European Micropollutant Treatment Systems Market, 2016

European Micropollutant Treatment Systems Market, 2016

Tightened Legislation for the Removal of Micropollutants in Europe will Drive the Need for New Treatment Systems

RELEASE DATE
02-Aug-2017
REGION
Europe
Research Code: 9AAF-00-42-00-00
SKU: EN01001-EU-MR_20555
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Description

Urban wastewater is progressively contaminated with pollutants such as biocides, pesticides, personal care products, endocrine disrupting compounds, and pharmaceutical substances. Hazardous micropollutants generally get into wastewater treatment plants (WWTPs) as a result of domestic uses of textiles, pharmaceutical products, electronics, cosmetics, and hygiene products. These micropollutants, with their potential deadliness for human health and the aquatic environment, have become a major concern for water utilities.

In recent years, legislation in Europe as well as globally has been tightened concerning micropollutants in municipal wastewater and on the release of organics into surface waters. The European Union has laid out a list of prioritized substances viewed as a threat to the ground water. Member countries are required to monitor these substances in the wastewater to take necessary action. However, conventional treatment technologies in existing WWTPS struggle to completely eradicate micropollutants or to sufficiently limit their concentrations in to conform to the thresholds in new regulations. Therefore, innovative and additional treatment technologies are required.

This study provides an in-depth insight into the European micropollutant treatment systems market, focusing especially on Switzerland, Germany, and France, where there are already established strategies to eradicate micropollutants. It provides an overview of the sources, types, and impacts of micropollutants present in the water. Trends and levels of awareness provide useful insights. Types of micropollutant treatment systems such as ozone, UV, powdered activated carbon (PAC), and membrane filters are analysed to provide an overall understanding of the dominant and cost-effective technologies in the market. The study also shares recent technological innovations that are helping to eliminate hard-to-remove substances present in wastewater. Furthermore, case studies, market landscape, and growth opportunities are highlighted.

Key Questions Addressed by the Study:
•     Sources, types, impacts of micropollutants
•     Influential trends
•     Mapping of countries by level of awareness
•     Technology analysis
•     Case studies
•     Technological innovations
•     Growth opportunities
•     Key participants

Client Benefit:
The study provides a deep understanding of the micropollutant treatment systems market, especially in specific European countries. It provides an overview of the market, and includes attractiveness mapping and a discussion on the cost effectiveness of existing technologies. This would help clients identify cost-effective treatment systems and target the addressed and addressable markets. It can help companies make wise decisions with respect to investments in research and development. Additional insights on growth opportunities and strategic imperatives can provide a way to capitalize on innovative technologies.

Table of Contents

Research Scope

Key Findings

Micro Pollutants—Sources and Types

Micro Pollutants—Impacts on the Environment

Micro Pollutants—Solutions

Level of Awareness—Micropollutants

Trends Influencing the Emission of Micropollutants

Swiss Strategy

Germany Strategy

France Strategy

Removal of Micropollutants—Mechanisms

Key Technologies

Technology Adoption Attractiveness

Cost Effectiveness of Technologies

Technology Evaluation

Technology Adoption Landscape—Switzerland

Micropollutants Treatment—Technological Innovations

Micropollutants Treatment—Technological Innovations (continued)

European Projects—Removal of Micropollutants

Installation of Trojan UV-oxidation System in WWTP

Ozone System for a WWTP in France

Rotary Mesh Screen + PAC for WWTPs in Germany

Key Market Participants

Growth Opportunity 1—New Capabilities

Growth Opportunity 2—Partnerships

Strategic Imperatives for Success and Growth

Future of Micropollutant Treatment Systems

Legal Disclaimer

List of Abbreviations

The Frost & Sullivan Story

Value Proposition—Future of Your Company & Career

Global Perspective

Industry Convergence

360º Research Perspective

Implementation Excellence

Related Research
Urban wastewater is progressively contaminated with pollutants such as biocides, pesticides, personal care products, endocrine disrupting compounds, and pharmaceutical substances. Hazardous micropollutants generally get into wastewater treatment plants (WWTPs) as a result of domestic uses of textiles, pharmaceutical products, electronics, cosmetics, and hygiene products. These micropollutants, with their potential deadliness for human health and the aquatic environment, have become a major concern for water utilities. In recent years, legislation in Europe as well as globally has been tightened concerning micropollutants in municipal wastewater and on the release of organics into surface waters. The European Union has laid out a list of prioritized substances viewed as a threat to the ground water. Member countries are required to monitor these substances in the wastewater to take necessary action. However, conventional treatment technologies in existing WWTPS struggle to completely eradicate micropollutants or to sufficiently limit their concentrations in to conform to the thresholds in new regulations. Therefore, innovative and additional treatment technologies are required. This study provides an in-depth insight into the European micropollutant treatment systems market, focusing especially on Switzerland, Germany, and France, where there are already established strategies to eradicate micropollutants. It provides an overview of the sources, types, and impacts of micropollutants present in the water. Trends and levels of awareness provide useful insights. Types of micropollutant treatment systems such as ozone, UV, powdered activated carbon (PAC), and membrane filters are analysed to provide an overall understanding of the dominant and cost-effective technologies in the market. The study also shares recent technological innovations that are helping to eliminate hard-to-remove substances present in wastewater. Furthermore, case studies, market landscape, and gr
More Information
No Index No
Podcast No
Author Akshaya Gomatam Ramachandran
Industries Environment
WIP Number 9AAF-00-42-00-00
Is Prebook No