The challenge involves monitoring dredge pump-lines in Africas Rift Valley, facing harsh conditions, accessibility issues, and unreliable manual systems, requiring a robust, real-time integrated solution.

Rotary kilns rely on gearboxes and support rollers for efficient rotation, but high temperatures and low RPM hinder effective condition monitoring. Current ultrasonic methods are inadequate due to the harsh environment, leading to increased bearing failures and production stoppages. A robust monitoring system is needed to withstand these conditions, providing accurate data for proactive maintenance and preventing downtime. Addressing this challenge is essential for maintaining kiln efficiency and reliability in the production process.

We are seeking for innovative, cost-effective, and sustainable solutions to protect from corrosion and extend the service life of both RCC and MS structures. The proposed solutions should aim to provide a minimum of 10 -15 years of protection under these challenging conditions.

We are actively seeking for solutions that can eliminate the need for slag blasting altogether, especially in sensitive zones, while still achieving effective surface cleaning.

We are looking for a cost-effective and sustainable KOH recovery process from effluent stream.

Steel scrap is blended for desired density and composition before charging into an Electric Arc Furnace (EAF). Fluctuations in scrap density can cause inefficiencies and increased power consumption. An automated inspection system is needed for real-time scrap density detection