Lambert electrochemical reactor in operation

An Electrochemical Water Treatment Company

Solving Your
Unsolvables

We build modular electrochemical reactors that replace slow, chemical-heavy treatment systems with rapid, decentralized water treatment technology that handle the water conventional plants struggle with. No coagulants, No Large Civil Infra, No Biology.

200×

Faster than conventional

50%

Less sludge

40%

Lower OPEX

75%

Smaller footprint

Request a Pilot

*Values based on laboratory testing of specific effluent samples. Actual results may vary depending on wastewater composition and site conditions.

Supported & Recognized By

The Approach

We built one platform.

Our reactors integrate several electrochemical processes inside a single chamber and run on a patented oscillating electrode that solves passivation, the failure mode that has kept electrochemistry from scaling for decades.

Where electrochemistry meets industry

Every facility's effluent is unique. One size does not fit all, but one reactor can.

Textile dye effluent, pharmaceutical wastewater, heavy metals, cooling tower blowdown, municipal sewage. Our reactors are engineered for the water that conventional systems struggle with — treatment in minutes, not hours, with minimal sludge in a footprint legacy plants never could match.

Lambert engineers validating electrochemical reactor performance on labeled beakers

Multi-process, single chamber.

Electrocoagulation, electro-oxidation, electro-Fenton, electro-sorption, and in-situ disinfection run simultaneously inside the same reactor. No Large Civil tanks. No retention time stacking.

Oscillating electrode.

A self-renewing electrode surface stops buildup before it starts, the single biggest reason electrochemical reactors fail to scale, reducing passivation by up to 70%. The result: the reactor runs continuously, with fewer shutdowns and longer service intervals.

Feed Back Based Treatment.

An onboard machine-learning model continuously reads inlet water quality and flow, learns the plant's operating envelope, and autonomously modulates power and residence time. The reactor self-tunes — no operator on shift required.

How We Work

You show us your problem,We'll get you the Solution

4 Steps from conversation to treatment. And a partnership that keeps going.

Step 01

Sample and analyse

We evaluate your water and wastewater profile to determine the optimal reactor architecture, process flow, treatment conditions, and expected performance outcomes.

Step 02

On-site pilot

We deploy a sized pilot system at your facility for 1 to 4 weeks, operating directly on your effluent / sewage / cooling tower blowdown water under real operating conditions. Performance is continuously monitored and validated through regular testing.

Step 03

Full-scale deployment

QA/QC tested, shipped, installed, and commissioned at your facility. Modular skid-mounted or containerized formats reduce civil work and accelerate deployment timelines. Typical lead time: 4–8 weeks.

Step 04

Long-term partnership

Operator training, spare parts, consumables, remote technical assistance and onsite support continue after commissioning.

Lambert systems are designed for rapid deployment, modular scaling, and continuous optimization across changing wastewater conditions. Each installation is configured around the influent profile, operational constraints, and reuse or compliance targets of the facility.

Fail-Safe Modular Operation

The "Water Battery" architecture runs multiple electrochemical reactors in parallel. If one unit fails, the others instantly compensate. Zero plant downtime.

All Units Operational

Reactor #1

Load: 25%

Reactor #2

Load: 25%

Reactor #3

Load: 25%

Reactor #4

Load: 25%

Hot-Swap

Maintenance without shutdown

Infinite Scaling

Add modules as you grow

Effortless Installation, Immediate Results.

Set up our modular reactors in just two simple steps. Our system is designed for ease and efficiency, enabling you to start treating water in no time.