Revenue Forecast

The revenue estimate for the base year 2023 is $0.97 billion, with a projected CAGR of 20.3% for the study period from 2023 to 2030.

Scope of Analysis

• PFAS are a group of man-made chemicals used extensively across various industries. They are found in everything from paints and non-stick cookware to stain repellents, pesticides, and fast-food packaging.
• Unfortunately, these wonder chemicals also have some harmful effects. PFAS are incredibly persistent. Their complex structure makes them resistant to natural breakdown and allows them to accumulate in living organisms, posing a potential health risk.
• With growing evidence of PFAS contamination in surface water, groundwater, wastewater, soil, and air, industries are scrambling to find effective solutions.
• The urgent need to address PFAS contamination is increasingly driving both public water utilities and private companies across Europe to invest in detection and management technologies. 

PFAS Regulations in Europe

Europe has taken a more restrictive approach to PFAS regulations compared to the United States. A breakdown of the latest developments has been provided below:

• Ban Proposal: In February 2023, a ban on the majority of PFAS in the EU was presented. This ban entails specific legislation targeting production restrictions on the usage and placement of around 10,000 PFAS in the market.
• Current Limitations: The EU already regulates some PFAS. For instance, there are limits on the usage of PFOS, PFOA, and PfHxS. PFAS usage is also covered by different regulatory directives such as the Drinking Water Directive (0.5 µg/l) and the Stockholm Convention on Persistent Organic Pollutants (POPs).
• Phasing Out Non-essential Uses: In an ambitious move, the European Commission is phasing out all non-essential PFAS usage. According to the European Chemical Agency (ECHA), PFAS is to be used only if there is evidence that it is not possible to meet essential societal functions otherwise.

In general, the EU rules are more stringent about PFAS use and circulation. In the United States, while national limits on certain types of PFAS in water supplies have been proposed recently, there are no proposals for complete bans.

The Impact of the Top 3 Strategic Imperatives:

Disruptive Technologies

• Why 

The removal of PFAS compounds from drinking water entails complex processes, requiring innovation in treatment technologies. Existing solutions have limited success in terms of efficiency, cost-effectiveness, and the ability to meet stringent regulatory requirements.

• Frost Perspective 

Frost & Sullivan expects to see the development of breakthrough membrane technologies for the removal of PFAS. Hybrid treatment systems using various technologies will also become increasingly popular to ease the challenges associated with drinking water treatment to remove PFAS.

Transformative Megatrends

• Why 

The increasing public awareness of PFAS in drinking water and stricter usage laws have led to the demand for cost-effective treatment solutions that align with sustainability policy initiatives like the Green Deal in Europe.

• Frost Perspective 

Frost & Sullivan anticipates a significant increase in spending on research and development (R&D) on environmentally friendly drinking water treatment technologies to remove PFAS that ensure sustainability in resource utilization. Circular economy principles will enable the extraction of valuable resources from treatment processes.

Innovative Business Models

• Why

The treatment of drinking water to remove PFAS is expensive, proving to be a financial burden for water utilities. Innovative business models that make these technologies more accessible and cost-efficient are required.

• Frost Perspective 

Frost & Sullivan also expects the formation of public-private partnerships to develop so organizations can share the financial risk and expertise.

Performance-based contracts will also incentivize more cost-effective solutions, as treatment providers will be paid based on the amount of PFAS reduction achieved.