Multioxidative System - Industries
The industrial sector is one of the largest consumers and polluters of water. For this reason, government agencies closely monitor the quality of the water that industries discharge into the environment or return to treatment systems. These agencies also impose limits on the amount of water industries can withdraw from natural sources. As a result, nearly all industries have water and wastewater treatment plants within their facilities. Implementing advanced technologies in this sector, such as the Multioxidative System, can help industries achieve higher water quality while also generating significant cost savings.
The Multioxidative System has been successfully applied across various industries. Below, you can explore the key industries where it is used, how its application works, why the system is beneficial, and the main advantages it offers to the industry.
Schedule an Online Meeting
with a Specialist
What are the main challenges of water and wastewater treatment in industries?
-
Overloaded or inefficient internal treatment plants
-
High investment and high treatment costs
-
Large area occupation within the facility
-
Complex maintenance requiring the use of chemicals or membranes
-
Treatment processes that generate solid waste or harmful by-products requiring further treatment
-
Solutions that do not align with current sustainability demands
-
Fines from regulatory agencies due to poor discharged water quality
-
Limited water use concessions, restricting withdrawal from natural sources
How can the Multioxidative System help industries?
The Multioxidative System (MOS) is a water and wastewater treatment system focused on organic and biological decontamination. Its implementation, combined with other technologies, enables proper treatment, helping industries address their challenges in this sector. The Multioxidative System can be deployed in various ways to achieve different objectives, such as:
-
Organic Treatment System: In medium-sized industries that lack treatment plants or have effluents with low organic contamination, the Multioxidative System can serve as a standalone solution for water and wastewater treatment.
-
Enhancing Existing Treatments: In large industries, especially those that heavily contaminate water with high organic loads, the Multioxidative System can be integrated as part of the organic and biological decontamination process. Positioned before existing systems, it enhances treatment quality while significantly reducing current treatment costs.
-
Polishing: The Multioxidative System can be added at the final stage of existing treatment plants to help industries meet discharge regulations and sustainability requirements imposed by government agencies.
-
Water Reuse: The Multioxidative System can be applied to wastewater treatment, making the water suitable for reuse within the facility—whether in the production process or as reclaimed water—leading to significant cost savings.
Multioxidative System - Pulp and Paper Industry
The pulp and paper industry is one of the largest consumers of water, with its processes generating high volumes of wastewater containing organic matter, suspended solids, and chemical contaminants. Effective treatment is crucial not only for environmental compliance but also for reducing operational costs and improving sustainability.
The Multioxidative System (MOS) presents an innovative solution by enhancing organic and biological decontamination in water treatment. It can be implemented as a standalone treatment or integrated into existing wastewater treatment plants, significantly improving efficiency and reducing chemical consumption. By incorporating MOS, pulp and paper industries can achieve:
-
Improved Wastewater Treatment: Enhanced degradation of organic contaminants and reduction of recalcitrant compounds.
-
Cost Reduction: Lower chemical usage, reduced sludge generation, and optimized treatment processes.
-
Water Reuse Possibilities: Enabling treated water to be recycled back into industrial processes, reducing freshwater intake.
-
Regulatory Compliance: Assisting industries in meeting stringent environmental discharge regulations.
With its modular and adaptable design, the Multioxidative System provides an efficient and cost-effective solution to the complex water treatment challenges faced by the pulp and paper industry, aligning with sustainability goals and smart resource management.
Implementation of the Multioxidative System in the Pulp and Paper Industry
The Multioxidative System (MOS) can be seamlessly integrated into the water and wastewater treatment processes of the pulp and paper industry, addressing the sector’s high water consumption and contamination challenges.
Its flexibility allows for different implementation strategies, including:
-
Pre-Treatment Stage:
-
Applied before existing wastewater treatment systems to reduce the organic load and improve overall treatment efficiency.
-
Minimizes the need for chemicals and enhances biodegradability, optimizing biological treatment processes.
-
-
Integration with Existing Treatment Plants:
-
Implemented as an additional treatment stage to improve the removal of recalcitrant compounds, such as lignin derivatives and persistent organic pollutants.
-
Reduces sludge generation and chemical demand in secondary treatment stages.
-
-
Final Polishing Stage:
-
Placed at the end of the treatment process to ensure compliance with environmental regulations for effluent discharge.
-
Enhances water quality, making it suitable for potential reuse within the facility.
-
-
Water Reuse & Resource Optimization:
-
Enables water reuse for non-potable applications, such as cooling systems, process water, and general facility cleaning.
-
Contributes to sustainable water management by reducing freshwater withdrawal and wastewater disposal costs.
-
Benefits and Successful Implementations of the Multioxidative System in the Pulp and Paper Industry
The Multioxidative System (MOS) has been successfully implemented in several pulp and paper mills, delivering exceptional results in water and wastewater treatment. One of its most notable advantages is the significant reduction of contaminants, with observed decreases of 80% to 90% in COD (Chemical Oxygen Demand) and 85% to 99% in turbidity. This ensures a cleaner effluent that meets strict governmental discharge regulations, helping mills maintain compliance and avoid penalties.
Beyond regulatory adherence, the MOS enhances water reuse, allowing treated water to be reintegrated into the production process. This significantly reduces freshwater consumption, leading to substantial cost savings and a more sustainable operation. Additionally, the system optimizes treatment costs by minimizing the need for chemical additives and simplifying treatment processes.
By implementing the Multioxidative System, mills can improve their environmental sustainability, reduce operational expenses, and ensure a more efficient and eco-friendly water management system.
The textile industry is one of the largest consumers of water and generates highly contaminated wastewater due to the use of dyes, chemicals, and organic compounds. In addition to introducing harmful pollutants, textile wastewater often retains intense coloration, making treatment more complex. The Multioxidative System (MOS) stands out as an innovative solution by effectively reducing organic loads—even in dark or highly turbid water—and acting as a bleaching agent, improving water clarity. This is particularly beneficial for subsequent treatments like UV disinfection, which requires transparent water to function optimally.
By implementing the MOS, textile industries can achieve:
-
Efficient Contaminant Removal – Reduction of organic pollutants, persistent dyes, and recalcitrant compounds.
-
Water Clarity Improvement – Reduces turbidity and color, optimizing the effectiveness of other treatment technologies.
-
Cost Reduction – Lowers chemical consumption, minimizes sludge generation, and optimizes treatment processes.
-
Water Reuse Opportunities – Enables treated water to be reused within industrial processes, reducing the need for fresh water.
-
Regulatory Compliance – Ensures adherence to strict environmental discharge regulations, preventing fines and penalties.
With its adaptable and modular design, the Multioxidative System provides a cost-effective and sustainable solution to the challenges faced by the textile industry in wastewater treatment and water reuse.
Multioxidative System -Textil Industry
Implementation of the Multioxidative System in the Textile Industry
The Multioxidative System (MOS) offers a versatile and effective approach to wastewater treatment in the textile industry. It can be implemented at different stages of the treatment process to address key challenges such as color removal, turbidity reduction, and organic load degradation.
-
Pre-Treatment Stage – Initial Color and Turbidity Reduction
-
MOS can be applied before conventional treatment systems to significantly reduce color and turbidity, ensuring that the water entering subsequent stages is clearer and more manageable.
-
The system acts as a bleaching agent, breaking down dye molecules and preparing the water for biological and chemical treatments.
-
Improves the performance of UV and membrane filtration systems, which require transparent water for optimal efficiency.
-
-
Integration with Existing Treatment Plants – Organic Load Reduction
-
MOS can be incorporated into existing treatment facilities to reduce the organic and chemical load, improving biodegradability.
-
Enhances biological treatment processes by breaking down persistent organic pollutants, leading to lower sludge production and optimized chemical usage.
-
Reduces the demand for coagulants and flocculants in secondary treatment, lowering overall operational costs.
-
-
Final Polishing Stage – Ensuring Regulatory Compliance
-
As a post-treatment step, MOS ensures that wastewater meets stringent environmental discharge regulations by further reducing residual contaminants, COD, and turbidity.
-
Improves overall water quality, making it suitable for reuse within the production process, such as for dyeing, rinsing, and cooling applications.
-
Enhances odor removal and helps prevent biofilm formation in treated water storage systems.
-
-
Water Reuse & Resource Optimization – Sustainable Operations
-
By significantly improving water quality, MOS enables industries to reuse treated water, reducing reliance on freshwater sources.
-
Contributes to circular economy initiatives by minimizing wastewater discharge and optimizing water use efficiency.
-
Reduces costs associated with wastewater disposal and compliance with environmental regulations.
-
With its modular and adaptable design, the Multioxidative System provides textile industries with a cost-effective and sustainable solution to the complex challenges of wastewater treatment, ensuring compliance, operational efficiency, and environmental responsibility.
Benefits and Successful Implementations of the Multioxidative System in the Textile Industry
The Multioxidative System (MOS) has proven to be highly effective in textile facilities, delivering significant advancements in wastewater treatment. One of the key benefits is the reduction of contaminants, with COD reduced by 80% to 90% and turbidity reduced by 85% to 99%, leading to significantly cleaner effluent. The system also excels in color removal, drastically lowering dye concentrations, which improves water quality and makes it possible for the treated water to be reused.
Moreover, the MOS ensures that wastewater meets strict environmental standards, helping facilities comply with regulations and avoid potential fines or operational restrictions. It also optimizes treatment costs by minimizing the need for expensive chemical additives and simplifying treatment processes. Additionally, the treated water can be recycled within the production cycle, greatly reducing the need for fresh water and cutting operational costs.
By incorporating the Multioxidative System, the textile industry can achieve better sustainability, enhance operational efficiency, and realize significant cost savings, while addressing the critical environmental issue of wastewater contamination and color removal.
Multioxidative System - Beverage Industry
The beverage industry, which relies heavily on high-quality water for production, faces stringent requirements to ensure that water meets potable standards. Water used in beverage production must be free from contaminants and safe for human consumption, necessitating the use of advanced technologies to ensure compliance with health and safety regulations. The quality of water must meet rigorous standards, and the treatment of any potential harmful organic materials is a critical step in the process.
The Multioxidative System (MOS) offers an innovative solution for the beverage industry by enhancing organic and biological decontamination in water treatment. The system is designed to treat water to the highest purity standards and can be applied as a standalone solution or integrated into existing water treatment plants. Its ability to assist in the removal of organic contaminants, including the challenging PFAS (Per- and polyfluoroalkyl substances), makes it especially valuable. By incorporating MOS, the beverage industry can achieve:
-
Effective Water Purification: Efficient reduction of organic contaminants, including PFAS and other harmful organic compounds, ensuring the water meets potable standards.
-
Optimized Treatment Costs: Reduction in the need for expensive chemical additives and other complex treatment methods.
-
Improved Water Quality: Water treated through MOS can be reused in production processes, significantly reducing freshwater consumption.
-
Regulatory Compliance: Ensures that treated water meets health and safety standards for beverage production and regulatory discharge requirements.
The Multioxidative System can work alongside traditional treatment methods such as reverse osmosis, UV light, and AOP systems, enhancing their performance and helping to treat the by-products of these processes. By leveraging MOS, beverage producers can improve sustainability, operational efficiency, and cost-effectiveness while addressing one of the industry's key concerns—water quality.
Implementation of the Multioxidative System in the Beverage Industry
The Multioxidative System (MOS) can be seamlessly integrated into the water treatment processes of the beverage industry to address the specific challenges of ensuring potable water quality. Its flexibility allows for different implementation strategies, including:
-
Pre-Treatment Stage:
-
Applied before existing water treatment systems to reduce the organic load and enhance the overall efficiency of the treatment processes.
-
Improves biodegradability, optimizing biological treatment and reducing reliance on chemicals.
-
-
Integration with Existing Treatment Systems:
-
Used in conjunction with conventional treatment technologies such as reverse osmosis, UV light, and AOP to enhance the removal of harmful organic compounds and pathogens.
-
Assists in removing residual organic contaminants and by-products from conventional treatments, improving water purity.
-
-
Post-Treatment Stage:
-
Integrated at the end of the water treatment process to ensure that water meets strict potable standards for beverage production.
-
Improves the final water quality, ensuring compliance with health and safety standards required for food and beverage production.
-
-
Water Reuse & Resource Optimization:
-
Enables treated water to be recycled back into production processes, reducing the need for fresh water and minimizing operational costs.
-
Contributes to more sustainable water management by reducing water consumption and associated costs.
-