Innovations

A cost-effective, highly efficacious trough assembly for collecting and removing drops with minimal air-side pressure drops for use in evaporative heat exchangers or cooling towers. The innovation reduces water consumption and required fan power. The elimination of a rain zone reduces the required

This technology uses Unmanned Aerial Vehicles (UAVs) fitted with a camera to calibrate heliostats in large Concentrating Solar Power (CSP) or Concentrating Solar Thermal (CST) tower systems. The UAV does not have a single fixed position and provides several advantages over traditional methods using

Geasy: The Smart Geyser System Together the smart geyser controller and consumer management devices form a system that enables considerable water and electricity savings. The system monitors the geyser in real-time and allows the consumer to set an optimal heating scheduling. Using an online

SUNSPOT is a solar thermal power plant with rock-bed storage, containing a unique set of patented and individually licensable Stellenbosch University technologies. The SUNSPOT cycle is appropriate and efficient for generating, storing and deploying solar power in arid regions.

A cost-effective tip appendage design that reduces tip leakage vortices in axial flow fans to improve fan performance. The appendage is robust in that it is applicable to various axial flow fan designs and can be installed on currently operational units through retrofitting due to its simplistic

Power plant efficiency is generally determined by projected electricity tariffs and power plant life cycle costs during the design phase. This technology can be installed below wet cooling tower fills to significantly enhance the thermal performance of the cooling towers, resulting in a reduction in

This technology uses Unmanned Aerial Vehicles (UAVs) fitted with a camera to calibrate heliostats in large Concentrating Solar Power (CSP) or Concentrating Solar Thermal (CST) tower systems. The UAV does not have a single fixed position and provides several advantages over traditional methods using

The PureLite Reactor™ provides a highly efficient and customisable platform for various applications. Its energy-efficient LED light sources, advanced control systems, and versatile design give researchers precise control over photochemical reactions, making it a vital tool in environmental science

NanoThermX™ introduces a novel method for producing high-performance nanofluids through an irradiation-assisted synthesis process that combines a base fluid with a selected precursor. This innovative approach improves the stability, dispersion, and uniformity of nanoparticles within the fluid

The invention involves a sol-gel-based uniform carbon-coating process designed to create high-performance lithium-ion batteries. This process uses carbon nanotubes and an improved carbon-coating method that incorporates organic phosphoric acid as both a carbon and phosphorus source. This allows for

This invention relates to tubular fixed bed reactors (TFBRs), specifically to a reactor internal component designed to improve heat transfer performance during exothermic catalytic processes such as Fischer–Tropsch Synthesis (FTS). The technology includes (i) a reactor internal component for a fixed

This invention relates to a small-scale, ecologically friendly energy conversion system that generates electricity from ambient thermal energy. The system captures and stores heat from various natural and man-made sources, including sunlight, vehicle exhausts, power plants, industrial processes, and