"Where are the European PFAS Treatment Companies?!" -  Fajer Mushtaq (Oxyle) cover
"Where are the European PFAS Treatment Companies?!" -  Fajer Mushtaq (Oxyle) cover
(don't) Waste Water! | Water Tech to Solve the World

"Where are the European PFAS Treatment Companies?!" - Fajer Mushtaq (Oxyle)

"Where are the European PFAS Treatment Companies?!" - Fajer Mushtaq (Oxyle)

58sec |15/05/2024
Play
"Where are the European PFAS Treatment Companies?!" -  Fajer Mushtaq (Oxyle) cover
"Where are the European PFAS Treatment Companies?!" -  Fajer Mushtaq (Oxyle) cover
(don't) Waste Water! | Water Tech to Solve the World

"Where are the European PFAS Treatment Companies?!" - Fajer Mushtaq (Oxyle)

"Where are the European PFAS Treatment Companies?!" - Fajer Mushtaq (Oxyle)

58sec |15/05/2024
Play

Description

Oxyle is a company intensely focused on the treatment and monitoring of micropollutants, specifically PFAS. Over the last two and a half years, they have honed their technology to address the increasing market need for effective PFAS removal solutions. Oxyle’s approach leverages existing water treatment technologies but with a sharpened focus on PFAS, positioning themselves as a benchmark in the industry.


In this full podcast episode, Antoine Walter discusses with Fajer Mushtaq from Oxyle about the company's strategic refocus on PFAS pollutants. Over recent years, Oxyle has tailored its technology to specifically tackle the complexities of PFAS treatment, driven by market needs and the volume of customer inquiries. This adaptation has not altered their core technology but has sharpened its application, making Oxyle a leader in this niche market. The discussion delves into the technical aspects of their treatment processes, emphasizing the use of mechanical energy to enhance chemical reactions efficiently. Additionally, Fajer highlights the company's commitment to meeting rising regulatory standards while ensuring their treatments remain cost-effective and scalable, a significant concern for many of their clients. Oxyle's approach not only addresses environmental concerns but also aligns with the economic realities of the industries they serve, positioning them as a pivotal player in the water treatment industry.


Unique Insights:

  • Oxyle has recognized the shift in market demands towards PFAS treatment, adapting their technology to meet these new challenges without fundamental changes to their system.

  • The company emphasizes the importance of not just meeting regulatory standards but ensuring the treatment process is cost-effective and scalable, which has become a significant concern for their clients.

  • They highlight an innovative use of mechanical energy sources in their treatment processes, enhancing the efficiency of their catalytic reactions.

Key Ideas:

  • PFAS Focus: Oxyle has shifted its focus to PFAS due to high demand and regulatory pressure, aiming to establish industry benchmarks in this area.

  • Technology Adaptation: Their technology uses mechanical energy from water flow, making it energy-efficient and effective at breaking down pollutants.

  • Market Response: The shift was a direct response to customer needs, with Oxyle prioritizing PFAS treatment due to the volume of inquiries related to these compounds.

  • Regulatory Compliance and Cost: Oxyle balances compliance with regulatory standards with the economic concerns of their clients, ensuring their solutions are accessible.


Counter-Intuitive Facts:

  • Use of Mechanical Energy: Oxyle uses the mechanical energy from water flow as a primary energy source for their catalytic process, which is a novel approach in the treatment of PFAS.

  • Regulatory Ahead of Technology: While regulations are becoming stricter, Oxyle’s technology was already designed to meet future standards, which is uncommon as many companies often scramble to meet new regulations.

  • Cost-Effectiveness Over Direct Profit: Oxyle’s business model focuses on long-term cost-effectiveness and scalability rather than immediate profit margins from their hardware, choosing to earn through operational excellence and service.


Full Episode: https://dww.show/how-oxyle-destroys-pfas-with-the-energy-youd-actually-waste/


Hosted by Ausha. See ausha.co/privacy-policy for more information.

Description

Oxyle is a company intensely focused on the treatment and monitoring of micropollutants, specifically PFAS. Over the last two and a half years, they have honed their technology to address the increasing market need for effective PFAS removal solutions. Oxyle’s approach leverages existing water treatment technologies but with a sharpened focus on PFAS, positioning themselves as a benchmark in the industry.


In this full podcast episode, Antoine Walter discusses with Fajer Mushtaq from Oxyle about the company's strategic refocus on PFAS pollutants. Over recent years, Oxyle has tailored its technology to specifically tackle the complexities of PFAS treatment, driven by market needs and the volume of customer inquiries. This adaptation has not altered their core technology but has sharpened its application, making Oxyle a leader in this niche market. The discussion delves into the technical aspects of their treatment processes, emphasizing the use of mechanical energy to enhance chemical reactions efficiently. Additionally, Fajer highlights the company's commitment to meeting rising regulatory standards while ensuring their treatments remain cost-effective and scalable, a significant concern for many of their clients. Oxyle's approach not only addresses environmental concerns but also aligns with the economic realities of the industries they serve, positioning them as a pivotal player in the water treatment industry.


Unique Insights:

  • Oxyle has recognized the shift in market demands towards PFAS treatment, adapting their technology to meet these new challenges without fundamental changes to their system.

  • The company emphasizes the importance of not just meeting regulatory standards but ensuring the treatment process is cost-effective and scalable, which has become a significant concern for their clients.

  • They highlight an innovative use of mechanical energy sources in their treatment processes, enhancing the efficiency of their catalytic reactions.

Key Ideas:

  • PFAS Focus: Oxyle has shifted its focus to PFAS due to high demand and regulatory pressure, aiming to establish industry benchmarks in this area.

  • Technology Adaptation: Their technology uses mechanical energy from water flow, making it energy-efficient and effective at breaking down pollutants.

  • Market Response: The shift was a direct response to customer needs, with Oxyle prioritizing PFAS treatment due to the volume of inquiries related to these compounds.

  • Regulatory Compliance and Cost: Oxyle balances compliance with regulatory standards with the economic concerns of their clients, ensuring their solutions are accessible.


Counter-Intuitive Facts:

  • Use of Mechanical Energy: Oxyle uses the mechanical energy from water flow as a primary energy source for their catalytic process, which is a novel approach in the treatment of PFAS.

  • Regulatory Ahead of Technology: While regulations are becoming stricter, Oxyle’s technology was already designed to meet future standards, which is uncommon as many companies often scramble to meet new regulations.

  • Cost-Effectiveness Over Direct Profit: Oxyle’s business model focuses on long-term cost-effectiveness and scalability rather than immediate profit margins from their hardware, choosing to earn through operational excellence and service.


Full Episode: https://dww.show/how-oxyle-destroys-pfas-with-the-energy-youd-actually-waste/


Hosted by Ausha. See ausha.co/privacy-policy for more information.

Share

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Description

Oxyle is a company intensely focused on the treatment and monitoring of micropollutants, specifically PFAS. Over the last two and a half years, they have honed their technology to address the increasing market need for effective PFAS removal solutions. Oxyle’s approach leverages existing water treatment technologies but with a sharpened focus on PFAS, positioning themselves as a benchmark in the industry.


In this full podcast episode, Antoine Walter discusses with Fajer Mushtaq from Oxyle about the company's strategic refocus on PFAS pollutants. Over recent years, Oxyle has tailored its technology to specifically tackle the complexities of PFAS treatment, driven by market needs and the volume of customer inquiries. This adaptation has not altered their core technology but has sharpened its application, making Oxyle a leader in this niche market. The discussion delves into the technical aspects of their treatment processes, emphasizing the use of mechanical energy to enhance chemical reactions efficiently. Additionally, Fajer highlights the company's commitment to meeting rising regulatory standards while ensuring their treatments remain cost-effective and scalable, a significant concern for many of their clients. Oxyle's approach not only addresses environmental concerns but also aligns with the economic realities of the industries they serve, positioning them as a pivotal player in the water treatment industry.


Unique Insights:

  • Oxyle has recognized the shift in market demands towards PFAS treatment, adapting their technology to meet these new challenges without fundamental changes to their system.

  • The company emphasizes the importance of not just meeting regulatory standards but ensuring the treatment process is cost-effective and scalable, which has become a significant concern for their clients.

  • They highlight an innovative use of mechanical energy sources in their treatment processes, enhancing the efficiency of their catalytic reactions.

Key Ideas:

  • PFAS Focus: Oxyle has shifted its focus to PFAS due to high demand and regulatory pressure, aiming to establish industry benchmarks in this area.

  • Technology Adaptation: Their technology uses mechanical energy from water flow, making it energy-efficient and effective at breaking down pollutants.

  • Market Response: The shift was a direct response to customer needs, with Oxyle prioritizing PFAS treatment due to the volume of inquiries related to these compounds.

  • Regulatory Compliance and Cost: Oxyle balances compliance with regulatory standards with the economic concerns of their clients, ensuring their solutions are accessible.


Counter-Intuitive Facts:

  • Use of Mechanical Energy: Oxyle uses the mechanical energy from water flow as a primary energy source for their catalytic process, which is a novel approach in the treatment of PFAS.

  • Regulatory Ahead of Technology: While regulations are becoming stricter, Oxyle’s technology was already designed to meet future standards, which is uncommon as many companies often scramble to meet new regulations.

  • Cost-Effectiveness Over Direct Profit: Oxyle’s business model focuses on long-term cost-effectiveness and scalability rather than immediate profit margins from their hardware, choosing to earn through operational excellence and service.


Full Episode: https://dww.show/how-oxyle-destroys-pfas-with-the-energy-youd-actually-waste/


Hosted by Ausha. See ausha.co/privacy-policy for more information.

Description

Oxyle is a company intensely focused on the treatment and monitoring of micropollutants, specifically PFAS. Over the last two and a half years, they have honed their technology to address the increasing market need for effective PFAS removal solutions. Oxyle’s approach leverages existing water treatment technologies but with a sharpened focus on PFAS, positioning themselves as a benchmark in the industry.


In this full podcast episode, Antoine Walter discusses with Fajer Mushtaq from Oxyle about the company's strategic refocus on PFAS pollutants. Over recent years, Oxyle has tailored its technology to specifically tackle the complexities of PFAS treatment, driven by market needs and the volume of customer inquiries. This adaptation has not altered their core technology but has sharpened its application, making Oxyle a leader in this niche market. The discussion delves into the technical aspects of their treatment processes, emphasizing the use of mechanical energy to enhance chemical reactions efficiently. Additionally, Fajer highlights the company's commitment to meeting rising regulatory standards while ensuring their treatments remain cost-effective and scalable, a significant concern for many of their clients. Oxyle's approach not only addresses environmental concerns but also aligns with the economic realities of the industries they serve, positioning them as a pivotal player in the water treatment industry.


Unique Insights:

  • Oxyle has recognized the shift in market demands towards PFAS treatment, adapting their technology to meet these new challenges without fundamental changes to their system.

  • The company emphasizes the importance of not just meeting regulatory standards but ensuring the treatment process is cost-effective and scalable, which has become a significant concern for their clients.

  • They highlight an innovative use of mechanical energy sources in their treatment processes, enhancing the efficiency of their catalytic reactions.

Key Ideas:

  • PFAS Focus: Oxyle has shifted its focus to PFAS due to high demand and regulatory pressure, aiming to establish industry benchmarks in this area.

  • Technology Adaptation: Their technology uses mechanical energy from water flow, making it energy-efficient and effective at breaking down pollutants.

  • Market Response: The shift was a direct response to customer needs, with Oxyle prioritizing PFAS treatment due to the volume of inquiries related to these compounds.

  • Regulatory Compliance and Cost: Oxyle balances compliance with regulatory standards with the economic concerns of their clients, ensuring their solutions are accessible.


Counter-Intuitive Facts:

  • Use of Mechanical Energy: Oxyle uses the mechanical energy from water flow as a primary energy source for their catalytic process, which is a novel approach in the treatment of PFAS.

  • Regulatory Ahead of Technology: While regulations are becoming stricter, Oxyle’s technology was already designed to meet future standards, which is uncommon as many companies often scramble to meet new regulations.

  • Cost-Effectiveness Over Direct Profit: Oxyle’s business model focuses on long-term cost-effectiveness and scalability rather than immediate profit margins from their hardware, choosing to earn through operational excellence and service.


Full Episode: https://dww.show/how-oxyle-destroys-pfas-with-the-energy-youd-actually-waste/


Hosted by Ausha. See ausha.co/privacy-policy for more information.

Share

Embed

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