By harnessing on Cavitation, our turnkey solutions are totally chemical free but Cavitation by itself will not produce desired results. Based on a decade of practical experience, SIF Technologies has developed a set of protocols to generate desired outcome. We offer customers complete turnkey solutions which have been tried and proven. In the course of implementing our projects, our technology would be subjected to at least 12 months of rigorous testing and supported with experimental and empirical results. For more information on our turnkey solutions, refer to Our Solutions.

Traditional Cavitation is characterized by
High Energy Usage
Problem of cavity damage
Usually requires a separate motor
Heavy Maintenance

In contrast, SIF Technologies’ DPASYS® cavitation process:
Does NOT REQUIRE any electricity to operate
Works purely on circulation water flow-rate
Produced zero incidence of cavity damage
Requires minimum maintenance

SIF’s proprietary technology subjects the liquid to the forces of high and low pressure within the enclave of our cavitation chamber. By carefully defining appropriate parameters, cavitation can be limited and controlled to generate desired effects. Liquid passing through each treatment unit is subjected, firstly, to de-pressurization, and secondly pressurization. Both pressurization and depressurization can be carried out to any desired pressure levels. Most preferably, the de-pressurization occurs such that vapor pockets or bubbles are formed in the liquid. Furthermore, it is also preferable that pressurization should be sufficient to bring about the collapse or implosion of the bubbles.

Implosion of the bubbles results in strong hydraulic collisions in the liquid, resulting in kinetic energy being imparted to the liquid molecules such that the inter-molecular forces within large arrays/clusters of molecules in the liquid are overcome, thereby disrupting or breaking down large clusters into smaller clusters. The step of pressurization is carried out in the DPA system by passing through the aqueous liquid to be treated through a cavitation inducing means that comprises of constriction means provided at one of or both liquid inlet and outlet.