A Complete, Multi-Tiered Approach
We have packaged a number of interventions - each providing significant efficiency gains and emissions reductions in their own right, together as a suite to ensure you benefit from the cumulative effect of a multi-pronged approach to fuel efficiency. All interventions are accompanied by services that include stringent pre-implementation equipment health assessments, performance benchmark calibration and on-board management.
A culmination of over 10 years of research and development in the USA, our technology is a patented blend of metallic and organo-metallic catalysts in a solvent carrier added to fuel. Our catalysts facilitate the formation of free radicals that react with fuel to boost oxidation and combustion efficiency - improving fuel consumption, and by-products in exhaust gases to reduce unwanted emissions.
Our Air Enhancement intervention is based on the ionization of water vapour in the air intake stream prior to combustion using a proprietary ionization reactor. The ionisation reactor's composition and operating temperature of between 200°C and 250°C, allows for the molecular transformation of vaporised water into a super-heated ionised gas prior to injection into the combustion chamber, which results in a significantly improved combustion cycle.
Our innovative Nano-coating technology modifies the superficial structure of metallic components subjected to friction on an on-going basis, forming an enduring silicate layer that significantly lowers their friction coefficient - improving fuel consumption, lowering maintenance and extending the usable life of internal combustion engines, generators and other mechanical plant.
On-site and on-board fuel management and blending
To fully reap the benefits of your fuel efficiency solutions, you need to be able to control, measure and monitor performance - whether on the road or on site.
Available for bulk and on-board deployment scenarios, our automated combustion enhancer injection systems accurately inject combustion enhancing additives at the optimum ratio into device fuel systems - maximising efficiency benefits. These are remotely monitored and controlled - lowering operational and management overhead.