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市場調查報告書

全球膜生物反應器市場

Membrane Bioreactors: Global Markets

出版商 BCC Research
出版日期 2011年03月 商品編碼 180769
內容資訊 英文 222 Pages
價格
US $ 4850 PDF by E-mail ( Single User License)
US $ 5950 PDF by E-mail (Business Unit License)
US $ 8500 PDF by E-mail (Enterprise License)


全球膜生物反應器市場 是由出版商BCC Research在2011年03月所出版的。 這份英文市場調查報告書包含222 Pages 價格從美金4850起跳。

簡介

2010年全球膜生物反應器(MBR)市場約為3億3,700萬美金規模。預計今後將以CAGR13.2%持續成長,並於2015年達到6億2,700萬美金規模。膜生物反應器(MBR)市場較規模變大之廢水處理設備或廢水處理用其他膜市場成長更快。

本報告為,調查分析全球膜生物反應器市場現況及展望,並匯整膜生物反應器(MBR)系統概要、系統配置效能、MBR技術主要應用、全球主要地區之市場規模表現及預測(∼2015年)、主要企業之市場佔有率、企業簡介等,以下列摘要形式闡述。

第1章 簡介

第2章 實施概要

第3章 概要

  • 歷史
  • 處理水量
  • MBR系統概要
  • 微生物
  • 系統配置:沉浸、外部型
  • 技術開發
  • 效能
  • 競爭之廢水處理

第4章 MBR技術應用

  • 家庭及都市廢水
  • 工業廢水
  • 垃圾填埋場滲濾液
  • 大廈內水循環
  • 其他廢水
  • 水再生回用
  • 美國法規活動
  • 國際法規活動
  • 趨勢及技術開發

第5章 專利調查

  • 企業別
  • 應用別

第6章 北美MBR技術市場

  • 美國
  • 加拿大
  • 北美之MBR經驗

第7章 全球MBR技術市場

  • 外國對上下水道計畫之直接投資
  • 21世紀之水問題
  • BELLAGIO之框架
  • MBR系統之市場規模:地區別
  • 歐洲
  • 歐洲MBR系統市場
  • 歐洲之MBR經驗:概要
  • 國家別分析
  • 中東、非洲之MBR系統市場
  • 拉丁美洲MBR系統市場

第8章 產業結構

  • 複合式企業
  • 上下水道處理公司
  • 專業供應商
  • 競合策略
  • 市場佔有率
  • 企業簡介

第9章 附錄

圖表

目錄

Abstract

REPORT HIGHLIGHTS

  • Valued at an estimated $337 million in 2010, the global MBR market is rising at a compound annual growth rate (CAGR) of 13.2% and is expected to reach $627 million by 2015. The MBR market is growing faster than both the larger market for wastewater treatment equipment and the market for other membrane systems treating wastewater.
  • MBRs used for treating municipal and domestic sewage hold the largest market value and largest treatment capacity.Valued at $216 million in 2010, this application will remain the largest market for MBRs, increasing by a compound annual growth rate (CAGR) of 15.2% to $439 million in 2015.
  • Landfill leachate treatment is valued at $18 million and is expected to increase at a compound annual growth rate (CAGR) of 5.9% during the forecast period, reaching $24 million in 2015. Until recently, this application has been slow find widespread use outside of Western Europe.

STUDY GOAL AND OBJECTIVES

This comprehensive market research report evaluates the global market for membrane bioreactors (MBRs) used for wastewater treatment. Existing and potential markets for MBRs on the global stage are identified. The goals are to provide meaningful information, unbiased analysis, and an assessment of the roles that MBR systems can play now and in the future of wastewater treatment technology. Twenty-eight countries' water needs are evaluated in four global regions.

REASONS FOR DOING THE STUDY

The need for pure water is a problem of global proportions. In the earth' s hydrologic cycle, fresh water supplies are fixed and constant, while global water demand is growing. With each passing year, the quality of the planet' s water measurably deteriorates, presenting challenges for the major users: the municipal, industrial, and environmental sectors. Water treatment has become an area of global concern as individuals, communities, industries, countries, and their national institutions strive for ways to keep this essential resource available and suitable for use. Membrane bioreactor systems (MBRs) have, over the past 10 years, emerged as an effective solution to transforming various wastewaters into high-quality effluent suitable for discharge to the environment and increasingly into a reusable product.

SCOPE OF REPORT

The study is divided into chapters dealing with the membrane component of MBRs, the biological component, system configurations, typical MBR performance, cost analyses, system applications, companies active in the market, market share, and industry structure. Quantitative evaluations are given for the major market segments, historically and for a 5-year horizon. The global scope of the MBR market is identified within four major geographical regions with information on regional economics, water needs, MBR experience, and proposed projects.

The MBR market in this study is centered on biological/membrane wastewater treatment for the municipal, industrial, and environmental sectors. The evaluated market does not include catalytic membrane reactors or enzymatic membrane reactors.

METHODOLOGY

Both primary and secondary research methodologies were used in preparing this study. Research for this report began with a re-analysis of the available technical and business literature, as well as an evaluation of the personal records of the water treatment industry available to the author. Conversations with industry experts and company representatives and a review of their published works provide the backbone for an evaluation of the water treatment equipment industry. Other sources of information include product literature from system suppliers, patent information, and annual reports. .

Growth rates of MBR systems are not the same for all world regions and are not increasing from the same base. Common to all regions, however, is the fact that sales of the technology are growing faster than the gross domestic products (GDPs) of countries installing the systems and more rapidly than the industries that use them. Forecasts in this report are based on announced projects and anticipated capacity additions over the next 5 years.

MBR costs are based on published data and interviews with industry participants. MBR “systems” include headworks (screens, pumps, grit chamber) and other pretreatment systems, membrane units, reactor vessels, and other process tanks. Site costs, system installation costs, piping, instrumentation, and electrical/electronic controls are not included in the cost analysis.

The capital cost of a 50,000 gpd plant is estimated at $350,000, a 100,000 gpd plant at $500,000, and a 500,000 gpd plant at $2 million. For systems 1 mgd and larger, capital costs start at $3.5 million. The largest percentage of new system installations, 90% or more, will continue to fall into the 5,000 gpd to 500,000 gpd range (most of those, 60% or so, will have capacities of less than 25,000 gpd). About 5% or fewer will be larger than 1 mgd.

Currency conversions are normalized in so far as possible. Much of the historic information is from BCC data.

INFORMATION SOURCES

The information sources for this study include online research, patent literature, technical journals, and interviews with principals in the industry. In evaluating the global market for membrane bioreactors, information was obtained from the U.S. Department of Commerce; U.S. Department of State; Aquastat, the United Nations' global water information system; and publications from the American Water Works Association, the Water Environment Federation, the European Commission, the Water Resources Institute, and various academic institutions. Projections for each market are made in terms of constant dollars. Historical values are for the year given.

ANALYST CREDENTIALS

During the past 14 years, Susan Hanft has authored more than 30 market research reports for BCC Research in the fields of membrane technology, water and wastewater treatment, and separations used in food and beverage manufacture, medicine, and biotechnology.

Table of Contents

Membrane Bioreactors: Global Markets

Chapter - 1: INTRODUCTION - Complimentary

  • STUDY GOAL AND OBJECTIVES
  • REASONS FOR DOING THE STUDY
  • INTENDED AUDIENCE
  • SCOPE OF REPORT
  • METHODOLOGY
  • INFORMATION SOURCES
  • ANALYST CREDENTIALS
  • RELATED BCC REPORTS
  • BCC ONLINE SERVICES
  • DISCLAIMER

Chapter - 2: EXECUTIVE SUMMARY

  • Table 0: MEMBRANE BIOREACTOR MARKET, THROUGH 2015
  • Figure 0: MEMBRANE BIOREACTOR MARKET, 1990-2015

Chapter - 3: OVERVIEW

  • HISTORY
  • AMOUNTS OF WATER TO BE TREATED
  • MBRS IN BRIEF
  • MICROORGANISMS
  • MEMBRANES
  • SYSTEM CONFIGURATION: SUBMERGED, EXTERNAL
  • TECHNOLOGY DEVELOPMENT
  • PERFORMANCE
  • COMPETING WASTEWATER TREATMENT TECHNOLOGIES
    • Table 6: TECHNOLOGIES USED IN WASTEWATER TREATMENT

Chapter - 4: APPLICATIONS FOR MBR TECHNOLOGY

  • DOMESTIC, MUNICIPAL WASTEWATER
  • INDUSTRIAL WASTEWATER
  • LANDFILL LEACHATE
  • IN-BUILDING WATER RECYCLING
  • OTHER WASTEWATER
  • WATER RECLAMATION AND REUSE
  • U.S. REGULATORY EFFORTS
  • INTERNATIONAL REGULATORY EFFORTS
  • TRENDS AND TECHNICAL DEVELOPMENTS

Chapter - 5: PATENT SURVEY

  • BY COMPANY
  • BY APPLICATION
    • Table 16: PATENT SURVEY, BY APPLICATION, 1991-2010
    • Figure 11: PATENT SURVEY, BY APPLICATION, 1001-2010

Chapter - 6: THE NORTH AMERICAN MARKET FOR MBR TECHNOLOGY

  • U.S.
  • CANADA
  • NORTH AMERICAN MBR EXPERIENCE
    • Table 18: MARKET SHARE FOR MBR MANUFACTURERS IN NORTH AMERICA, 2010
    • Figure 13: MARKET SHARE FOR MBR MANUFACTURERS IN NORTH AMERICA, 2010

Chapter - 7: GLOBAL MARKETS FOR MBR TECHNOLOGY

  • FOREIGN DIRECT INVESTMENT IN WATER/WASTEWATER PROGRAMS
  • WATER CHALLENGES IN THE 21ST CENTURY
  • BELLAGIO FRAMEWORK
  • MARKET VALUE MBR SYSTEMS BY GLOBAL REGION
  • EUROPE
  • THE EUROPEAN MARKET FOR MBRS
  • OVERVIEW OF THE EUROPEAN MBR EXPERIENCE
  • COUNTRY ANALYSIS
  • THE MIDDLE EAST/AFRICAN MARKET FOR MBRS
  • THE LATIN AMERICAN/CARIBBEAN MARKET FOR MBRS
    • Table 27: VALUE OF THE LATIN AMERICAN/CARIBBEAN MARKET FOR MBRS, THROUGH 2015
    • Figure 20: VALUE OF THE LATIN AMERICAN/CARIBBEAN MARKET FOR MBRS, 1990-2015

Chapter - 8: INDUSTRY STRUCTURE

  • CONGLOMERATES
  • WATER/WASTEWATER TREATMENT COMPANIES
  • SPECIALIZED PROVIDERS
  • STRATEGIES FOR REMAINING COMPETITIVE
  • MARKET SHARE
  • COMPANY PROFILES

Chapter - 9: APPENDIX I

  • Table 43: PATENT SURVEY, JANUARY 29, 1991-DECEMBER 18, 2007

List of Tables

  • Summary Table: MEMBRANE BIOREACTOR MARKET, THROUGH 2015
  • Table 1: COMPARISON OF AEROBIC, ANAEROBIC MBRS
  • Table 2: GLOBAL VALUE OF MBRS, BY TYPE OF MICROBIAL PROCESS, THROUGH 2015
  • Table 3: VALUE OF MBRS, BY CONFIGURATION, THROUGH 2015
  • Table 4: ADVANTAGES AND DISADVANTAGES OF MBR CONFIGURATIONS
  • Table 5: MAJOR MANUFACTURERS OF MBRS AND THEIR PRODUCTS
  • Table 6: TECHNOLOGIES USED IN WASTEWATER TREATMENT
  • Table 7: CAPITAL COST COMPARISONS OF NEW CAS PLANT AND NEW MBR PLANT, 1,000 P.E.
  • Table 8: REDUCTIONS IN AERATION ENERGY CONSUMPTION, 1998-2006
  • Table 9: DECREASES IN MEMBRANE REPLACEMENT COSTS, 1998-2006
  • Table 10: WORLD' S 20 LARGEST MBR PLANTS, (AS OF JUNE 2010)
  • Table 11: APPLICATION SHARE FOR MBR TECHNOLOGY, BY WASTEWATER TYPE, 2010
  • Table 12: MARKET VALUE BY APPLICATION, THROUGH 2015
  • Table 13: TYPICAL CONTAMINANTS IN UNTREATED MUNICIPAL WASTEWATER
  • Table 14: POTENTIAL WASTEWATER COMPONENTS BY INDUSTRY
  • Table 15: PATENT SURVEY, BY COMPANY, 1991-2010
  • Table 16: PATENT SURVEY, BY APPLICATION, 1991-2010
  • Table 17: VALUE OF THE NORTH AMERICAN MARKET FOR MBRS, THROUGH 2015
  • Table 18: MARKET SHARE FOR MBR MANUFACTURERS IN NORTH AMERICA, 2010
  • Table 19: EVALUATION OF MBRS FOR DEVELOPING COUNTRIES
  • Table 20: VALUE OF MBR SYSTEMS BY GLOBAL REGION, THROUGH 2015
  • Table 21: VALUE OF THE EUROPEAN MARKET FOR MBRS, THROUGH 2015
  • Table 22: NUMBER OF INSTALLED MBRS IN THE EU, BY COUNTRY, 2005-2010
  • Table 23: END-USE APPLICATIONS FOR INDUSTRIAL MBRS IN EUROPE, BY INDUSTRY, 2010
  • Table 24: VALUE OF THE ASIAN/PACIFIC MARKET FOR MBRS, 1990-2015
  • Table 25: MUNICIPAL MBR INSTALLATIONS IN JAPAN
  • Table 26: VALUE OF THE MIDDLE EAST/AFRICAN MARKET FOR MBRS, THROUGH 2015
  • Table 27: VALUE OF THE LATIN AMERICAN/CARIBBEAN MARKET FOR MBRS, THROUGH 2015
  • Table 28: MARKET SHARE OF TOTAL INSTALLED CAPACITY, BY COMPANY, 2010
  • Table 29: A3 REFERENCE PLANTS
  • Table 30: ACWA MBR INSTALLATIONS IN THE MIDDLE EAST, 2002-2006
  • Table 31: ASAHI REFERENCE PLANTS, 2007-2010
  • Table 32: GE REFERENCE PLANTS
  • Table 33: HUBER REFERENCE PLANTS
  • Table 34: KEPPEL SEGHERS REFERENCE PLANTS
  • Table 35: PURON REFERENCE PLANTS
  • Table 36: KUBOTA REFERENCE PLANTS
  • Table 37: MITSUBISHI REFERENCE PLANTS
  • Table 38: NOVASEP REFERENCE PLANTS
  • Table 39: ENVIROQUIP REFERENCE PLANTS
  • Table 40: SIEMENS REFERENCE PLANTS
  • Table 41: TORAY REFERENCE PLANTS
  • Table 42: WEHRLE WERK REFERENCE PLANTS
  • Table 43: PATENT SURVEY, JANUARY 29, 1991-DECEMBER 18, 2007

List of Figures

  • Summary Figure: MEMBRANE BIOREACTOR MARKET, 1990-2015
  • Figure 1: GLOBAL FRESH WATER STRESS, 1995 AND FORECAST FOR 2025
  • Figure 2: GLOBAL VALUE OF MBRS, BY TYPE OF MICROBIAL PROCESS, 1990-2015
  • Figure 3: SCHEMATIC OF SUBMERGED MEMBRANE BIOREACTOR
  • Figure 4: SCHEMATIC OF EXTERNAL MEMBRANE BIOREACTOR
  • Figure 5: VALUE OF MBRS, BY CONFIGURATION, 1990-2015
  • Figure 6: REDUCTIONS IN AERATION ENERGY CONSUMPTION, 1998-2006
  • Figure 7: DECREASES IN MEMBRANE REPLACEMENT COSTS
  • Figure 8: APPLICATION SHARE FOR MBR TECHNOLOGY, BY WASTEWATER TYPE, 2010
  • Figure 9: MARKET VALUE BY APPLICATION, 1990-2015
  • Figure 10: PATENT SURVEY, BY COMPANY, 1991-2010
  • Figure 11: PATENT SURVEY, BY APPLICATION, 1001-2010
  • Figure 12: VALUE OF THE NORTH AMERICAN MARKET FOR MBRS, 1990-2015
  • Figure 13: MARKET SHARE FOR MBR MANUFACTURERS IN NORTH AMERICA, 2010
  • Figure 14: VALUE OF MBR SYSTEMS BY GLOBAL REGION, 1990-2015
  • Figure 15: VALUE OF THE EUROPEAN MARKET FOR MBRS, 1990-2015
  • Figure 16: NUMBER OF INSTALLED MBRS IN THE EU, BY COUNTRY, 2010
  • Figure 17: END-USE APPLICATIONS FOR INDUSTRIAL MBRS IN EUROPE, BY INDUSTRY, 2010
  • Figure 18: VALUE OF THE ASIAN/PACIFIC MARKET FOR MBRS, 1990-2015
  • Figure 19: VALUE OF THE MIDDLE EAST/AFRICAN MARKET FOR MBRS, 1990-2015
  • Figure 20: VALUE OF THE LATIN AMERICAN/CARIBBEAN MARKET FOR MBRS, 1990-2015
  • Figure 21: MARKET SHARE OF TOTAL INSTALLED CAPACITY, BY COMPANY, 2010
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