Reduce freshwater demand
Reuse treated water for suitable utilities and processes to reduce intake and exposure to supply shortages.
Water securityHigh-performance recycling plants engineered to reduce freshwater demand, lower discharge volumes and deliver dependable water quality for reuse.
Industrial wastewater recycling treats used process water to a quality matched to its next application. Instead of treating water as a one-way utility, ARISEO creates an engineered loop that protects production, conserves freshwater and improves environmental performance.
Every system begins with wastewater characterization and a water-balance study. The treatment train is then selected around contaminants, recovery targets, operating profile, footprint and the intended reuse point—not around a one-size-fits-all package.
Recycling creates measurable value across water security, compliance, cost control and operational resilience.
Reuse treated water for suitable utilities and processes to reduce intake and exposure to supply shortages.
Water securityControl pollutant load and discharge quality with a monitored treatment train designed around applicable norms.
Responsible dischargeCut water procurement, tanker dependency and discharge expense through efficient reuse and resource recovery.
Operating savingsStrengthen water stewardship goals with a practical circular-water strategy and transparent operating data.
Lower water footprintThe final process is customized after water testing. A typical industrial recycle train moves through these coordinated treatment barriers.
Balance hydraulic and pollutant variations for stable downstream operation.
Screening, pH correction, coagulation and clarification remove bulk solids.
Controlled biomass reduces biodegradable organics and nutrient load.
Media, carbon and UF barriers polish suspended matter and turbidity.
RO or purpose-selected membranes reduce dissolved salts and residuals.
Final conditioning protects the chosen storage and reuse application.
ARISEO combines proven treatment technologies with practical engineering for reliable recovery, simple operation and maintainable performance.
Get a technology recommendationHigh-rejection membrane separation for dissolved salts and demanding reuse-quality targets.
High recovery configurationConsistent low-turbidity feed for downstream reuse or RO.
Polishing for colour, odour and selected organic compounds.
Aerobic, MBBR or MBR-based removal selected for the load.
UF, NF, RO and MBR integration from one engineering partner.
PLC control, alarms, instrumentation and performance visibility.
Optimized pumps, operating logic and hydraulic design.
Accessible layouts and component selection that simplify upkeep.
Skid-based systems that support fast installation and expansion.
Designed for your present load, peaks and future production plans.
Treatment chemistry, recovery target and reuse application are adapted to each facility’s operating reality.
Wash water, cooling and utility reuse
Colour, organics and dissolved-solids control
Consistent quality and monitored treatment
Complex effluent and variable loading
High-organic wastewater and utility reuse
Paint shop, washing and process utilities
Flushing, cooling and landscape reuse
Reliable treatment for non-potable reuse
Compact automated recycling systems
Campus reuse and water stewardship
From wastewater analysis and process engineering to commissioning and long-term plant support, ARISEO keeps every stage connected to your performance goals.
Discover ARISEO
Water balance, treatability studies and a process train selected around your wastewater and reuse target.
Coordinated design, procurement support, erection, testing and commissioning from one technical team.
Purpose-selected membranes, pumps, vessels, valves and instruments designed for maintainable performance.
Troubleshooting, membrane services, annual maintenance and O&M assistance after plant startup.
Illustrative configurations show how ARISEO can combine core technologies for different wastewater profiles, capacities and installation constraints.
Capacity ranges and configurations are illustrative. Final selection follows wastewater analysis, reuse-quality targets and site conditions.
Every wastewater is different. These answers cover the decisions that usually shape a recycling plant.
It is a coordinated treatment system that removes suspended solids, organics, dissolved contaminants and microorganisms so wastewater can be reused for a defined industrial, utility or non-potable application.
The process depends on wastewater quality and the reuse target. It may include equalization, chemical pre-treatment, biological treatment, media or carbon filtration, UF, RO, disinfection and sludge dewatering.
Yes. Capacity and redundancy are engineered around average and peak flows, operating hours, production growth, available footprint and the client’s desired recovery level.
Schedule depends on capacity, civil readiness and treatment complexity. Modular plants can shorten site work; ARISEO defines engineering, manufacturing, erection and commissioning milestones during proposal development.
Power, chemical consumption, membrane replacement, sludge handling, labour and recovery target are the main drivers. Efficient hydraulic design and automation help control lifecycle cost.
Routine work includes instrument checks, chemical preparation, pump and blower inspection, filter backwashing, membrane cleaning, sludge removal and performance logging. ARISEO also offers AMC, troubleshooting and O&M support.
Depending on treated-water quality, common uses include cooling towers, floor and equipment washing, flushing, gardening, construction, boiler-feed pre-treatment and selected process applications.
ARISEO serves industrial and institutional sectors including engineering, automotive, textiles, food and beverage, pharmaceuticals, chemicals, power, commercial facilities, hotels, hospitals and campuses.
Share your flow, wastewater analysis and reuse objective. ARISEO will help define the right treatment strategy, capacity and project path.