Advanced Industrial Hazardous Waste Reclamation Systems

Advanced Industrial Hazardous Waste Reclamation Systems

Online Realtime Monitoring

CETI couples real time monitoring for command and control of each system (“SCADA” or Supervisory Control and Data Acquisitions) in the field. Real time data collected with histograms from our modular architecture allows us to deploy machine learning logic.

For example, based upon a raw water or oil supply sample, we can calculate the most efficient process of contaminant extraction, then customize processes that benefit the most in deploying ultrasonic [with bump back flow] to achieve the highest turnaround efficiencies for cleaning.

Closed Loop Control

With our closed loop systems, we can answer some basic questions in real time:

IS THE WATER SAFE TO DRINK?

IS IT FREE FROM HARMFUL CONTAMINANTS? DOES IT MEET OR EXCEED EPA STANDARDS?

We know in real time the content of the feed water, intermediate water, clean water and concentrate. All filtered water is approved off of Spectrometric Quality Control [every 10 seconds] of contaminants and implement appropriate micro changes in seconds.

 

Our Commercial systems crystalize the concentrate for collection into waste burial sites. Our sensors are rated ten bar, corrosion proof, with 5000 hours MTBF or [mean time before failure].

Electro-Dialysis

Electro Dialysis fits into multiple brackish, wellhead, and desalinization applications. Coupled with micro-cavitation techniques, their use forms foundational and post treatment processes found in larger systems. We use it on smaller applications to increase output, efficiency, and reduce energy footprints by 60% over ordinary filtration systems designed for the same purpose.

Nanofiltration

Nano-mechanics has evolved into advanced manufacturing methods under single atom strata injection with dynamic results. Integration of submicronic capture is used in several stages of our filtration system, to the extent of pre-filtration prior to membrane implementation.

 

We reduce nominal particulates from 5 microns to .02 microns. Think of it as reducing particulates from 80 ounces being slung at a filter membrane to 3.2 ounces. That equates to 25 times less weight and force which increases membrane system life spans exponentially.

Microcavitation

Applications determine the best type of technology needed. Included is microbubble, thermal dissipation, accoustical wave, or plasma arc. We deploy the process in the proper nanosphere, thereby decreasing diffusion rates, flocculation rates, retention time, reactant reagents, chemical dosing levels, and antiscalant measures up to 500%. 

 

Our low energy footprint coupled with advanced process methods increase yields far beyond normal ranges found in typical filtration systems.

Improved Selectivity
Removal

Applications determine the best type of technology needed. Included is microbubble, thermal dissipation, accoustical wave, or plasma arc. We deploy best practice solutions using multi-discipline methods to minimize the structural and operational costs.

 

Our low energy footprint coupled with advanced process methods increase yields far beyond normal ranges found in typical filtration systems.

90%

Increase Salinity Extraction using nanoscale methods by over 92%

60%

Reduced Energy and Capex Costs

By over 60% Vs Ordinary Systems

100%

100% Removal of Plastic Toxins

Targeted extract control

20%

Reduce Power Costs

Saving over 20% in operation costs

© 2025 Cyber Enviro-Tech