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市場調查報告書

都市用水處理之先進技術

Advanced Technologies for Municipal Water Treatment

出版商 BCC Research
出版日期 2011年04月 商品編碼 180771
內容資訊 英文 217 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)


都市用水處理之先進技術 是由出版商BCC Research在2011年04月所出版的。 這份英文市場調查報告書包含217 Pages 價格從美金4850起跳。

簡介

美國之膜過濾、臭氧消毒、紫外線照射、新氧化過程等近來組成之最新飲用水技術市場,預計2011年將有近19億美金之規模,並以CAGR8.2%持續成長。而被證實其效率、信賴、壽命之都市飲用水膜技術於2011年將可達14億美金,增加CAGR8.8%,達到20億美金成績。另一方面,以氯胺為主之最新消毒系統市場將於2011年達到4億7,850萬美金,以CAGR8.9%增加,於2016年達到7億3,400萬美金規模。

本報告為,分析美國都市用水處理之先進技術,並匯整基礎設施需求、國家及州別、都市預算、設備投資趨勢、氣候變遷等影響、各技術別概要、市場參與企業簡介,以下列摘要形式闡述。

第1章 簡介

第2章 摘要

第3章 概要

  • 飲用水基礎設施需求調查及評估
  • 國家對水之投資
  • 州別預算
  • 都市預算
  • 獲得水源及美國使用度
  • 公共用水供應
  • 氣候變遷
  • 瓶裝水成本
  • 先進水處理設備之投資成本
  • 水源再利用
  • 飲用水處理歷史
  • 最新都市用水處理技術之概要
  • 法規環境
  • 產業結構
  • 專利調查
  • 膜過濾
    • 企業簡介
  • 臭氧
    • 企業簡介
  • 紫外線照射
    • 企業簡介
  • 新的消毒技術
  • 市場參與企業/企業簡介

第4章 國際面

  • 全球水源獲得
  • 永續目標

第5章 附錄1

第6章 附錄2

第7章 附錄3

圖表

目錄

Abstract

REPORT HIGHLIGHTS

  • Combined, the U.S. market for advanced drinking water technologies, made up of membrane filtration, ozone disinfection, UV irradiation, and novel oxidation processes is estimated at nearly $1.9 billion in 2011 and is growing at a compound annual growth rate (CAGR) of 8.2% through 2016.
  • Well proven in terms of efficiency, reliability, and longevity, membrane technology for municipal drinking water is valued at $1.4 billion in 2011, with a predicted compound annual growth rate (CAGR) of 8% throughout the forecast period to reach $2 billion in 2016.
  • The market value of advanced disinfection systems, lead by chloramines, is estimated at $478.5 million in 2011 and is growing at a compound annual growth rate (CAGR) of 8.9% to reach $734 million in 2016.

INTRODUCTION

Depending upon the source and what is included in the estimate, the global market for water and wastewater treatment equipment is reportedly valued at $400 billion to $500 billion. Between $65 billion and $75 billon is related specifically to equipment.

According to the United Nations' Third World Water Development Report (2009), up to $148 billion will need to be invested worldwide in water supplies and wastewater services annually to 2025. That figure reflects chronic underinvestment in water infrastructure. This problem is manifest not only in the developing world, but also in advanced economies, which will need to make considerable investments in the coming years just to maintain services.

The majority of expenditures for water treatment are for conventional water equipment and chemicals; however, an ever growing percentage relates to advanced treatment technologies, including membrane filtration, ultraviolet irradiation, ozone disinfection, and some novel disinfectant systems.

STUDY GOALS AND OBJECTIVES

This BCC marketing report provides an in-depth analysis of the market for advanced municipal drinking water treatment. These methods include membrane filtration, ultraviolet irradiation, ozone disinfection, and a few emerging novel processes. These so-called advanced technologies are known as “advanced” due to their improved effectiveness against a growing range of regulated drinking water contaminants, their decreased production of waste, their nonhazardous properties, their diminished demand for chemical additives, and sometimes their lower energy requirements.

Municipal drinking water treatments, whether physical, biological, or chemical processes, range in sophistication from ancient sieving methods to state-of-the-art computer-controlled techniques. Conventional drinking water treatment is accomplished by methods hundreds of years old. Processes consist of one or more of the following steps: flocculation and sedimentation, in which small particles coagulate into larger ones and settle out of the water stream; rapid sand filtration, to remove remaining particles; and disinfection with chlorine, to kill microbes. None of the traditional technologies will be evaluated in this report except to make comparisons to advanced treatments.

Technical and market drivers are considered in evaluating the current value of the technologies and in forecasting growth and trends over the next 5 years. The conclusions are illustrated with statistical information on markets, applications, industry structure, and dynamics along with technological developments.

REASONS FOR DOING THE STUDY

This report is intended for those who require a thorough analysis of the advanced municipal drinking water treatment industry. It traces significant developments and forecasts important trends, quantifies the various market sectors, and profiles companies active in those areas. Because of the fragmented nature of the industry, it is difficult to find studies that gather extensive data from diverse resources and analyze it in the context of a comprehensive document. This report contains a unique collection of information and conclusions that is difficult to find elsewhere.

SCOPE OF REPORT

This report examines the market for four categories of advanced municipal water treatment: membrane filtration, ultraviolet irradiation, ozone disinfection, and some novel advanced oxidation processes. Five-year projections are provided for market activity and value. Industry structure, technological trends, pricing considerations, R&D, government regulations, company profiles, and competitive technologies are included in the study.

The report is primarily a study of the U.S. market, but due to the international presence of some industry participants, global activities are included when appropriate.

METHODOLOGY

Both primary and secondary research methodologies were used in preparing this study. A comprehensive literature, patent, and Internet search was undertaken and key industry players were queried. Research methodology was both quantitative and qualitative. Growth rates were calculated based on existing and proposed equipment sales for each of the advanced methods during the forecast period. A key table in the report' s overview presents the average capital cost per gallon of water treated by technology type. These figures then were multiplied by anticipated treatment capacity additions during the survey period.

Consumables used in the processes, replacement membranes, UV lamps, and so on, were also taken into account. Values are given in U.S. dollars; forecasts are made in constant U.S. dollars, and growth rates are compounded. Calculations for system sales do not include design or engineering costs.

INFORMATION SOURCES

Information in this report was gleaned from many different sources. SEC filings, annual reports, patent literature, business, scientific, and industry journals, government reports, census information, conference literature, patent documents, online resources, and industry participants have all been researched.

Information from the following industry associations also was reviewed: American Membrane Technology Association, American Water Works Association, International Desalination Association, International Ozone Association, International Ultraviolet Association, Water and Wastewater Equipment Manufacturers Association, Water Environment Federation, and the Water Quality Association.

ANALYST CREDENTIALS

During the past 15 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

Advanced Technologies for Municipal Water Treatment

Chapter - 1: INTRODUCTION - Complimentary

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

Chapter - 2: SUMMARY

  • Table 0: VALUE OF THE MARKET FOR ADVANCED MUNICIPAL WATER TREATMENTS, THROUGH 2016
  • Figure 0: VALUE OF THE MARKET FOR ADVANCED MUNICIPAL WATER TREATMENT, 2002 - 2016

Chapter - 3: OVERVIEW

  • DRINKING WATER INFRASTRUCTURE NEEDS SURVEY AND ASSESSMENT
  • FEDERAL INVESTMENT IN CLEAN WATER
  • STATE BUDGETS
  • MUNICIPAL BUDGETS
  • WATER AVAILABILITY AND USAGE IN THE U.S.
  • PUBLIC WATER SUPPLY
  • CLIMATE CHANGE
  • POTABLE WATER COST
  • CAPITAL COSTS OF ADVANCED WATER TREATMENT EQUIPMENT
  • WATER REUSE
  • HISTORY OF DRINKING WATER TREATMENT
  • OVERVIEW OF ADVANCED MUNICIPAL WATER TREATMENT TECHNOLOGIES
  • REGULATORY CLIMATE
  • INDUSTRY STRUCTURE
  • PATENT SURVEY
  • MEMBRANE FILTRATION
  • COMPANY PROFILES
  • OZONE
  • COMPANY PROFILES
  • ULTRAVIOLET LIGHT
  • COMPANY PROFILES
  • NOVEL DISINFECTION TECHNOLOGIES
  • INDUSTRY PARTICIPANTS/COMPANY PROFILES

Chapter - 4: INTERNATIONAL ASPECTS

  • WORLD ACCESS TO WATER
  • MILLENNIUM GOALS

Chapter - 5: APPENDIX I

  • GLOSSARY

Chapter - 6: APPENDIX II

  • U.S. WATER ASSOCIATIONS

Chapter - 7: APPENDIX III

  • PATENT SURVEY
    • Table 52: PATENT SURVEY

List of Tables

  • Summary Table: VALUE OF THE MARKET FOR ADVANCED MUNICIPAL WATER TREATMENTS, THROUGH 2016
  • Table 1: TOTAL 20-YEAR NEED BY SYSTEM SIZE, SYSTEM TYPE, AND PROJECT TYPE
  • Table 2: TOTAL 20-YEAR NATIONAL REGULATORY NEED TO COMPLY WITH SWDA
  • Table 3: TOTAL NATIONAL 20-YEAR NEED FOR PROPOSED AND RECENTLY PROMULGATED REGULATIONS
  • Table 4: TRENDS IN U.S. WATER USE THROUGH 2005,
  • Table 5: CAPITAL COSTS OF ADVANCED WATER TREATMENT, BY TECHNOLOGY TYPE
  • Table 6: A BRIEF HISTORY OF DRINKING WATER TREATMENT, 4000 B.C.-2011
  • Table 7: ETV DRINKING WATER SYSTEMS EVALUATIONS, 1999- 2009
  • Table 8: COMPARISON OF DISINFECTION METHODS
  • Table 9: DISINFECTION METHODS USED BY WATER TREATMENT PLANTS
  • Table 10: COST OF CONVERTING TO NON-CHLORINE ALTERNATIVES AT MUNICIPAL DRINKING WATER PLANTS
  • Table 11: FORMS OF CHLORINE IN USE AS PRIMARY TREATMENT AT DRINKING WATER PLANTS, 2010
  • Table 12: NATIONAL PRIMARY DRINKING WATER REGULATIONS
  • Table 13: NATIONAL SECONDARY DRINKING WATER REGULATIONS
  • Table 14: DRINKING WATER CONTAMINANT CANDIDATE LIST 3
  • Table 15: CCL3-LISTED CONTAMINANTS WITHOUT SUITABLE ANALYTICAL METHODS FOR NATIONAL DRINKING WATER OCCURRENCE STUDIES
  • Table 16: MERGERS AND ACQUISITIONS IN THE WATER TREATMENT INDUSTRY, 1996-2010
  • Table 17: TOP 20 ENGINEERING FIRMS INVOLVED IN THE WATER SUPPLY SECTOR, 2010
  • Table 18: PATENTS BY TECHNOLOGY, JANUARY 12, 2001 TO JANUARY 11, 2011
  • Table 19: PATENTS BY COMPANY, JANUARY 12, 2001, TO JANUARY 11, 2011
  • Table 20: SALES AND PROJECTIONS FOR MEMBRANE FILTRATION IN MUNICIPAL WATER TREATMENT, BY TECHNOLOGY TYPE, THROUGH 2016
  • Table 21: INSTALLED CAPACITY OF MUNICIPAL MEMBRANE PLANTS, BY TECHNOLOGY TYPE, 2011
  • Table 22: PRIMARY RO PRODUCTS FOR U.S. MUNICIPAL WATER TREATMENT
  • Table 23: FULL-SCALE RO DRINKING WATER INSTALLATIONS IN THE U.S.
  • Table 24: PRIMARY NF PRODUCTS FOR U.S. MUNICIPAL WATER TREATMENT
  • Table 25: FULL SCALE NF DRINKING WATER INSTALLATIONS IN THE U.S.
  • Table 26: FULL SCALE EDR DRINKING WATER INSTALLATIONS IN THE U.S.
  • Table 27: PRIMARY MF PRODUCTS FOR U.S. MUNICIPAL WATER TREATMENT
  • Table 28: FULL SCALE MF DRINKING WATER INSTALLATIONS IN THE U.S.
  • Table 29: PRIMARY UF PRODUCTS FOR U.S. MUNICIPAL WATER TREATMENT
  • Table 30: FULL SCALE UF DRINKING WATER INSTALLATIONS IN THE U.S.
  • Table 31: TYPICAL MEMBRANE SYSTEM SPECS
  • Table 32: COMPANIES SELLING MEMBRANE PRODUCTS FOR MUNICIPAL DRINKING WATER TREATMENT
  • Table 33: MEMBRANE MARKET SHARE, BY COMPANY, 2010
  • Table 34: SALES AND PROJECTIONS FOR OZONE DISINFECTION IN MUNICIPAL WATER TREATMENT, THROUGH 2016
  • Table 35: U.S. OZONE INSTALLATIONS
  • Table 36: TYPICAL OZONE SYSTEM SPECS
  • Table 37: OZONE GENERATOR MANUFACTURERS AND PRODUCTS
  • Table 38: OZONE MARKET SHARE, BY COMPANY, 2010
  • Table 39: SALES AND PROJECTIONS FOR UV IN MUNICIPAL WATER TREATMENT, THROUGH 2016
  • Table 40: UV MANUFACTURERS AND PRODUCTS
  • Table 41: U.S. UV DRINKING WATER INSTALLATIONS, 2010
  • Table 42: TYPICAL UV SYSTEM SPECS
  • Table 43: U.S. UV MARKET SHARE, BY COMPANY, 2010
  • Table 44: SALES AND PROJECTIONS FOR NOVEL DISINFECTION TECHNOLOGIES IN MUNICIPAL WATER TREATMENT, THROUGH 2016
  • Table 45: U.S. CITIES DISINFECTING WITH CHLORAMINES
  • Table 46: NOVEL DISINFECTION TECHNOLOGIES COMPARED
  • Table 47: MANUFACTURERS OF NOVEL DISINFECTION TECHNOLOGIES AND PRODUCTS
  • Table 48: TOP GLOBAL IMPORTERS OF WATER FILTERING AND PURIFYING MACHINERY AND APPARATUS, 2009
  • Table 49: TOP GLOBAL EXPORTERS OF WATER FILTERING AND PURIFYING MACHINERY AND APPARATUS, 2009
  • Table 50: TOP U.S. EXPORT MARKETS FOR WATER FILTERING AND PURIFYING MACHINERY AND APPARATUS, 2006 - 2009
  • Table 51: BEST PROSPECT MARKETS FOR U.S. EXPORTS OF WATER RESOURCE EQUIPMENT, JUNE 2010
  • Table 52: PATENT SURVEY

List of Figures

  • Summary Figure: VALUE OF THE MARKET FOR ADVANCED MUNICIPAL WATER TREATMENT, 2002 - 2016
  • Figure 1: TOTAL 20-YEAR NEED BY SYSTEM SIZE, SYSTEM TYPE, AND PROJECT TYPE
  • Figure 2: DISINFECTION METHODS USED BY WATER TREATMENT PLANTS
  • Figure 3: COST OF CONVERTING TO NON-CHLORINE ALTERNATIVES AT MUNICIPAL DRINKING WATER PLANTS
  • Figure 4: FORMS OF CHLORINE IN USE AS PRIMARY TREATMENT AT DRINKING WATER PLANTS, 2010
  • Figure 5: PATENTS BY TECHNOLOGY, JANUARY 12, 2001 TO JANUARY 11, 2011
  • Figure 6: PATENTS BY COMPANY, JANUARY 12, 2001 TO JANUARY 11, 2011
  • Figure 7: SALES AND PROJECTIONS FOR MEMBRANE FILTRATION IN MUNICIPAL WATER TREATMENT, BY TECHNOLOGY TYPE, 2002-2016
  • Figure 8: COMPARISON OF MEMBRANE PROCESSES
  • Figure 9: INSTALLED CAPACITY OF MUNICIPAL MEMBRANE PLANTS, BY TECHNOLOGY TYPE, 2011
  • Figure 10: MEMBRANE MARKET SHARE BY COMPANY, 2010
  • Figure 11: SALES AND PROJECTIONS FOR OZONE DISINFECTION IN MUNICIPAL WATER TREATMENT, 2002 - 2016
  • Figure 12: OZONE MARKET SHARE, BY COMPANY, 2010
  • Figure 13: SALES AND PROJECTIONS FOR UV IN MUNICIPAL WATER TREATMENT, 2002-2016
  • Figure 14: U.S. UV MARKET SHARE, BY COMPANY, 2010
  • Figure 15: SALES AND PROJECTIONS FOR NOVEL DISINFECTION TECHNOLOGIES IN MUNICIPAL WATER TREATMENT, 2002-2016
  • Figure 16: TOP GLOBAL IMPORTERS OF WATER FILTERING AND PURIFYING MACHINERY AND APPARATUS, 2009
  • Figure 17: TOP GLOBAL EXPORTERS OF WATER FILTERING AND PURIFYING MACHINERY AND APPARATUS, 2009

Press Release

預測全球都市用水處理市場到2016年為止將以CAGR8.2%擴大

2011年05月09日

Global Information, Inc.已開始銷售美國市場調查公司BCC Research所發行的報告書「Advanced Technologies for Municipal Water Treatment (都市用水處理之先進技術)」。

一般認為全球先進都市用水處理技術市場於2011年時將達到19億美元規模。調查分析者預測,該市場於2016年將達到約28億美元,5年間的年複合成長率(CAGR)為8.2%。

該市場的最大區塊是膜系統,預測5年的CAGR是8%,一般認為將從2011年的14億美元到2016年時接近21億美元。而其他的市場,先進殺菌系統將從2011年的4億7,900萬美元左右開始,5年的CAGR為8.9%,2016年時達到7億3,400萬美元。

都市飲用水處理有物理的過程、生物學的過程、化學的過程,從以往的舊方法到最新的電腦控制技術等。以往飲用水處理都是利用數百年來培育的手法。過程由以下1個以上的階段構成:凝集•沉澱(小粒子在大粒子中凝固,沉澱於水流中)、急速沙過濾(除去殘留粒子)、氯殺菌(殺死微生物)。針對以往的技術,除了部分以與最新處理做比較之目的外,本報告未觸及。

BCC的報告詳細分析最新的都市用水處理市場。亦介紹了膜過濾、紫外線照射、臭氧殺菌等好幾個最新的製程。所謂的先進技術,乃針對飲用水污染物的法規與削減廢棄物排出量、無害特性、要求削減化學添加物、以及有時要降低能源要求量等廣泛的領域,改善其處理效果就稱之為"先進"。

本報告著眼於對先進飲用水處理市場的投資、收購、或對擴充關心者,以彙整提交出有學識、決定意思時不可缺少、具體且詳細的資訊為目的。

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Source: BCC Research
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