LARINI COLLECTION > LAMBORGHINI > GALLARDO LP560-4 ('08>) > BMC 'PERFORMANCE' ENHANCEMENT AIR FILTER REGENERATION KIT

LAMBORGHINI GALLARDO LP560-4 ('08>) - BMC 'PERFORMANCE' ENHANCEMENT AIR FILTER REGENERATION KIT

BMC 'Performance' Air Filter Regeneration KitPart No: WA250-500ETA: In Stock$36

ADVANCED CONSTRUCTION

  • Designed For Use With BMC Cotton Air Filters

  • No Adverse Technical Implications

  • Laboratory Test Reports Show Safe, Reliable Use

  • Removes Grime And Particle Build Up

THE DIFFERENCE

  • Improved Durability Over Standard: Washable/Re-useable

  • For All BMC Model Variants

  • Manufactured Using Techniques Similar To Formula One Production

  • No Sacrifice In Particle Retention

LEADING GAINS

  • Optimal CFM/AirFlow

  • Helps Maintain Increased BHP & Torque

  • Re-Charges Cleaned Filters

  • Optimises Flow

ENQUIRY »

ORDER »

ALTERNATIVE PARTS »

PRICING

  • Listed prices exclude VAT (where applicable)

  • Listed prices exclude shipping


BMC filters are made of a multi-layered cotton gauze soaked with low viscosity oil covered with an epoxy coated alloy mesh to ensure protection from petrol fumes and oxidization due to air humidity.

All BMC air filters are pre-oiled, and they can be washed and regenerated by using the appropriate BMC regeneration kit.

Stage 1: Servicing -

Developed for use with BMC cotton air filtration systems, the BMC Detegent solution provides a quick and easy method for preparing the filter for regeneration for continued use.

The detergent removes existing particle build up and general residue leaving a prime cotton filter ready for the BMC regeneration fluid bottle (see accessories). Filter cleaning is recommended every 15,000 miles (depending on usage and local conditions) to maintain tip top filter condition.

Stage 2: Renewal -

Developed as the second stage in BMC air filter servicing and maintenance, the BMC regeneration fluid enables BMC filters to be rejuvenated and to renew their optimum performance. The fluid integrates with the air filter maximising air flow performance without reduction in particle retention.