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Fully Automated Reclaimed Water Systems Commercial Water Recycling System

  • Fully Automated Reclaimed Water Systems Commercial Water Recycling System
  • Fully Automated Reclaimed Water Systems Commercial Water Recycling System
Place of Origin Guangdong,China
Brand Name Hongjie
Certification ISO 14001,ISO 9001,CE,EPA
Minimum Order Quantity >=1sets
Price negotiation
Packaging Details export standard wooden case
Delivery Time 1-7working days(depand on raw materials stocking)
Payment Terms L/C,D/A,D/P,T/T,Western Union,MoneyGram
Supply Ability >300sets/month

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Product Details
Flow Rate 0.25m³/h - 200m³/h (customizable ) Produced Water Quality Conductivity ≤ 15μs/cm
Core Technolog RO+UF Key Components RO Membrane Module + UF Membrane Module
Operation Mode Full Automatic (PLC-controlled) Product Features Stable Water Quality,Low Operation Cost,Reliable Performance
After-Sales Service 24/7 Technical Support, Lifetime Maintenance Power Supply 380V
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Fully Automated Reclaimed Water Systems

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Automated Commercial Water Recycling System
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Product Description

I. Equipment Introduction

The reclaimed water reuse equipment is a complete set of device that purifies various types of sewage (such as domestic sewage, industrial wastewater, etc.) through an integrated process, enabling it to meet the specified water quality standards and realize the cyclic reuse of water resources. It can effectively alleviate the shortage of water resources and reduce sewage discharge, and is of great significance in the fields of water conservation and environmental protection.

 

Hongjie Water Affairs' state-of-the-art reclaimed water reuse equipment leverages advanced membrane treatment technology, encompassing pre-treatment, ultrafiltration systems, reverse osmosis (RO) systems, and an optional EDI system. Through cutting-edge deep treatment processes, wastewater can be refined to meet stringent production water or domestic non-potable water standards, enabling seamless recycling. This not only leads to significant savings in enterprises' overall wastewater management expenditures but also plays a crucial role in environmental stewardship.

II. Design Standards and Basis

  1. Customized meticulously based on the comprehensive water quality reports provided by clients.
  2. Technical Specifications for Water Treatment Equipment (JB/T 2932-1999)
  3. Criteria for General Landscape and Ecological Water Applications (CJ/T 95-2000)
  4. Standards for Domestic Non-Potable Water Usage (CJ/48-1999)
  5. Requirements for Industrial Circulating Cooling Water (GB/T 50102-2003)
  6. Standards for Reverse Osmosis Water Treatment Equipment (CJ/T 119-2000)
  7. International Electrotechnical Commission Standard for Low-Voltage Switchgear and Controlgear Assemblies (IEC 439-1)

III. Process Flow

Wastewater → Collection Tank → Chemical Dosing → Reaction Tank → Sedimentation Tank → Chemical Dosing → Sand Filtration → Carbon Filtration → Fine Filtration → Booster Pump → Ultrafiltration (UF) → UF Water Tank → Booster Pump → Chemical Dosing → Fine Filtration → High-Pressure Pump → Reverse Osmosis (RO) → Pure Water Tank → Water Usage Point

IV. Design Features

  1. Fully Automated Control: Operate in automatic mode (with programmable backwash and regeneration sequences) or switch to manual control as needed.
  2. UPVC Piping: Durable UPVC pipes ensure long - lasting, corrosion - resistant fluid transport.
  3. Integrated Management: Combines control systems and instrumentation for simplified operation and oversight.
  4. Smart Consumables Alert: Automatic reminders for consumable replacement, triggered by real - time water quality/pressure changes (not just time - based). Adapts to regional water variations for optimal performance.
  5. Efficient Solid - Liquid Separation: Separates suspended solids, colloids, and microbial biomass from purified water with a compact, simple - to - use process. Delivers high - quality effluent, often reusable without tertiary treatment.
  6. High - Density Biomass Support: Maintains concentrated biomass in bioreactors to boost volume load, shorten hydraulic retention time, and reduce footprint.
  7. Microbial Stability: Prevents loss of microbial colonies, supporting slow - growing populations (e.g., nitrifying bacteria) for balanced metabolic processes.
  8. Enhanced Degradation: Extends retention of large, hard - to - break - down molecules to improve decomposition.
  9. Membrane Longevity: Mitigates fouling via regular backwashing/chemical cleaning to slow flux decline, sustaining MBR system lifespan.

 

 

Tags:

water reclamation equipment

industrial water reclamation system

waste water reclaim system