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市場調査レポート

世界の膜式下水処理市場

Global Market for Membrane Wastewater Treatment

発行 SBI Energy (aka Specialist In Business Information) 商品コード 252815
出版日 ページ情報 英文 183 Pages
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世界の膜式下水処理市場 Global Market for Membrane Wastewater Treatment
出版日: 2012年10月05日 ページ情報: 英文 183 Pages
概要

膜式(メンブレン式)下水処理市場は、世界的な景気後退の後、2010〜2011年に大幅な回復を遂げました。2007〜2012年の年平均(CAGR)成長率は13%、2012年末の世界市場の規模は8億1700万米ドルと推計されています。今後も景気回復と共に市場は成長し、2012〜2021年の年平均(CAGR)成長率は16%、2021年の市場規模は約30億米ドルと予想されています。

当レポートでは、膜式排水処理(MWWT)の世界市場について分析し、技術の概要や利点、世界全体の市場規模・成長率の動向(過去5年間の実績値と今後10年間の予測値)、サプライチェーンと販売促進活動、雇用創出効果、世界の主要企業のプロファイル(概要・実績・製品構成・近年の動向)、エンドユーザーの概要(大都市、中小都市、製造業、その他)などを調査・推計して、その結果を概略以下の構成でお届けします。

第1章 エグゼクティブ・サマリー

第2章 膜式下水処理技術の概要

  • 分析範囲
  • 膜式下水処理技術とその運用
  • 膜式下水処理技術の活用分野
  • 膜式下水処理技術:システムの概要と必要条件
  • 膜式下水処理技術の需要
  • 膜式下水処理技術の制度上・環境上の利点
  • 他の競合技術との比較
  • サマリー

第3章 市場規模・成長率

  • 分析範囲
  • 市場評価の手法
  • 市場の起源・遠隔・現状
  • 市場規模・成長率への影響要因
  • 全世界の下水の発生量・処理量
  • 各種のMWWT技術の市場(全4種)
  • サマリー
  • 参考情報
  • 分析範囲
  • MWWT技術製品の価格設定
  • MWWT製品・産業の動向
  • サマリー

第5章 サプライチェーンと販売促進活動

  • 分析範囲
  • サプライチェーン
  • 製品のプロモーション活動
  • サマリー

第6章 雇用創出効果の推定

  • 分析範囲
  • 雇用創出の形態
  • 手法
  • 雇用創出効果の推計
  • サマリー

第7章 競合企業のプロファイル

  • 分析範囲
  • 企業の選択手法
  • AMIAD WATER SYSTEMS LTD.
  • DEGREMONT TECHNOLOGIES LTD. - AQUASOURCE
  • GE WATER & PROCESS TECHNOLOGIES
  • H2O INNOVATION INC
  • HYDRANAUTICS・日東電工
  • INGE GMBH
  • クボタ
  • OVIVO - GLV INC
  • PALL CORPORATION
  • PENTAIR INC
  • SEVERN TRENT SEVICES
  • SIEMENS WATER TECHNOLOGIES
  • VEOLIA WATER SOLUTIONS & TECHNOLOGIES
  • XYLEM INC.

第8章 エンドユーザー

  • 分析範囲
  • 膜式下水処理技術のエンドユーザー
  • 調達意志の決定
  • サマリー
目次
Product Code: SB6821719

Abstract

Wastewater is, at once, an environmental hazard and a potentially recoverable resource. Generated from a wide array of processes and activities, wastewater may contain hazardous toxins, heavy metals, oils and greases, nutrients, bacteriological components, viruses, pharmaceuticals, and an array of other pollutants. If released into natural or managed waters, these pollutants can contribute substantially to downstream water quality impairments and impact both human health and ecosystems. Fortunately a wide array of wastewater treatment technologies is available, including physical treatments, chemical treatment, biological treatment, screening, and membrane filtration. These technologies, which remove, destroy, or transform pollutants into less harmful by-products, are varied and highly specific based on wastewater characteristics, volume, needed process flow rates, and the ultimate disposal or reuse selected for the treated wastewater.

Membrane wastewater treatment technologies were introduced in the laboratory in the 1950s and 1960s. By the 1990s, membrane cleaning (rather than simple replacement) was incorporated into product design, allowing use for the treatment of drinking water and production of recycled wastewater. Today, membrane wastewater treatment technologies are advancing rapidly, spurred along by a series of incremental technological advances, are smaller, cheaper, and more efficient, and are being deployed for a widening suite of wastewater applications. As a result, U.S. and global markets for membrane wastewater treatment technologies are blossoming from their once limited niches and into mainstay applications for municipal and industrial wastewater treatment.

Membrane wastewater treatment technologies that are currently available can be broken down into four categories: low pressure membranes including (1) microfiltration membrane systems, which include membrane bioreactor (MBR), physical microfiltration, and prefiltration applications; (2) ultrafiltration membrane systems, which utilize a smaller pore size than microfiltration, capable of removing bacteria and viruses; and high pressure membranes including (3) nanofiltration, which is also capable of removing most chemical pollutants and multivalent ions, and (4) reverse osmosis, which can also remove monovalent ions (salts). Applications for membrane wastewater treatment technologies include treatment of both industrial and municipal wastewater, in support of discharge to natural waters or other disposal; prefiltration, especially where low pressure membranes are applied in sequence with high pressure membranes; reclamation for recycled water including municipal, agricultural, and industrial reuse; and emerging applications including potable water supply enhancement.

Persistent and ongoing membrane cost reductions over the last two decades, combined with updated technologies that are cutting O&M costs, are driving strong demand for membrane wastewater treatment technologies. Public sector demand and regulatory statutes are also driving more widespread implementation of wastewater recycling, to which membrane technologies are well suited. Membrane technologies also provide effective treatment in a fraction of the area required for conventional treatment. In developed nations, membrane wastewater treatment technologies are being selected because they provide high quality, consistent treatment to meet increasingly stringent discharge requirements and ever lowering pollutant detection limits. In developing markets, installation of membrane wastewater treatment technologies is driven by increased wastewater concerns associated with recent and ongoing industrialization, combined with demand for portable and remote systems, and an increasing reliance on high quality discharge suitable for beneficial reuse.

Led by growth in the low pressure membrane segment, membrane wastewater treatment technology markets rebounded strongly in 2010 and 2011, following the global economic turndown. By the close of 2012, global membrane wastewater treatment technology markets are expected to reach $817 million, equivalent to a 2007 to 2012 CAGR of 13%. With the ongoing economic recovery, demand for membrane wastewater treatment technologies is anticipated to continue to expand, with global markets reaching almost $3 billion by 2021, equivalent to a 2012 to 2021 CAGR of 16%. At that time, low pressure membrane technologies will maintain the larger market share, but high pressure technologies will achieve higher percentage growth rates.

The market expansion projected for membrane wastewater treatment technologies is rooted in industrial productivity and development and expansion of municipal and packaged wastewater treatment systems. Key regional considerations include trends in upgrading of existing facilities, demand for new facilities, shifts towards higher wastewater control standards in Asia and especially in China, and control and removal of emerging pollutants such as pharmaceuticals. As technology cost and operation period energy requirements for membrane technologies continue to decline, membrane wastewater treatment technologies are expected to find application across a broadening range of industrial and municipal installation, including strong increases in wastewater recycling, as well as increased and enhanced industrial process water reuse and recycling for non-industrial uses. Demand for reclamation is particularly strong in arid regions where limited water supply is available. In these instances, treating wastewater for reuse is often preferable to desalination or long range procurement fresh water from geographically distant sources.

Membrane Wastewater Treatment Technologies, Global Markets contains comprehensive data on the worldwide market for membrane wastewater treatment technologies (microfiltration, ultrafiltration, nanofiltration, and reverse osmosis), including historic (2007-2011) and forecast (2012-2021) market size data in terms of the dollar value of product shipments. The report identifies key trends affecting the marketplace, along with trends driving growth, and central challenges to further market development. The report also profiles key leading startups and established manufacturers of membrane wastewater treatment technologies that are most relevant to the wastewater industry.

Report Methodology

The information in Membrane Wastewater Treatment Technologies, Global Markets is based on data from the U.S. Department of Commerce, other U.S. executive agencies, the U.S. Census Bureau, the U.S. Environmental Protection Agency, U.S. national laboratories, the Chinese National Bureau of Statistics, the Australian and New Zealand Environment and Conservation Council, Environment Canada, Eurostat, U.S. and global energy research institutions, the European Commission, the United Nations, various trade associations, business and academic journals, company literature and websites, Securities and Exchange Commission reportings, research services such as Simmons Market Research Bureau, and direct interviews with industry insiders and governmental specialists in the membrane wastewater treatment market.

What You'll Get in This Report [to be updated as report nears completion] Membrane Wastewater Treatment Technologies, Global Markets makes important predictions and recommendations regarding the near and mid-term future of this market. It pinpoints methods that current and prospective industry players can capitalize on existing trends, spearhead new trends, and identify and expand into niche and specialty markets. No other market research report provides both comprehensive analysis and extensive, quality data that Membrane Wastewater Treatment Technologies, Global Markets offers. Plus, you'll benefit from extensive data, presented in easy-to-read and practical charts, tables and graphs.

How You'll Benefit from This Report

If your company is already doing business in the membrane wastewater treatment market, in associated manufacturing or service industries, or is considering making the leap, you will find this report invaluable, as it provides a comprehensive package of information and insight not offered in any other single source. Membrane and wastewater treatment technology holders and developers, investors, marketers, midstream industry, and startups will also benefit from key insights into market structure, the supply chain, projects worldwide, and industry suppliers associated with membrane wastewater treatment technologies. The report provides an extensive review of markets for membrane wastewater treatment technologies, from 2007 as well as projections and trends through 2021.

This report will also help:

  • Marketing managers identify market opportunities and develop targeted promotion plans for waste to energy technologies, components, materials, and services.
  • Research and development professionals stay on top of competitor initiatives and explore demand for membrane wastewater treatment technologies, components, materials, and associated services.
  • Business development executives, entrepreneurs, and venture capitalists understand the dynamics of the industry/market, identify possible partnerships, and evaluate the pros and cons of investment in the membrane wastewater treatment industry.
  • Advertising agencies working with clients in the wastewater industry to understand the market for membrane wastewater treatment technologies, their application, and the product procurement and project construction process; to develop messages and images that compel consumers to invest in companies involved in supply and product chains for membrane wastewater treatment technologies.
  • Information and research center librarians provide market researchers, brand and product managers and other colleagues with the vital information they need to do their jobs more effectively."

Table of Contents

CHAPTER 1 EXECUTIVE SUMMARY

  • SCOPE
  • GENERAL BACKGROUND ON MWWT TECHNOLOGIES
  • GLOBAL WASTEWATER GENERATION AND TRENDS
  • MWWT TECHNOLOGIES
  • MWWT GLOBAL MARKETS
  • MWWT COST AND PRODUCT TRENDS
  • SUPPLY CHAIN
  • PRODUCT PROMOTION
  • JOB CREATION
  • MWWT END USERS
  • SUMMARY

CHAPTER 2 OVERVIEW OF MEMBRANE WASTEWATER TREATMENT TECHNOLOGIES

  • SCOPE
  • MEMBRANE WASTEWATER TREATMENT TECHNOLOGIES AND OPERATION
  • APPLICATIONS FOR MEMBRANE WASTEWATER TREATMENT TECHNOLOGIES
    • Municipal
    • Centralized Municipal Facilities
    • Decentralized Facilities Including Packaged Systems
    • Industrial
    • General Characteristics of Industrial Wastewater Treatment
    • Key/Primary Applicable Industries
  • MEMBRANE WASTEWATER TREATMENT TECHNOLOGIES: SYSTEM DESCRIPTIONS AND REQUIREMENTS
    • Microfiltration Membranes
    • Ultrafiltration Membranes
    • Nanofiltration Membranes
    • Reverse Osmosis
    • Emerging Technologies
  • DEMAND FOR MEMBRANE WASTEWATER TREATMENT TECHNOLOGIES
    • History of Membrane Technologies for Wastewater Treatment
    • Development of Membrane Wastewater Treatment Projects; Current Institutional and Industry
    • Demand for Membrane Wastewater Treatment Technologies
  • INSTITUTIONAL AND ENVIRONMENTAL BENEFITS OF MEMBRANE WASTEWATER TREATMENT TECHNOLOGIES
    • Waterborne Pollutant Emissions Reductions
    • Water Supply Including Recycled/Reclaimed Water
    • Potential for Potable Water Supply
    • Other
  • COMPARISON TO OTHER/COMPETING TECHNOLOGIES
  • SUMMARY

CHAPTER 3 MEMBRANE WASTEWATER TREATMENT TECHNOLOGIES - MARKET SIZE AND GROWTH

  • SCOPE
  • MARKET ASSESSMENT METHODOLOGY
  • MARKET ORIGINS, HISTORY, AND PRESENT TRENDS
    • Initial Development and Emergence of a Viable Commercial MWWT Market
    • Recent Market Strength
  • FACTORS AFFECTING MARKET SIZE AND GROWTH
    • Technological Developments and Diversification in MWWT Technology Applications
    • MWWT Technology Cost
    • Role of Recycled Wastewater
    • Wastewater Effluent Regulations and Requirements
    • Role of Competing Technologies
    • Research and Development
    • Trends in Global Industrialization and Development
  • GLOBAL WASTEWATER PRODUCTION AND TREATMENT
    • Review of Global Wastewater Production and Treatment
    • Global Wastewater Installed Base
  • MARKET FOR MWWT TECHNOLOGIES
    • Global Market for MWWT Technologies: Microfiltration
    • Global Market for MWWT Technologies: Ultrafiltration
    • Global Market for MWWT Technologies: Nanofiltration
    • Global Market for MWWT Technologies: Reverse Osmosis
  • SUMMARY
  • REFERENCES
  • SCOPE
  • MWWT TECHNOLOGY PRODUCT PRICING
    • Microfiltration Pricing
    • Ultrafiltration Pricing
    • Nanofiltration Pricing
    • Reverse Osmosis Pricing
  • MWWT PRODUCT AND INDUSTRY TRENDS
    • Operation Costs
    • Membrane Bioreactor Operation Cost Considerations
    • Reverse Osmosis Operation Cost Considerations
    • Fouling Prevention
    • Choice of MWWT Versus Conventional Technologies for Wastewater Treatment
  • SUMMARY

CHAPTER 5 MEMBRANE WASTEWATER TREATMENT TECHNOLOGIES - SUPPLY CHAIN AND PROMOTION

  • SCOPE
  • SUPPLY CHAIN
    • Supply Chain Structure
    • Supply Chain Variants and Optimization
    • Supply Chain Greening
  • PRODUCT PROMOTION
    • Promotion to the End User
    • Promotion to Regulators
  • SUMMARY

CHAPTER 6 MEMBRANE WASTEWATER TREATMENT TECHNOLOGIES - JOB

  • CREATION ESTIMATES
  • SCOPE
  • MODES OF JOB CREATION
  • METHODOLOGY
  • JOB CREATION PROJECTIONS
    • Microfiltration
    • Nanofiltration
    • Reverse Osmosis
  • SUMMARY

CHAPTER 7 MEMBRANE WASTEWATER TREATMENT TECHNOLOGIES -

  • COMPETITIVE PROFILES
  • SCOPE
  • METHODOLOGY AND SELECTION OF PROFILES
  • AMIAD WATER SYSTEMS LTD.
    • Overview
    • Performance
    • Product Portfolio
    • Company News and Developments
  • DEGREMONT TECHNOLOGIES LTD. - AQUASOURCE
    • Overview
    • Performance
    • Product Portfolio
    • Company News and Developments
  • GE WATER & PROCESS TECHNOLOGIES
    • Overview
    • Performance
    • Product Portfolio
    • Company News and Developments
  • H2O INNOVATION INC
    • Overview
    • Performance
    • Product Portfolio
    • Company News and Developments
  • HYDRANAUTICS - NITTO DENKO CORPORATION
    • Overview
    • Performance
    • Product Portfolio
    • Company News and Developments
  • INGE GMBH
    • Overview
    • Performance
    • Product Portfolio
    • Company News and Developments
  • KUBOTA
    • Overview
    • Performance
    • Product Portfolio
    • Company News and Developments
  • OVIVO - GLV INC
    • Overview
    • Performance
    • Product Portfolio
  • PALL CORPORATION
    • Overview
    • Performance
    • Product Portfolio
    • Company News and Developments
  • PENTAIR INC
    • Overview
    • Performance
    • Product Portfolio
    • Company News and Developments
  • SEVERN TRENT SERVICES
    • Overview
    • Performance
    • Product Portfolio
    • Company News and Developments
  • SIEMENS WATER TECHNOLOGIES
    • Overview
    • Performance
    • Product Portfolio
    • Company News and Developments
  • VEOLIA WATER SOLUTIONS & TECHNOLOGIES
    • Overview
    • Performance
    • Product Portfolio
    • Company News and Developments
  • XYLEM INC.
    • Overview
    • Performance
    • Product Portfolio
    • Company News and Developments

CHAPTER 8 MEMBRANE WASTEWATER TREATMENT TECHNOLOGIES: END USERS

  • SCOPE
  • MEMBRANE WASTEWATER TREATMENT TECHNOLOGY END USERS
    • Moderate to Large Scale Municipal End Users
    • Small Scale Municipal End Users
    • Industrial End Users
    • Specialty End Users
  • DECISION TO PURCHASE
  • SUMMARY
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