜分離技術產業,預估將因對多樣化的市場須高純度水準的主要流體製程繼續關心而促進其成長。此外,其成長因更具耐久性的材料、或更高純度流動產品的附加價值、對高性能的膜需求增加而得以支撐。
預測非高分子薄膜材料到2014年為止將急速成長
在嚴酷條件下的性能界限及因「生物學的污損•堵塞」傾向,高分子薄膜材料對與來自非高分子膜的高水平競爭逐漸顯示其脆弱性。相對地,高分子薄膜材料因初期費用低及對廣泛產品的適用性,領導了2009年的市場。預測對金屬、陶瓷、及包含複合型非高分子材料之需求,到2014年為止將急速擴大。非高分子材料再加上低的維修成本,在極度溫度下因性能佳及廣泛的pH領域性質而深受其惠。
化學處理成為最高的成長機會之一
在膜分離技術產業中,「成長的絕佳機會,不只是環境處理•改善與燃料電池的小規模市場,預估也會出現在化學處理及醫藥品•醫療市場中」。其他的膜(分離技術)市場有食品/飲料加工及工業用天然氣生產。
精密濾過膜佔全部需求的最大市佔率
依據The Freedonia Group的調查,「一般認為精密濾過在全部需求中佔最大市佔率。界限濾過及逆滲透膜兩者都有高純度流動,預測會更加擴大」。在主要應用中最獲利的預測為高成長專業市場常使用透過氣化分離法的膜。其他膜分離技術的種類有天然氣分離法、透析法、電滲析法、及奈米濾過法。
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