Electrocoagulation Systems

PR320-2 Skid System - Up To 75 GPM Per Skid

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electrocoagulation water treatment system with two reactors
electrocoagulation system with standard configuration back side

Simple and effective treatment for any application.

  • Proprietary Power System-   Eliminates Electrode Overheating, Which Is The Main Cause Of Electrode Passivation.
  • Brackish & Brine Water-  Designed For Treating High Salinity Water With Maximum Energy Efficiency
  • Effective Treatment- More Electrode Area Than Most Alternative Electrocoagulation Systems
  • Sealed Reactors- Eliminates Additional Pump Station, Simplifies Containment Of Any Foam Caused By Surfactants
  • Uses Steel Or Aluminum Plates-  Customers Can Furnish Their Own Electrode Plates And Weld-On Electrode Connectors
  • Maximum Flow Rate**: 75 GPM
  • Minimum Flow Rate: 40 GPM
  • Power Required: 240 VAC, 1 Phase, 100 A Breaker
  • Maximum Temperature: 140 Deg. F.
  • Skid Dimensions (Inch): 48″W x 50″D x 80″H
  • Skid Weight W/ Steel Electrodes: 4,500 pounds
  • Reactor Count: 2
  • Electrode Count Per Reactor: 40
  • Electrode Type: Steel or Aluminum Plate
  • Combined Electrode Count: 80
  • Combined Electrode Area: 640 Square Feet
  • Combined Electrode Weight, Steel: 1,600 Pounds
  • Minimum Water Conductivity Required For Industrial Apps: 1,000 Microsiemens
  • Maximum Treatable Water Conductivity: 650,000 Microsiemens
  • Manifold Inlet/Outlet: 3 Inch FPT

**Actual Treatment Flow Rate Depends On The Type Of Water Being Treated & Desired Level Of Treatment.  

TR320-4 Trunnion System - Up To 150 GPM Per Modular Train

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Electrocoagulation Water Treatment System
electrocoagulation system trunnion reactors in maintenance position
  • Easy To Maintain- Patented Trunnion Style Reactors Rotate For Safe & Convenient Horizontal Electrode Plate Replacement. 
  • Proprietary Power System-   Eliminates Electrode Overheating, Which Is The Main Cause Of Electrode Passivation.
  • Brackish & Brine Water- Designed For Treating High Salinity Water With Maximum Energy Efficiency.
  • Effective Treatment- 320 Square Feet Of Electrode Area Per Reactor, More Than Most Alternative Electrocoagulation Systems
  • Sealed Reactors – Eliminates Additional Pump Station, Simplifies Containment Of Any Foam Caused By Surfactants  
  • Mobile Container Solution- Trunnion Reactors Allow External Electrode Replacement Without Using Hazardous Overhead Cranes. 
  • Uses Steel Or Aluminum Plates-  Customers Can Furnish Their Own Electrode Plates And Weld-On Electrode Connectors
  • Maximum Flow Rate**: 150 GPM
  • Minimum Flow Rate: 80 GPM
  • Power Required: 380 to 480 VAC, 3 Phase, 100 A Breaker
  • Maximum Temperature: 140 Deg. F.
  • Skid Dimensions (Inch): 88″W x 26″D x 80″H
  • Skid Weight W/ Steel Electrodes: 5,600 pounds
  • Power Controller Dimensions (Inch(: 34″W x 18″D x 72″H
  • Power Controller Weight: 1,600 Pounds
  • Reactor Count: 4
  • Electrode Count Per Reactor: 40
  • Electrode Type: Steel or Aluminum Plate
  • Combined Electrode Count: 160
  • Combined Electrode Area: 1,280 Square Feet
  • Combined Electrode Weight, Steel: 3,200 Pounds
  • Minimum Water Conductivity Required For Industrial Apps: 1,000 Microsiemens
  • Maximum Water Conductivity: 650,000 Microsiemens
  • Manifold Inlet/Outlet: 2 Inch MPT With Cam Connector Per Reactor

**Actual Treatment Flow Rate Depends On The Type Of Water Being Treated & Desired Level Of Treatment.  

We Also Design Custom Systems For Your Exact Requirements.

electrocoagulation system power supply for high conductivity water treatment applications

Exclusive Performance

High salinity creates a problem for alternative electrocoagulation system designs as they are forced to heat the water with wasted energy that leads to excessive passivation, pitting, and inordinate consumption of the electrodes.   GlobalSep’s MPD power supply solves this problem by effectively controlling current density while maintaining the minimum required cell voltage.

Heavy Duty, Sealed Reactors

Our patented reactors are bolted together using extra thick, chemical resistant CNC machined plastic compressed between two solid pieces of thick gauge steel plates.  Mating fasteners on the ends of the reactor serve as locating pins for installation of the cap member.  Reactors are sealed for low pressure operation and can be completely disassembled.