Portable Filtration MS Range

VISUAL EVIDENCE

Page 6–7 microscope images : “new oil” contained visible water bubbles and particulates. Before cleanse : larger fibres, heavy water droplets, and particulate contamination visible. After cleanse : water droplets minimised, particle size and volume dramatically reduced.

INTERPRETATION

New oil cannot be trusted – delivery oil was contaminated above safe levels. Kleenoil proved effective at removing fine particles (over 80% reduction across the 4–14 µm range). Additives preserved – calcium, phosphorus, zinc remained strong, proving no chemical degradation. Water remained higher than ideal – further passes or extended filtration would bring this below target. PQ index stable – wear metals not increasing, confirming no new wear was generated during cleansing.

BENEFITS OF KLEENOIL CLEANSING

Protects high-value equipment – cleaner oil reduces abrasive wear on gears, pumps and valves. Extends oil life – stabilised TAN and viscosity mean oil can be safely reused. Reduces costs – avoids unnecessary oil disposal and repurchase. Provides divisive proof – particle counts & ISO codes give measurable evidence of improvement. Supports sustainability – reuse instead of drain-and-replace lowers waste oil disposal.

CONCLUSION

This cleanse at JMT Plant proved two critical lessons:

Oil labelled as “new” is rarely clean enough — base oil contained extreme water and particulate contamination. Kleenoil bypass filtration transforms dirty oil into clean, reusable oil , reducing particles by over 80% and achieving ISO 18/16/12 cleanliness. For JMT, this case showed that oil should be treated as an asset, not a consumable . With Kleenoil, oil is reclaimed, performance is restored, and equipment reliability is secured. 1. 2.

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