Oil and Gas

Wastewater treatment & ultrafines removal from OBM for oil & gas

Whether it’s for on site wastewater treatment for re-use or ultrafines removal from oil based mud (OBM ),LESI is a world-leader in electrokinetic systems for cost effective onsite wastewater treatment and ultrafines removal – onshore or offshore.

Gain huge savings treating wastewater for re-use with our turnkey, high-flow electrocatalytic oxidation (EOX ) system. The EOX is a chemical-free approach to solving your wastewater problems. Low maintenance, low consumables and high runtimes add up to one thing—a great bottom line.

Our innovative electro separation cell (ESC) removes ultrafines from synthetic and obm without chemicals or heat and can be manufactured for onshore or offshore use. Low maintenance and easy to use, the esc will save you thousands of dollars a day by treating your synthetic obm or obm onsite and reclaiming drilling fluid for re-use.

Proven Technology

Proven, innovative wastewater treatment system Lesi is a world leader in using advanced electrocatalytic oxidation to treat wastewater. Fast, chemical-free wastewater treatment, the eox treatment technology combines high current electrocoagulation with high concentration ozone to create the most powerful advanced electrocatalytic oxidation approach in the world. Mobile, modular or fixed plant, the eox achieves broad-spectrum contaminant removal without the use of chemicals. It is fast, compact and effective.

Advanced ultrafines removal

The electro separation cell (esc) system is a chemical-free, turnkey obm and drilling fluid recovery system for the oil and gas industry.The esc consistently removes low gravity solids (lgs) from synthetic and oil-based mud (obm) using in a flow-through mode on a rig or batch mode for pure oil recovery from spent mud.

Features

High Flow Rate Both Our Eox And Esc Systems Are High Flow Systems With Variable Flow Rate Options Depending On Customer Requirements.

Low Consumables & Easy To Use The Eox And The Esc Have Low Consumables And Are Compact And Easy To Run. We Can Manufacture The System You Need For Purchase Or Rent. We Design All Our Systems To Be Turnkey And Low Maintenance.

Low Energy Usage Because Our Electrokinetic Systems Use Voltage Only, Our Technologies Have Very Low Energy Requirements. The Eox And The Esc Have The Lowest Operating Costs/m3 In The Industry In Their Respective Categories.

Csa, Ul And Iecex Certification Available We Can Design And Build To Csa, Ul And Iecex Certification If Required. We Can Also Design And Manufacture For Offshore Specifications.


Related Products

EOX - Electrocatalytic Oxidation System Powerful, Chemical-Free Wastewater Treatment The Electrocatalytic Oxidation (EOX) treatment system is a chemical-free, turnkey wastewater treatment process for oil and gas, municipal, industrial and agricultural industries. The EOX combines high current electrocoagulation with high concentration ozone to create the most powerful advanced electrocatalyitic oxidation approach found anywhere. Mobile, modular or fixed plant, the EOX achieves broad-spectrum contaminant removal without the use of chemicals.

ESC - Electro Separation Cell System. Ultrafine Colloidal Solids Control for OBM The ESC is the only process in the world that can remove colloidal solids consistently from Synthetic and Oil-Based Mud. With the ESC system you can program the desired density output on the human machine interface to your exact customer density specifications. The result is exactly what you require, which results in huge savings.

MPE - Multi-Phase Extraction Multi-Phase Extraction (MPE): Insitu Remediation with 99.9% Runtime At every step, our team focuses on making our equipment powerful, versatile and easy to maintain. Our insitu remediation Multi-Phase Extractor 2700 Series is another example of our innovative design in action. Our integrated treatment system incorporates an oil/water separator and vacuum air stripper in one system, reducing maintenance. This extremely quiet unit makes it ideal for operation in residential areas.