Novel Water Sustainability Technologies: Key Projects and Opportunities, Financing, and Venture Capital, Transactions and Trends

Report Scope:

The scope of this report is broad and covers various technologies in sustainable water management across various end users. Novel water sustainability technologies are broken down by technology and end user. Revenue forecasts from 2018-2024 are given for each technology, application and end user, with estimated valued derived from the revenue of manufacturers total revenues.

The report also includes a discussion of major players across each technology. It explains the major drivers and regional dynamics of global novel water sustainability technologies and current trends within the industry.

The report concludes with a special focus on the vendor landscape and includes detailed profiles of major vendors in the global novel water sustainability technologies.

The Report Includes:

28 data tables and 64 additional tables
An overview of the global market for novel water sustainability technologies
Analyses of global market trends, with data from 2018, estimates for 2019 and projections of compound annual growth rates (CAGRs) through 2024
Information on key global projects on water sustainability and desalination & reuse projects running in Australia, Saudi Arabia, Japan, Caribbean, India and United States
Assessment of investment requirement, key venture capital transactions, water infrastructure financing, investment in R&D and innovations and government initiatives in water conservation
Coverage of market trends and key transactions and strategies in novel water sustainability technologies market
Comprehensive company profiles of key players in the market, including ABB Ltd., China Everbright Group Ltd., Honeywell International Inc., Lumense Inc., TaKaDu Ltd., Xylem Inc. and Yokogawa India Ltd.

Chapter 1 Introduction

Study Goals and Objectives
Reasons for Doing This Study
Scope of Report
Methodology
Geographic Breakdown
Analyst's Credentials
Custom Research
Related Reports

Chapter 2 Summary and Highlights

Chapter 3 Market Overview

Desalination
Third Desalination Plant Opens in Singapore
Fourth Desalination Plant Opens in Singapore
Seawater Desalination Plant in Tamil Nadu, India
Charles E. Meyer Desalination Plant
Three Small Desalination Plants: Chennai, India
Public/Private Partnerships
UAE Desalination Plant
Desalination Plant in Gujarat
Industrial Treatment
New Water Treatment Plant in Kerala, India
Bahrain: Tubli Wastewater Plant
Desalination and Reuse Projects
Saudi Arabia
Japan
India
Key Global Projects: Water Sustainability
Top 10 Findings
Technological Advancements
Adoption of Smart Water Networks
Water Pollution
Future Water Stress
Water Pollution Sources
Smart City Initiatives
Smart Water Management

Chapter 4 Mapping Water Sustainability

Catchment and Abstraction
Water Treatment
Storage and Distribution
Customer Consumption
Wastewater Collection and Treatment
Sludge Disposal

Chapter 5 Financing for Novel Water Sustainability Technologies

Investment
Key Venture Capital Transactions
Country Financing Overview
United States
Japan
China
India
Australia
Europe
Canada

Chapter 6 Transactions and Trends

Market Trends
Improving Water Supply and Hygiene
Government Support
Large Scale Investment in Smart Cities
Key Transactions and Strategies in Novel Water Sustainability Technologies Market
Investment in R&D and Innovations
Mergers and Acquisitions
Other Key Market Strategies

Chapter 7 Novel Water Sustainability Technologies Market by Smart Water Grid

Market Analysis by Technology
Smart Infrastructure
Control and Automation
ICT and Analytical Software
Design and Engineering
Market Analysis by Application
Residential
Commercial
Utility

Chapter 8 Other Key Novel Technologies in Water Sustainability

Artificial Intelligence
Blockchain
Robotics Enabled Automation
Drones and Big Data Analytics
Connected Network (IOT)
Cognitive Enabled Automation

Chapter 9 Membranes and Deserts

Case Study
Wastewater Treatment by Nanofiltration Membranes
Ceramic Membrane
Types of Ceramic Membranes
Advantages of Ceramic Membranes
Graphene Smart Membrane

Chapter 10 Novel Water Sustainability Technologies: End Users

Water Use
Industrial Users
Residential
Others

Chapter 11 Novel Water Sustainability Technologies Market by Region

North America
United States
Canada
Europe
United Kingdom
France
Germany
Spain
Rest of Europe
Asia-Pacific
China
India
Japan
Australia
Rest of Asia-Pacific
RoW
Latin America
Middle East and Africa

Chapter 12 Competitive Landscape

Key Market Players
Key Strategies
Product Launches
Collaborations and Partnerships
Acquisitions

Chapter 13 Company Profiles

ABB LTD.
AMERICAN WATER CO.
ARAD TECHNOLOGIES LTD.
BELKIN CORP.
BIWATER
CADAGUA
CHINA EVERBRIGHT GROUP LTD.
G.S. INIMA
GELSENWASSER
GENERAL ELECTRIC CO. (GE WATER CORP.)
GINER LABS
HONEYWELL INTERNATIONAL INC. (HOLDING COMPANY OF ELSTER GROUP SE)
HORIBA LTD.
HUAWEI TECHNOLOGIES
HYDRO INTERNATIONAL
HYFLUX
IBM
ITRON INC.
LANDIS GYR (TOSHIBHA)
LUMENSE INC.
MULTISENSOR SYSTEMS LTD.
SCHNEIDER ELECTRIC SE
SIEMENS AG
TAKADU LTD.
UTILITY SYSTEMS
XYLEM INC.
YOKOGAWA INDIA LTD.

List of Tables

Summary Table: Global Novel Water Sustainability Technologies Market, by Region, Through 2024
Table 1: Selected Water Engineering Projects
Table 2: Upcoming Water Treatment Plant Construction Projects in the U.S.
Table 3: Water Quality Index (WQI) Designations
Table 4: Water Quality Index (WQI) Level, by Country, 2016-2017
Table 5: Scale of Water Stress
Table 6: Top 32 Water-Stressed Countries, 2040
Table 7: Fresh Water Pollution Sources, Effects and Constituents
Table 8: Household Indoor Water Use in the U.S., 2016
Table 9: Water Consumption Share in the U.S., 2016
Table 10: Water Use in the New York State, by Category, 2016
Table 11: Others Category, Water Use in the New York State, by Application, 2016
Table 12: Domestic Water Consumption in the U.S., 2016
Table 13: Wastewater Treatment Share, by Country Income Level, 2016
Table 14: Typical Components of Wastewater, by Source
Table 15: Content of Industrial Wastewater
Table 16: Negative Impact of Untreated Wastewater
Table 17: Untreated Wastewater Share, by Economy, 2015 vs. 2030
Table 18: Water Policies in China, 2018-2019
Table 19: Water Sustainability Technologies, by Company, 2015-2017
Table 20: Mergers and Acquisitions in the Novel Water Sustainability Technologies Market, 2015-2016
Table 21: Key Market Strategies in the Novel Water Sustainability Technologies Market, 2016-2019
Table 22: Global Water Sustainability Technology Market, by Smart Water Grid Technology, Through 2024
Table 23: Global Water Sustainability Smart Infrastructure Technology Market, by Region, Through 2024
Table 24: Global Water Sustainability Control and Automation Technology Market, by Region, Through 2024
Table 25: Global Water Sustainability ICT and Analytical Software Technology Market, by Region, Through 2024
Table 26: Global Water Sustainability Design and Engineering Technology Market, by Region, Through 2024
Table 27: Global Water Sustainability Technology Market, by Smart Water Grid Application, Through 2024
Table 28: Global Water Sustainability Residential Market, by Region, Through 2024
Table 29: Global Groundwater Share, by Use 2016
Table 30: Global Water Sustainability Commercial Market, by Region, Through 2024
Table 31: Global Distribution Shares of Ground and Surface Water, by Source
Table 32: Global Water Sustainability Utility Market, by Region, Through 2024
Table 33: Freshwater Share, by Source
Table 34: EPA Ratings: Water Bodies, Level of Total Dissolved Solids, 2018
Table 35: Global Novel Water Sustainability Technology Market, by End User, Through 2024
Table 36: North American Water Sustainability Technology Market, by End User, Through 2024
Table 37: European Novel Water Sustainability Technology Market, by End User, Through 2024
Table 38: Asia-Pacific Water Sustainability Technology Market, by End User, Through 2024
Table 39: Share of Water Quality in China, by Index Level, 2016,
Table 40: Established Water Stations, Rest of APAC
Table 41: RoW Market for Water Sustainability Technology, by End User, Through 2024
Table 42: Annually Renewable Fresh Water per Capita in the Middle East and North Africa (MENA), 2001 and 2025
Table 43: Tertiary Acquisition Strategies, 2016-2019
Table 44: ABB Ltd.: Product Portfolio
Table 45: ABB Ltd.: Recent Developments
Table 46: American Water Co.: Product Portfolio
Table 47: American Water Co.: Recent Developments
Table 48: Arad Technologies Ltd.: Product Portfolio
Table 49: Belkin Corp.: Product Portfolio
Table 50: Belkin Corp.: Recent Developments
Table 51: Biwater: Product Portfolio
Table 52: Biwater: Recent Development
Table 53: Cadagua: Product Portfolio
Table 54: Cadagua: Recent Development
Table 55: China Everbright Group Ltd.: Product Portfolio
Table 56: China Everbright Group Ltd.: Recent Development
Table 57: G.S. Inima: Product Portfolio
Table 58: G.S. Inima: Recent Development, 2018-2019
Table 59: Gelsenwasser: Product Portfolio
Table 60: Gelsenwasser: Recent Development
Table 61: General Electric Co.: Product Portfolio
Table 62: General Electric Co.: Recent Development
Table 63: Giner Labs: Product Portfolio
Table 64: Honeywell International Inc.: Product Portfolio
Table 65: Honeywell International Inc.: Recent Developments
Table 66: Horiba Ltd.: Product Portfolio
Table 67: Horiba Ltd.: Recent Developments, 2017
Table 68: Huawei Technologies: Product Portfolio
Table 69: Huawei Technologies: Recent Development
Table 70: Hydro International: Product Portfolio
Table 71: Hyflux: Product Portfolio
Table 72: Hyflux: Recent Development
Table 73: IBM: Product Portfolio
Table 74: IBM: Recent Developments
Table 75: Itron Inc.: Product Portfolio
Table 76: Itron Inc.: Recent Developments
Table 77: Landis Gyr (Toshibha): Product Portfolio
Table 78: Lumense Inc.: Product Portfolio
Table 79: Multisensor Systems Ltd.: Product Portfolio
Table 80: Multisensor Systems Ltd.: Recent Developments
Table 81: Schneider Electric SE: Product Portfolio
Table 82: Schneider Electric SE: Recent Development
Table 83: Siemens AG: Product Portfolio
Table 84: TaKaDu Ltd.: Product Portfolio
Table 85: TaKaDu Ltd.: Recent Development
Table 86: Utility Systems: Product Portfolio
Table 87: Utility Systems: Recent Development
Table 88: Xylem Inc.: Product Portfolio
Table 89: Xylem Inc.: Recent Developments
Table 90: Yokogawa India Ltd.: Product Portfolio
Table 91: Yokogawa India Ltd.: Recent Development

List of Figures

Summary Figure: Global Novel Water Sustainability Technologies Market, by Region, 2018-2024
Figure 1: Public Concern: Water Pollution in the U.S., 2012-2017
Figure 2: Household Indoor Water Use in the U.S., 2016
Figure 3: Water Consumption Share in the U.S., 2016
Figure 4: Water Use Share in the New York State, by Category, 2016
Figure 5: Others Category, Water Use Share in the New York State, by Application, 2016
Figure 6: Groundwater Quality Share in China, 2015
Figure 7: Domestic Water Consumption in the U.S., 2016
Figure 8: Wastewater Treatment Share, by Country Income Level, 2016
Figure 9: Untreated Wastewater Share, by Economy, 2015 vs. 2030
Figure 10: Estimated Cost of Water Infrastructure, 2030 vs. 2050
Figure 11: Quarterly Distribution of Venture Capital Funds, Smart Water, 2016-2019
Figure 12: Share of Private Finance Mobilized by Official Development Finance Intrusions in the Water/Sanitation Sector, 2012-2015
Figure 13: Water Infrastructure Investment in China, 2011-2016
Figure 14: Share of Rail and Inland Waterway Investment in the Europe, by Source, 2011-2015
Figure 15: Global Groundwater Share, by Use 2016
Figure 16: Global Ground and Surface Water Share, by Source
Figure 17: Freshwater Share, by Source
Figure 18: Artificial Intelligence (AI) and Water Resource Management
Figure 19: Online Water Quality Monitoring
Figure 20: Share of Yearly Global Water Withdrawal vs. Water Consumption
Figure 21: Share of Infrastructure Spending in Europe, Since 2013
Figure 22: Investment Focus, Infrastructure Development in Europe Until 2024
Figure 23: Share of Water Quality in China, by Index Level, 2016
Figure 24: Share of Water Sustainability Technologies in Smart Water, by Company, 2017

Executive Summary

Natural resources and ecology are fundamental to local economies. The growth in demand for natural resources (and sustainable technology to harvest maximum supply) created a global market with high demand. The nexus between water and sustainability, can be connected via thorough understanding of water needs, the socioeconomic effects of water projects and transfers and economic and financially efficient water management technologies.

With the current explosion in human population (current United Nations estimates forecast 8.5 billion by the year 2030) humans are in dire need of natural resource management. There is a gap in the market regarding the demand for end-to-end service/products and the supply of finished products available. That gap is growing rapidly. The market is driven for strategic direction and operational solutions that benefit producers and consumers. Sustainable development seems to be the key for both renewable and non-renewable resources. Demand for competent public regulations/policies, cost efficient and scientifically proven methods of use and recycling services is skyrocketing. Multiple stakeholders (impacted by the outcome of the projects, like all humans) are stepping into the market for sustainable novel technologies. Stake holders include universities, civil society groups, NGO's, government organizations (regulators, local government) and businesses (employees, customers).

Sustainable water technology is resource management. The goal is to make water affordable, accessible and abundant for all human beings in the coming decades. This places novel water technologies in high demand.

Hydraulic fracturing, electrocoagulation, water meters, leak detectors and gauge pressure transmitters are efficient water management technologies. Novel water technologies use advanced metering devices to bring water to customers. With the introduction of Advanced Metering Infrastructure (AMI) and Advanced Meter Reading (AMR) technology, water technologies map the water market through a constant two-way data link between the supply and the demand. However, one of the challenges limiting the market is that it is still in its initial stage. Therefore, the purpose of this report is to forecast the demand for novel water technologies along with limitations in the market and a revenue forecast from 2018 to 2023.

Universal access to safe drinking water and sanitation for all, is recognized as a basic human right by the United Nations. The demand for fresh water increases about 1% per year across the globe. The increase is driven by population growth, socio-economic development and changing consumption patterns. At this rate the global demand for water (as forecasted by the United Nations in the World Water Development Report 2019) will account for an increase of 20-30% above current demand. This rise will result from both industrial and domestic sectors.

The scarcity of water due to increase in population, lifestyle changes, agricultural development and industrialization creates high demand for novel sustainable water technologies to meet the emerging water crisis. Over 2 million people live in water stressed areas across the world. There is a dire need for safe, reliable, physically accessible, equitably affordable water.

Companies Mentioned

Abb Ltd.
American Water Co.
Arad Technologies Ltd.
Belkin Corp.
Biwater
Cadagua
China Everbright Group Ltd.
G.S. Inima
Gelsenwasser
General Electric Co. (Ge Water Corp.)
Giner Labs
Honeywell International Inc. (Holding Company Of Elster Group Se)
Horiba Ltd.
Huawei Technologies
Hydro International
Hyflux
IBM
Itron Inc.
Landis Gyr (Toshibha)
Lumense Inc.
Multisensor Systems Ltd.
Schneider Electric Se
Siemens Ag
Takadu Ltd.
Utility Systems
Xylem Inc.
Yokogawa India Ltd.

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Table of Contents

Executive Summary

Companies Mentioned

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