Innovations

Biosurfactants produced by Pseudomonas aeruginosa SB24 (rhamnolipid congeners), Bacillus amyloliquefaciens ST34 (surfactin and bacillomycin L analogues and homologues) and pigmented (P1) and non-pigmented (NP1) Serratia marcescens strains (serratamolide and glucosamine derivative homologues) were

Many filtration systems overlook a major issue for oxygen-sensitive liquids like wine: oxidation during transfer and filtration. Even small amounts of oxygen can degrade quality. This apparatus provides a closed, inert-gas-pressurized filtration system that keeps wine fully protected from oxygen

Planktonic or free-living microbes naturally adhere to the sensing surface of the BioTrac system. These biofilms are representative of the physical biofouling that occurs on surfaces in the test environment. The microbes produce carbon dioxide (CO₂) as a byproduct of metabolic activity. The rate of

The technology relates to an innovative process for converting waste cooking oils to biosurfactants that are applicable to various industries. The process utilises a special yeast strain to convert waste into biosurfactant at competitive concentrations. The downstream process includes a bioreactor

The innovation describes a process for removing lead from a liquid such as contaminated water. The liquid is brought into contact with a PbrD protein which binds lead ions present in the liquid. The bound lead ions can then be recovered, for example as an insoluble salt or compound such as lead

CloudHarvest ™ is an innovative solution that tackles the rising frequency of droughts and water shortages caused by climate change. It offers a sustainable way to influence weather patterns and water availability in vulnerable regions. During severe droughts, cloud seeding has been proven as an

During beer production, around 2–4% excess yeast is generated and removed, causing significant beer loss of up to 400 mL for every litre of yeast discarded. Since beer production is highly water-intensive (about 3.5 L of water per litre of beer), this loss also represents substantial wasted water

AquaCarbon™ introduces a high-performance membrane technology designed for membrane distillation desalination. The innovation integrates multi-walled carbon nanotubes (MWCNTs) into polyvinylidene fluoride (PVDF) membranes to create a robust, highly hydrophobic, and porous structure capable of

The AquaHarvest™ System is an innovative water generation technology that produces liquid water directly from air. It uses an air current generator and a specially designed flow body with a constricted section that cools incoming air to near its dew point. As the air exits the outlet, water