Pharem awarded 170 kEUR funding from the Baltic Sea Action Plan Fund

Pharem’s Zymatic Technology Aims to Protect the Baltic Sea

Introduction to the Baltic Sea’s Unique Ecosystem

The Baltic Sea is known for its distinctive brackish water, which results in a unique yet limited biodiversity. The slow water exchange rate in the region means that pollutants have a prolonged presence, making the ecosystem particularly vulnerable to micropollutants. Addressing this issue is crucial to achieving the Sustainable Development Goal (SDG) 14: Life Below Water, which aims to conserve and sustainably use the oceans, seas, and marine resources.

Zymatic: A Sustainable Solution for Wastewater Treatment

Pharem has received funding from the Baltic Sea Action Plan to showcase the effectiveness of Zymatic, a natural-based technology, in treating micropollutants at wastewater treatment plants (WWTPs). This innovative approach utilizes enzymes as natural catalysts, offering a cost-efficient and sustainable treatment method that aligns with the upcoming EU directive on performance requirements. The adoption of Zymatic technology supports SDG 6: Clean Water and Sanitation, by ensuring access to clean water and sanitation for all.

CEO’s Commitment to Environmental Protection

Martin Ryen, CEO of Pharem, emphasizes the importance of preserving the Nordic water environment and acknowledges the long-standing issue of micropollutants in water. With Zymatic, Pharem aims to provide a solution that not only meets EU regulations but does so affordably and sustainably, reflecting the company’s dedication to SDG 12: Responsible Consumption and Production.

Project Implementation and Impact

The Zymatic URBAN project is set to be implemented at Bergkvara reningsverk in Torsås municipality, which is connected to the Baltic Sea. This installation will allow for monitoring the release of micropollutants into the Baltic Sea and assessing the effectiveness of the Zymatic solution. The project is scheduled to commence operations in Q2/Q3 2024.

Zymatic URBAN: A Tailored Treatment for Municipal WWTPs

Zymatic URBAN is a standardized treatment solution designed specifically for municipal wastewater treatment plants. It employs a broad-spectrum mixture of enzymes, known as Zymatic Sand, which can be utilized in existing sand filtration equipment or other MMF systems. This innovative approach offers several advantages:

1. Low investment costs
2. Short start-up time
3. Simple operations

In conclusion, Pharem’s Zymatic technology presents a promising step towards achieving multiple Sustainable Development Goals by addressing the critical issue of micropollutants in the Baltic Sea. Through sustainable innovation and commitment to environmental protection, Pharem is contributing to a healthier marine ecosystem and a cleaner future.

SDGs Addressed in the Article

The article addresses the following Sustainable Development Goals (SDGs):

1. SDG 6: Clean Water and Sanitation
2. SDG 14: Life Below Water
3. SDG 9: Industry, Innovation, and Infrastructure
4. SDG 12: Responsible Consumption and Production

Specific Targets Under the SDGs

Based on the article’s content, the following specific targets can be identified:

• Target 6.3: Improve water quality by reducing pollution, eliminating dumping and minimizing release of hazardous chemicals and materials.
• Target 14.1: Prevent and significantly reduce marine pollution of all kinds, particularly from land-based activities, including marine debris and nutrient pollution.
• Target 9.4: Upgrade infrastructure and retrofit industries to make them sustainable, with increased resource-use efficiency and greater adoption of clean and environmentally sound technologies and industrial processes.
• Target 12.4: Achieve the environmentally sound management of chemicals and all wastes throughout their life cycle, in accordance with agreed international frameworks, and significantly reduce their release to air, water, and soil to minimize their adverse impacts on human health and the environment.

Indicators Mentioned or Implied in the Article

The article implies the following indicators to measure progress towards the identified targets:

• Indicator 6.3.2: Proportion of bodies of water with good ambient water quality.
• Indicator 14.1.1: Index of coastal eutrophication and floating plastic debris density.
• Indicator 9.4.1: CO2 emission per unit of value added.
• Indicator 12.4.2: Hazardous waste generated per capita and proportion of hazardous waste treated, by type of treatment.

Table: SDGs, Targets, and Indicators

The article discusses the implementation of a new technology called Zymatic at wastewater treatment plants (WWTPs) to reduce micropollutants in the Baltic Sea. This aligns with SDG 6 which focuses on clean water and sanitation by targeting the improvement of water quality (Target 6.3). The article also touches on SDG 14 which aims to conserve life below water by preventing marine pollution (Target 14.1). Additionally, the article mentions the use of sustainable technology which is related to SDG 9 that promotes industry innovation and infrastructure (Target 9.4), as well as SDG 12 which emphasizes responsible consumption and production through the management of chemicals (Target 12.4).

The indicators for these targets are not explicitly mentioned in the article but can be inferred from the context. For example, the reduction in micropollutants can be measured using Indicator 6.3.2 which looks at ambient water quality, while the impact on marine life can be assessed using Indicator 14.1.1 which includes metrics for coastal eutrophication and debris density.

Copyright: Dive into this article, curated with care by SDG Investors Inc. Our advanced AI technology searches through vast amounts of data to spotlight how we are all moving forward with the Sustainable Development Goals. While we own the rights to this content, we invite you to share it to help spread knowledge and spark action on the SDGs.

Fuente: mynewsdesk.com

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