Indoor Chemical Wastewater Treatment Plant Reclaimed Water Reuse Equipment

Reclaimed Water Reuse Treatment Equipment: Used for reclaimed water reuse treatment of domestic sewage, industrial park comprehensive wastewater, rainwater, and landfill leachate.

Quick Details

We provide a modular advanced reclaimed water reuse system that adopts an innovative combined process of enhanced pretreatment - ceramic membrane solid-liquid separation - broad-spectrum adsorption protection - reverse osmosis advanced desalination. This system ensures that the quality of the produced water stably meets or even exceeds the reuse requirements for municipal miscellaneous use, landscape environment, industrial cooling and higher standards, providing customers with reliable water resource recycling guarantees.

The design of this system goes beyond the traditional reclaimed water reuse process. By introducing ceramic flat membrane as a revolutionary component, it overcomes the industry pain points of traditional polymer membranes such as easy contamination, easy breakage and frequent chemical cleaning, achieving a leap in system stability and service life.

First Barrier: Quartz Sand Filtration (Reliable Pretreatment):As the "coarse filtration guardian" of the system, it effectively removes suspended solids, colloids and large particles in water, significantly reduces turbidity and SDI value, provides primary protection for the subsequent core membrane unit, prevents scratches and clogging of the membrane surface by large particles, and improves the overall system stability.

Second Barrier: Ceramic Flat Membrane (Core & Revolutionary Advantage of the System):It replaces the traditional ultrafiltration (UF) membrane for precision solid-liquid separation. Its uniform submicron-level pore size can intercept nearly 100% of bacteria, viruses, suspended solids and macromolecular organic matter.

Core Value: Made of rigid ceramic materials, it is wear-resistant and tear-resistant, with a physical service life more than 3-5 times that of polymer membranes. The surface of the ceramic flat membrane is hydrophilically modified, making it difficult for pollutants to adsorb. It can withstand cleaning with strong acids, strong alkalis, high temperatures and oxidants (such as sodium hypochlorite), with a flux recovery rate close to 100%, which greatly reduces chemical agent consumption and maintenance costs during long-term operation. It provides continuous, high-quality membrane filtration effluent, creating nearly perfect influent conditions for the reverse osmosis system.

Third Barrier: Activated Carbon Treatment (Safety Guarantee & RO Protection):It adsorbs residual dissolved organic matter, trace odors, chromaticity and residual chlorine after ceramic membrane filtration. It deeply protects the downstream reverse osmosis (RO) membrane from organic contamination and oxidant erosion, which is a key step to extend the service life of RO membrane and ensure the stability of its desalination rate.

Fourth Barrier: Reverse Osmosis System (Advanced Purification & Desalination):As the final "water quality polishing" unit, it efficiently removes nearly all dissolved salts, ions, trace organic matter and pathogens in water. It produces high-purity reclaimed water with extremely low conductivity and crystal clarity, and the water quality can flexibly meet the standards from cooling cycle make-up water and boiler make-up water to higher-requirement process water.

Core Advantages of the System

Excellent & Flexibly Adjustable Effluent Quality:Through modular combination, the final produced water can further be upgraded to a quality close to tap water or even higher on the basis of meeting municipal reuse standards according to customer needs.

Unmatched System Stability & Low Maintenance Cost:The application of ceramic flat membrane is the biggest highlight of this system. Its nearly permanent mechanical strength and excellent chemical cleaning resistance completely solve the problems of filament breakage, rapid contamination and frequent replacement of traditional hollow fiber ultrafiltration membranes, improving the long-term operation reliability of the system by more than 60% and significantly optimizing the full life cycle cost.

Highly Intelligent & Automated Operation:Integrated with a PLC control system and equipped with comprehensive online water quality monitoring instruments (pressure, flow rate, conductivity, etc.), it realizes fully automatic operation and intelligent early warning, greatly reducing the technical dependence on operators.

Modular Design for Rapid Deployment & Expansion:The standardized skid-mounted design facilitates transportation, installation and commissioning, which can greatly shorten the project cycle. Membrane stacks or modules can be flexibly added according to the demand of water volume growth to meet future production expansion needs.

Outstanding Return on Investment (ROI):The system converts wastewater into stable and reliable water resources, directly reducing freshwater intake and sewage discharge fees. Combined with its characteristics of low energy consumption, low chemical consumption and low maintenance, the investment payback period is usually within 1-3 years, which has extremely high economic attractiveness.

Application Scenarios

Municipal & Real Estate: Advanced treatment and reuse of tail water from urban sewage treatment plants; gray water/reclaimed water reuse in large-scale communities, schools and commercial complexes.

Industrial Sector: Centralized reclaimed water plants in industrial parks; pretreatment of process water in electronics, electric power, chemical, food and other industries.

Commercial & Public Facilities: Landscape irrigation and cooling tower make-up water for high-end hotels, data centers, airports and golf courses.

Technical Specifications of 10 Tons/Hour Reclaimed Water Reuse Equipment

(The treatment process can be customized according to the influent water quality and effluent requirements)

Application Scope:

Reclaimed water reuse from domestic sewage, reclaimed water reuse from comprehensive wastewater in industrial parks, reclaimed water reuse from internal production wastewater of industrial enterprises, rainwater reuse, reclaimed water reuse from public facility drainage, reclaimed water reuse from tail water after landfill leachate treatment, etc.

Reclaimed Water Reuse System Flow Chart

(The process is customized according to the influent water quality and effluent requirements)

Raw Water (Effluent from Municipal Sewage Treatment Plants, Industrial Cleaning Wastewater, Industrial Production Wastewater, Rainwater)

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Pretreatment (Quartz Sand, Filtration Devices, etc.)

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Ceramic Flat Membrane (Ceramic Flat Membrane System, Sterilization Devices, etc.)

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Activated Carbon Treatment (Activated Carbon System, Chemical Dosing Devices, etc.)

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Cartridge Filter (1 μm Filtration Precision)

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Reverse Osmosis System (Multi-stage Treatment Adjusted According to Recovery Rate)

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Water Consumption Points