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Water and Wastewater Treatment Technologies: Global Markets
出版日期 : 2012年02月
商品編碼: 229989
全球廢水處理輸送設備、加工設備、處理藥劑市場,預計將由2011年之570億美金以CAGR10.4%持續增加,達到2016年之930億美金規模。其中,成長最快速之輸送設備預計由2011年之20億美金以CAGR11.4%持續增加,達到2016年之340億美金成績。
本報告為,分析全球水處理、廢水處理技術,並匯整各式處理設備概要及趨勢、專利、今後預測等,以下列摘要形式闡述。
第1章 簡介
第2章 摘要
第3章 概要
第4章 水源
第5章 水質
第6章 廢水處理加工設備
- 一次處理設備
- 二次處理設備
- 三次處理設備
- 最新水處理技術
- 預測
第7章 廢水處理輸送設備
第8章 儀器類
- 一般儀器類之需求
- 厭氧消化感測器
- 污泥感測器
- 脫氮除磷感測器
- 沉積感測器
第9章 處理用藥劑
第10章 近年專利趨勢
第11章 市場預測
第12章 專業用語
第13章 附錄
Abstract
REPORT HIGHLIGHTS
- The global market for wastewater treatment delivery equipment,
instrumentation, process equipment, and treatment chemicals will increase at a
10.4% compound annual growth rate (CAGR) to exceed $93 billion in 2016, from a
2011 value of nearly $57 billion.
- The most rapid growth will occur in the delivery equipment product group.
This sector is estimated at $20 billion in 2011 and is expected to increase at
an 11.4% compound annual growth rate (CAGR) to reach $34 billion in 2016.
- Although the smallest increase will be in the treatment chemicals group,
the 9.4% compound annual growth rate (CAGR) nonetheless represents solid
growth. This sector is estimated at $12 billion in 2011 and is expected to
reach nearly $19 billion in 2016.
INTRODUCTION
Conventional wisdom suggests that the world is on the verge of a water crisis
that will make enemies of friendly nations and leave mmethodillions dead from
thirst and starvation. The historic record confirms that those who foresee
such a crisis are not entirely wrong. Hundreds, perhaps thousands, of
communities founded in proximity to naturally occurring water supplies simply
vanished when those resources disappeared. What those who foresee a coming
water crisis often overlook is that lost cities are far more the exception
than the rule. At some point in its history, every one of the world' s great
cities faced a clear and present danger from inadequate water supplies and
sanitation. But each survived by integrating water and wastewater treatment
(WWT) technologies into the fabric of their infrastructure. The technical
solutions for providing water in dry spells and assuring drinking waters
remain uncontaminated from sewage have changed over the millennia, but
surprisingly less so than most realize, with their core components consisting
of only 15 basic WWT “products.” In this study, we forecast the
demand for those 15 products in their 40 most robust national markets through
2016, when they will be worth more than $93 billion.
STUDY GOALS AND OBJECTIVES
In this study, BCC Research examines and provides a 2011 through 2016 forecast
for 15 products essential for constructing, maintaining, and operating WWT
systems in the 40 top global markets.
REASONS FOR DOING THIS STUDY
In recent years, there has been increasing fear that water shortages will
create mass dislocations, and perhaps ignite global conflict. While those
fears have merit, they also overlook an essential historic fact. All of the
problems associated with a lack of clean water or adequate sanitation are
amenable to known - and in most cases fairly inexpensive - solutions. Viewed
in this more pragmatic light, what many foresee as a crisis is an enormous
opportunity, and one that the WWT industry is amply prepared to address.
Historically, the WWT business has relied on three profit centers:
constructing new plants, upgrading existing facilities, and supplying
chemicals consumed on both the water delivery and wastewater treatment sides
of the business. In this study, BCC Research identifies the products that
constitute the core of the WWT business and the geographic markets that offer
the most robust business opportunities.
SCOPE OF REPORT
This study focuses on 15 WWT products and 40 robust national markets for those
products, which will be worth more than $93 billion by 2016.
METHODOLOGY
Both primary and secondary research methodologies were used in preparing this
study.
The 15 products examined in this study were selected because they are common
to WWT treatment systems. These products were also the focus of BCC Research' s
most recent examination of this topic, Growing Markets for Water and
Wastewater Technologies (ENV008A), published in June 2007. While some are
unique to water distribution and others to the treatment of sanitary waste,
most have applications in both types of plants.
Selecting the national markets to include in this study proved a more complex
task. It was, of course, essential to include the most populous countries, but
size alone was not the sole criterion. Five of the countries - Australia,
China - Mainland, Egypt, India, and Mexico - were covered in ENV008A. The
remaining countries were selected on the basis of the following 50 factors
that drive the demand for WWT products.
Forecasting methodology: To forecast the future demand for the 15 key
WWT products, past purchasing patterns were first projected forward based on
earlier compound annual growth rates (CAGRs). The resulting values were then
adjusted to reflect circumstances within the product-producing industry but
more often to account for external conditions that altered the purchasing
capabilities or environmental priorities within the national market where the
products are purchased.
INFORMATION SOURCES
BCC surveyed several hundred organizations to obtain data for this study.
Included were major manufacturers of equipment and related products. Data were
compiled from current financial and trade organizations as well as from
government sources. Data pertaining to household water use and sanitary
facilities were extracted from statistical information compiled by the
UNICEF' s international household survey initiative, the World Health
Organization World Health Survey and the World Bank, International Monetary
Fund, Agency for International Development, United National Environment
Program, United Nations Food and Agriculture Organization, and the U.S. State
Department.
ANALYST CREDENTIALS
James Wilson is a noted technology analyst and author of more than 300
articles and several books dealing with the environment, science, medicine,
technology, and business. His previous BCC studies include reports on remote
sensing, medical device coatings, medical sensors, mobile telematics,
robotics, and intelligent wireless microsystems. A former editor of the
Princeton Business Journal and a senior science and technology editor for
Hearst Magazines, he is a past member of the National Association of Science
Writers and the American Medical Writers Association. He has served on the
adjunct faculty of Temple University and on the staffs of Drexel University
and the Academy of Natural Sciences.
Table of Contents
Water and Wastewater Treatment Technologies: Global Markets
Chapter- 1: INTRODUCTION - Complimentary
- STUDY GOALS AND OBJECTIVES
- REASONS FOR DOING THIS STUDY
- SCOPE OF REPORT
- METHODOLOGY
- ORGANIZATION OF THIS REPORT
- INTENDED AUDIENCE
- INFORMATION SOURCES
- ANALYST CREDENTIALS
- RELATED BCC REPORTS
- BCC ONLINE SERVICES
- DISCLAIMER
Chapter- 2: SUMMARY
Chapter- 3: OVERVIEW
Chapter- 4: WATER RESOURCES
- FRESHWATER RESOURCES
- Table 1: FRESHWATER VERSUS SALTWATER
- Table 2: FRESHWATER DISTRIBUTION
Chapter- 5: WATER QUALITY
- CHEMICAL AGENTS
- CHANGING ATTITUDES TOWARD TOXIC CHEMICALS
- Table 11: EU REACH SUBSTANCES OF VERY HIGH CONCERN
Chapter- 6: WWT PROCESS EQUIPMENT
- PRIMARY TREATMENT EQUIPMENT
- PRIMARY TREATMENT EQUIPMENT FORECAST
- SECONDARY TREATMENT EQUIPMENT
- PRIMARY TREATMENT EQUIPMENT FORECAST
- TERTIARY TREATMENT EQUIPMENT
- TERTIARY TREATMENT EQUIPMENT FORECAST
- ADVANCED WATER TECHNOLOGIES
- ADVANCED WATER TREATMENT EQUIPMENT FORECAST
- Table 22: FORECAST FOR ADVANCED TREATMENT EQUIPMENT IN THE TOP 40
NATIONAL MARKETS, THROUGH 2016
Chapter- 7: WWT DELIVERY EQUIPMENT
- PIPES AND FITTINGS
- PUMPS
- VALVES AND CONTROLS
Chapter- 8: WWT INSTRUMENTATION
- GENERIC INSTRUMENTATION NEEDS
- ANAEROBIC DIGESTION SENSORS
- ACTIVATED SLUDGE SENSORS
- NUTRIENT REMOVAL SENSORS
- SEDIMENTATION SENSORS
Chapter- 9: WWT CHEMICALS
- ACTIVATED CARBON
- ALUMINUM SULFATE
- CALCIUM HYDROXIDE
- SPECIALTY CHEMICALS
Chapter- 10: TRENDS IN THE 500 MOST RECENT WWT PATENTS
Chapter- 11: NATIONAL MARKET FORECASTS FOR WWT TECHNOLOGY
- THE POLITICAL DIMENSION
- THE FINANCIAL DIMENSION
- HOW NATIONAL MARKET SECTIONS ARE ORGANIZED
- ARGENTINA
- AUSTRALIA
- AUSTRIA
- BELGIUM
- BRAZIL
- CANADA
- CHINA - HONG KONG
- CHINA-MAINLAND
- CHINA - TAIWAN
- COLUMBIA
- EGYPT
- FRANCE
- GERMANY
- GREECE
- INDIA
- INDONESIA
- IRAN
- ITALY
- JAPAN
- MALAYSIA
- MEXICO
- NETHERLANDS
- NIGERIA
- NORWAY
- PAKISTAN
- PHILIPPINES
- POLAND
- RUSSIA
- SAUDI ARABIA
- SOUTH AFRICA
- SOUTH KOREA
- SPAIN
- SWEDEN
- SWITZERLAND
- THAILAND
- TURKEY
- UKRAINE
- UNITED KINGDOM
- UNITED STATES
- VENEZUELA
Chapter- 12: GLOSSARY
Chapter- 13: APPENDIX: THE WATER AND WASTEWATER COMMUNITY
- ACQUEAU
- ACCIONA AGUA
- ADVANCED DRAINAGE SYSTEMS
- AMERICAN CONCRETE PIPE ASSOCIATION
- AMERICAN CONCRETE PRESSURE PIPE ASSOCIATION
- AMERICAN MEMBRANE TECHNOLOGY ASSOCIATION
- AMERICAN PUBLIC WORKS ASSOCIATION
- AMERICAN SOCIETY OF CIVIL ENGINEERS
- AMERICAN WATER RESOURCES ASSOCIATION
- AMERICAN WATER WORKS ASSOCIATION
- AMERICAN WATER WORKS COMPANY
- AQUA AMERICA
- AQUAFIN
- AQUANTIS GMBH
- AGUAS DE PORTUGAL
- AQUATEAM
- ASOCIACION ESPANOLA DE ABASTECIMIENTOS DE AGUA Y SANEAMIENTO
- ASSOCIATION OF WATER TECHNOLOGIES
- ATKINS
- APTWATER INC.
- AUSTRALIAN WATER ASSOCIATION
- BEFESA AGUA
- BERLIN CENTRE OF COMPETENCE FOR WATER
- BEST WATER TECHNOLOGY
- BLACK & VEATCH
- BRITISH GEOLOGICAL SURVEY
- CALGON CARBON CORPORATION
- CANADIAN WATER RESOURCES ASSOCIATION
- CANAL DE ISABEL II
- CEMAGREF
- CENTRE FOR ECOLOGY AND HYDROLOGY
- CERES
- CETAQUA
- CH2M HILL
- COPA-COGECA
- CSTB
- CULLIGAN WATER TECHNOLOGIES, INC.
- DANISH WATER FORUM
- DANISH WATER AND WASTEWATER ASSOCIATION
- DELTARES
- DHI
- DVGW
- EBARA JITSUGYO CO., LTD.
- ENERKEM
- ENPAR TECHNOLOGIES INC.
- EUROPEAN ASSOCIATION OF NATIONAL WATER AND WASTE WATER ASSOCIATIONS AND
USERS
- EUROPEAN CHEMICALS AGENCY
- EUROPEAN COMMISSION WATER SUPPLY AND SANITATION TECHNOLOGY PLATFORM
- EUROPEAN MEMBRANE HOUSE
- EUROPEAN WATER ASSOCIATION
- FEDERUTILITY
- GE WATER & PROCESS TECHNOLOGIES
- GLOBAL WATER PARTNERSHIP
- GRONTMIJ
- INTERNATIONAL ASSOCIATION OF ENVIRONMENTAL HYDROLOGY
- INTERNATIONAL ASSOCIATION OF HYDROLOGICAL SCIENCES
- INTERNATIONAL ASSOCIATION OF HYDROLOGISTS
- INTERNATIONAL DESALINATION ASSOCIATION
- INTERNATIONAL JOINT COMMISSION
- INTERNATIONAL SOCIETY FOR TRENCHLESS TECHNOLOGY
- INTERNATIONAL WATER ASSOCIATION
- INTERNATIONAL WATER MANAGEMENT INSTITUTE (IWMI)
- INTEVRAS
- ITT INDUSTRIES
- KEMIRA
- KRUGER
- KURITA WATER INDUSTRIES LTD
- KWR WATERCYCLE RESEARCH INSTITUTE
- LAYNE CHRISTENSEN COMPANY
- LG SOUND
- MACAULAY LAND USE RESEARCH INSTITUTE
- MONTGOMERY WATSON HARZA
- NALCO
- NATIONAL ASSOCIATION OF CLEAN WATER AGENCIES
- NATIONAL ASSOCIATION OF WATER COMPANIES
- NORIT N.V.
- NORWEGIAN INSTITUTE FOR WATER RESEARCH
- PALL CORPORATION
- PENTAIR INC.
- PEOPLE' S REPUBLIC OF CHINA MINISTRY OF WATER RESOURCES
- SALINE WATER CONVERSION CORPORATION
- SEVERN TRENT
- SCHLUMBERGER WATER SERVICES
- SIEMENS WATER TECHNOLOGIES CORP
- SUEZ ENVIRONMENT
- SVENSK VATTEN
- THAMES WATER UTILITIES
- THIRD WORLD CENTRE FOR WATER MANAGEMENT
- UNITED NATIONS FOOD AND AGRICULTURE ORGANIZATION
- UNITED NATIONS WATER
- UNITED STATES ARMY CORPS OF ENGINEERS - HYDROLOGIC ENGINEERING CENTER
- UNITED STATES ENVIRONMENTAL PROTECTION AGENCY
- UNITED WATER INC.
- UNITED UTILITIES PLC
- VEOLIA ENVIRONMENT
- WATER AND WASTEWATER EQUIPMENT MANUFACTURERS ASSOCIATION
- WATER ENVIRONMENT FEDERATION
- WATER SCIENCE AND TECHNOLOGY BOARD
- WATTS WATER TECHNOLOGIES
- WORLD WATER COUNCIL
List of Tables
- Summary Table: WWT PRODUCTS FORECAST FOR THE TOP 40 MARKETS, THROUGH 2016
- Table 1: FRESHWATER VERSUS SALTWATER
- Table 10: CHEMICALS FOR WHICH WHO GUIDELINE VALUES HAVE NOT BEEN
ESTABLISHED
- Table 100: WATER SOURCES
- Table 101: WATER USE BY SECTOR
- Table 102: PRODUCT-LEVEL FORECAST FOR GREECE. THROUGH 2016
- Table 103: KEY WATER USE STATISTICS
- Table 104: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 105: WATER SOURCES
- Table 106: WATER USE BY SECTOR
- Table 107: WASTEWATER PRODUCTION AND TREATMENT
- Table 108: PRODUCT-LEVEL FORECAST FOR INDIA, THROUGH 2016
- Table 109: KEY WATER USE STATISTICS
- Table 11: EU REACH SUBSTANCES OF VERY HIGH CONCERN
- Table 110: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 111: WATER SOURCES
- Table 112: WATER USE BY SECTOR
- Table 113: PRODUCT-LEVEL FORECAST FOR INDONESIA, THROUGH 2016
- Table 114: KEY WATER USE STATISTICS
- Table 115: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 116: WATER SOURCES
- Table 117: WATER USE BY SECTOR
- Table 118: WASTEWATER PRODUCTION AND TREATMENT
- Table 119: PRODUCT-LEVEL FORECAST FOR IRAN, THROUGH 2016
- Table 12: TYPES OF PATHOGENS THAT DAMAGE WATER QUALITY
- Table 120: KEY WATER USE STATISTICS
- Table 121: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 122: WATER SOURCES
- Table 123: WATER USE BY SECTOR
- Table 124: WASTEWATER PRODUCTION AND TREATMENT
- Table 125: PRODUCT-LEVEL FORECAST FOR ITALY, THROUGH 2016
- Table 126: KEY WATER USE STATISTICS
- Table 127: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 128: WATER SOURCES
- Table 129: WATER USE BY SECTOR
- Table 13: BACTERIAL PATHOGENS THAT DAMAGE WATER QUALITY
- Table 130: WASTEWATER PRODUCTION AND TREATMENT
- Table 131: PRODUCT-LEVEL FORECAST FOR JAPAN, THROUGH 2016
- Table 132: KEY WATER USE STATISTICS
- Table 133: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 134: WATER SOURCES
- Table 135: WATER USE BY SECTOR
- Table 136: WASTEWATER PRODUCTION AND TREATMENT
- Table 137: PRODUCT-LEVEL FORECAST FOR MALAYSIA, THROUGH 2016
- Table 138: KEY WATER USE STATISTICS
- Table 139: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 14: PROTOZOAN PATHOGENS THAT DAMAGE WATER QUALITY
- Table 140: WATER SOURCES
- Table 141: WATER USE BY SECTOR
- Table 142: WASTEWATER PRODUCTION AND TREATMENT
- Table 143: PRODUCT-LEVEL FORECAST FOR MEXICO, THROUGH 2016
- Table 144: KEY WATER USE STATISTICS
- Table 145: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 146: WATER SOURCES
- Table 147: WATER USE BY SECTOR
- Table 148: PRODUCT-LEVEL FORECAST FOR THE NETHERLANDS, THROUGH 2016
- Table 149: KEY WATER USE STATISTICS
- Table 15: HELMINTH PATHOGENS THAT DAMAGE WATER QUALITY
- Table 150: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 151: WATER SOURCES
- Table 152: WATER USE BY SECTOR
- Table 153: PRODUCT-LEVEL FORECAST FOR NIGERIA, THROUGH 2016
- Table 154: KEY WATER USE STATISTICS
- Table 155: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 156: WATER SOURCES
- Table 157: WATER USE BY SECTOR
- Table 158: PRODUCT-LEVEL FORECAST FOR NORWAY, THROUGH 2016
- Table 159: KEY WATER USE STATISTICS
- Table 16: VIRAL PATHOGENS THAT DAMAGE WATER QUALITY
- Table 160: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 161: WATER SOURCES
- Table 162: WATER USE BY SECTOR
- Table 163: WASTEWATER PRODUCTION AND TREATMENT
- Table 164: PRODUCT-LEVEL FORECAST FOR PAKISTAN, THROUGH 2016
- Table 165: KEY WATER USE STATISTICS
- Table 166: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 167: WATER SOURCES
- Table 168: WATER USE BY SECTOR
- Table 169: WASTEWATER PRODUCTION AND TREATMENT
- Table 17: WHO GUIDANCE FOR RADIONUCLIDES IN DRINKING WATER
- Table 170: PRODUCT-LEVEL FORECAST FOR THE PHILIPPINES, THROUGH 2016
- Table 171: KEY WATER USE STATISTICS
- Table 172: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 173: WATER SOURCES
- Table 174: WATER USE BY SECTOR
- Table 175: WASTEWATER PRODUCTION AND TREATMENT
- Table 176: PRODUCT-LEVEL FORECAST FOR POLAND, THROUGH 2016
- Table 177: KEY WATER USE STATISTICS
- Table 178: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 179: WATER SOURCES
- Table 18: DEMAND FOR WWT PROCESS EQUIPMENT IN THE TOP 40 NATIONAL MARKETS,
THROUGH 2016
- Table 180: WATER USE BY SECTOR
- Table 181: WASTEWATER PRODUCTION AND TREATMENT
- Table 182: PRODUCT-LEVEL FORECAST FOR RUSSIA, THROUGH 2016
- Table 183: KEY WATER USE STATISTICS
- Table 184: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 185: WATER SOURCES
- Table 186: WATER USE BY SECTOR
- Table 187: WASTEWATER PRODUCTION AND TREATMENT
- Table 188: PRODUCT-LEVEL FORECAST FOR SAUDI ARABIA, THROUGH 2016
- Table 189: KEY WATER USE STATISTICS
- Table 19: FORECAST FOR PRIMARY TREATMENT EQUIPMENT IN THE TOP 40 NATIONAL
MARKETS, THROUGH 2016
- Table 190: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 191: WATER SOURCES
- Table 192: WATER USE BY SECTOR
- Table 193: WASTEWATER PRODUCTION AND TREATMENT
- Table 194: PRODUCT-LEVEL FORECAST FOR SOUTH AFRICA, THROUGH 2016
- Table 195: KEY WATER USE STATISTICS
- Table 196: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 197: WATER SOURCES
- Table 198: WATER USE BY SECTOR
- Table 199: WASTEWATER PRODUCTION AND TREATMENT
- Table 2: FRESHWATER DISTRIBUTION
- Table 20: FORECAST FOR SECONDARY TREATMENT EQUIPMENT IN THE TOP 40
NATIONAL MARKETS, THROUGH 2016
- Table 200: PRODUCT-LEVEL FORECAST FOR SOUTH KOREA, THROUGH 2016
- Table 201: KEY WATER USE STATISTICS
- Table 202: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 203: WATER SOURCES
- Table 204: WATER USE BY SECTOR
- Table 205: PRODUCT-LEVEL FORECAST FOR SPAIN, THROUGH 2016
- Table 206: KEY WATER USE STATISTICS
- Table 207: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 208: WATER SOURCES
- Table 209: WATER USE BY SECTOR
- Table 21: FORECAST FOR TERTIARY TREATMENT EQUIPMENT IN THE TOP 40 NATIONAL
MARKETS, THROUGH 2016
- Table 210: PRODUCT-LEVEL FORECAST FOR SWEDEN, THROUGH 2016
- Table 211: KEY WATER USE STATISTICS
- Table 212: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 213: WATER SOURCES
- Table 214: WATER USE BY SECTOR
- Table 215: PRODUCT-LEVEL FORECAST FOR SWITZERLAND, THROUGH 2016
- Table 216: KEY WATER USE STATISTICS
- Table 217: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 218: WATER SOURCES
- Table 219: WATER USE BY SECTOR
- Table 22: FORECAST FOR ADVANCED TREATMENT EQUIPMENT IN THE TOP 40 NATIONAL
MARKETS, THROUGH 2016
- Table 220: WASTEWATER PRODUCTION AND TREATMENT
- Table 221: PRODUCT-LEVEL FORECAST FOR THAILAND, THROUGH 2016
- Table 222: KEY WATER USE STATISTICS
- Table 223: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 224: WATER SOURCES
- Table 225: WATER USE BY SECTOR
- Table 226: WASTEWATER PRODUCTION AND TREATMENT
- Table 227: PRODUCT-LEVEL FORECAST FOR TURKEY, THROUGH 2016
- Table 228: KEY WATER USE STATISTICS
- Table 229: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 23: DEMAND FOR WWT DELIVERY EQUIPMENT IN THE TOP 40 NATIONAL
MARKETS, THROUGH 2016
- Table 230: WATER SOURCES
- Table 231: WATER USE BY SECTOR
- Table 232: WASTEWATER PRODUCTION AND TREATMENT
- Table 233: PRODUCT-LEVEL FORECAST FOR UKRAINE, THROUGH 2016
- Table 234: KEY WATER USE STATISTICS
- Table 235: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 236: WATER SOURCES
- Table 237: WATER USE BY SECTOR
- Table 238: PRODUCT-LEVEL FORECAST FOR UNITED KINGDOM, THROUGH 2016
- Table 239: KEY WATER USE STATISTICS
- Table 24: FORECAST FOR PIPES AND FITTINGS, THROUGH 2016
- Table 240: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 241: WATER SOURCES
- Table 242: WATER USE BY SECTOR
- Table 243: WASTEWATER PRODUCTION AND TREATMENT
- Table 244: SIGNIFICANT DESIGN, BUILD OPERATE PROJECTS
- Table 245: PRODUCT-LEVEL FORECAST FOR UNITED STATES, THROUGH 2016
- Table 246: KEY WATER USE STATISTICS
- Table 247: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 248: WATER SOURCES
- Table 249: WATER USE BY SECTOR
- Table 25: FORECAST FOR PUMPS IN THE TOP 40 NATIONAL MARKETS, THROUGH 2016
- Table 250: PRODUCT-LEVEL FORECAST FOR VENEZUELA, THROUGH 2016
- Table 26: FORECAST FOR VALVES AND CONTROLS IN THE TOP 40 NATIONAL MARKETS,
THROUGH 2016
- Table 27: DEMAND FOR WWT INSTRUMENTATION IN THE TOP 40 NATIONAL MARKETS,
THROUGH 2016
- Table 28: FORECAST FOR ANAEROBIC DIGESTION SENSORS IN THE TOP 40 NATIONAL
MARKETS, THROUGH 2016
- Table 29: FORECAST FOR ACTIVATED SLUDGE SENSORS IN THE TOP 40 NATIONAL
MARKETS, THROUGH 2016
- Table 3: WHO GUIDELINES FOR CHEMICALS, EXCEPT CARCINOGENS
- Table 30: FORECAST FOR NUTRIENT REMOVAL SENSORS IN THE TOP 40 NATIONAL
MARKETS, THROUGH 2016
- Table 31: ON-LINE MONITORING EQUIPMENT FOR WASTEWATER TREATMENT
- Table 32: FORECAST FOR SEDIMENTATION SENSORS IN THE TOP 40 NATIONAL
MARKETS, THROUGH 2016
- Table 33: DEMAND FOR WWT CHEMICALS IN THE TOP 40 NATIONAL MARKETS, THROUGH
2016
- Table 34: FORECAST FOR ACTIVATED CARBON IN THE TOP 40 NATIONAL MARKETS,
THROUGH 2016
- Table 35: FORECAST FOR ALUMINUM SULFATE IN THE TOP 40 NATIONAL MARKETS,
THROUGH 2016
- Table 36: FORECAST FOR CALCIUM HYDROXIDE IN THE TOP 40 NATIONAL MARKETS,
THROUGH 2016
- Table 37: FORECAST FOR SPECIALTY CHEMICALS IN THE TOP 40 NATIONAL MARKETS,
THROUGH 2016
- Table 38: THE 500 MOST RECENTLY ISSUED LIQUID PURIFICATION PATENTS
- Table 39: SAMPLE NATIONAL MARKET FORECAST SUMMARY, THROUGH 2016
- Table 4: PROVISIONAL GUIDELINES DUE TO LIMITED INFORMATION ON HEALTH
EFFECTS
- Table 40: KEY WATER USE STATISTICS
- Table 41: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 42: WATER SOURCES
- Table 43: WATER USE BY SECTOR
- Table 44: WASTEWATER PRODUCTION AND TREATMENT
- Table 45: PRODUCT-LEVEL FORECAST FOR ARGENTINA, THROUGH 2016
- Table 46: KEY WATER USE STATISTICS
- Table 47: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 48: WATER SOURCES
- Table 49: WATER USE BY SECTOR
- Table 5: PROVISIONAL GUIDELINES BECAUSE VALUE IS BELOW THAT ACHIEVABLE
THROUGH PRACTICAL TREATMENT METHODS AND WATER SUPPLY SOURCE PROTECTION
- Table 50: PRODUCT-LEVEL FORECAST FOR AUSTRALIA, THROUGH 2016
- Table 51: KEY WATER USE STATISTICS
- Table 52: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 53: WATER SOURCES
- Table 54: WATER USE BY SECTOR
- Table 55: PRODUCT-LEVEL FORECAST FOR AUSTRIA, THROUGH 2016
- Table 56: KEY WATER USE STATISTICS
- Table 57: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 58: WATER SOURCES
- Table 59: WATER USE BY SECTOR
- Table 6: PROVISIONAL GUIDELINES BECAUSE DISINFECTION IS LIKELY TO RESULT
IN THE GUIDELINE VALUE BEING EXCEEDED
- Table 60: PRODUCT-LEVEL FORECAST FOR BELGIUM, THROUGH 2016
- Table 61: KEY WATER USE STATISTICS
- Table 62: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 63: WATER SOURCES
- Table 64: WATER USE BY SECTOR
- Table 65: WASTEWATER PRODUCTION AND TREATMENT
- Table 66: PRODUCT-LEVEL FORECAST FOR BRAZIL, THROUGH 2016
- Table 67: KEY WATER USE STATISTICS
- Table 68: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 69: WATER SOURCES
- Table 7: PROVISIONAL GUIDELINES BECAUSE CALCULATED GUIDELINE VALUE IS
BELOW THE ACHIEVABLE QUANTIFICATION LEVEL
- Table 70: WATER USE BY SECTOR
- Table 71: SIGNIFICANT DESIGN, BUILD OPERATE PROJECTS
- Table 72: PRODUCT-LEVEL FORECAST FOR CANADA, THROUGH 2016
- Table 73: PRODUCT-LEVEL FORECAST FOR CHINA-HONG KONG, THROUGH 2016
- Table 74: KEY WATER USE STATISTICS
- Table 75: PRODUCT-LEVEL FORECAST FOR CHINA - MAINLAND, THROUGH 2016
- Table 76: PRODUCT-LEVEL FORECAST FOR CHINA - TAIWAN, THROUGH 2016
- Table 77: KEY WATER USE STATISTICS
- Table 78: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 79: WATER SOURCES
- Table 8: PROVISIONAL GUIDELINES BECAUSE ACHIEVING HEALTH-BASED GUIDELINE
VALUE MAY AFFECT THE APPEARANCE, TASTE, OR ODOR OF THE WATER, LEADING TO
CONSUMER COMPLAINTS
- Table 80: WATER USE BY SECTOR
- Table 81: WASTEWATER PRODUCTION AND TREATMENT
- Table 82: PRODUCT-LEVEL FORECAST FOR COLUMBIA, THROUGH 2016
- Table 83: KEY WATER USE STATISTICS
- Table 84: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 85: WATER SOURCES
- Table 86: WATER USE BY SECTOR
- Table 87: PRODUCT-LEVEL FORECAST FOR EGYPT, THROUGH 2016
- Table 88: KEY WATER USE STATISTICS
- Table 89: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 9: CHEMICALS THAT WHO CLASSIFIES AS CARCINOGENS
- Table 90: WATER SOURCES
- Table 91: WATER USE BY SECTOR
- Table 92: PRODUCT-LEVEL FORECAST FOR FRANCE, THROUGH 2016
- Table 93: KEY WATER USE STATISTICS
- Table 94: CHARACTERISTICS OF AGRICULTURAL LANDS
- Table 95: WATER SOURCES
- Table 96: WATER USE BY SECTOR
- Table 97: PRODUCT-LEVEL FORECAST FOR GERMANY, THROUGH 2016
- Table 98: KEY WATER USE STATISTICS
- Table 99: CHARACTERISTICS OF AGRICULTURAL LANDS
List of Figures
- Summary Figure: WWT PRODUCTS FORECAST FOR TOP 40 MARKETS, IN 2016
- Figure 1: ESTIMATED WORLD WATER USE
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