CHAPTER: Turbochargers

CHAPTER: Turbochargers Turbochargers

CHAPTER: Turbochargers

CHAPTER: Turbochargers In This Presentation • Function • Design • Operation • Normal wear • Why Turbos Fail

CHAPTER: Turbochargers Function

CHAPTER: Turbochargers Turbocharger Functions • Normalize Air Supply • Boost Air Supply

CHAPTER: Turbochargers Normalizing • Compensate for thinner Air • Waste gate valve by-pass turbo boost • Normal Power at high Altitudes • Fuel deration at 2 150 m to avoid over speed • Quieter Exhaust, better combustions and emissions

CHAPTER: Turbochargers Normalizing First commercial use 1940’s in Airplane

CHAPTER: Turbochargers Boosting • More Oxygen / Increased Fuel Setting • Higher Power • Better Combustion • - Better Fuel Economy • - Cleaner Emissions • Quieter

CHAPTER: Turbochargers Boosting

CHAPTER: Turbochargers Design

CHAPTER: Turbochargers Design Waste-Gate Turbo

CHAPTER: Turbochargers Design Lubrication System Lubricating Cooling Cleaning

CHAPTER: Turbochargers Design Lubrication System Direct lubrication line to Turbo

CHAPTER: Turbochargers Design Lubrication System

CHAPTER: Turbochargers Design Friction Welding Hollow thermal barrier Centering Pin

CHAPTER: Turbochargers Design Induction hardened Shaft

CHAPTER: Turbochargers Design Compressor wheel High Strength Aluminum alloys

CHAPTER: Turbochargers Design Compressor wheel Balancing Notches

CHAPTER: Turbochargers Design Compressor wheel Radial milling

CHAPTER: Turbochargers Design Free-floating journal bearings Copper/tin/lead alloy or from aluminium Lube holes or groove

CHAPTER: Turbochargers Design Snap rings Rounded edge towards the bearing

CHAPTER: Turbochargers Design Thrust Bearing Copper/tin/lead alloy or from aluminium Bearing stationary Washer full shaft RPM

CHAPTER: Turbochargers Design Seal Rings High temperature resistant chrome alloy Cold side cast iron End gap

CHAPTER: Turbochargers Design Housing Cast aluminum alloy Cast Iron Cast ductile iron or nickel alloy

CHAPTER: Turbochargers Design Heat Shield Protects center housing from high exhaust temperatures

CHAPTER: Turbochargers Operation Start-up

CHAPTER: Turbochargers Operation Turbos are matched

CHAPTER: Turbochargers Operation Air Restriction Energy stored in rotating component can equal the engine HP Turbo spin 80 000 Rpm Surface speed 30m/second

CHAPTER: Turbochargers Normal Wear Increased clearance

CHAPTER: Turbochargers Normal Wear Hot side Little leak past the seal ring

CHAPTER: Turbochargers Normal Wear Turbine Wheel No discoloration Seal ring with gap separation

CHAPTER: Turbochargers Normal Wear Bearings More wear on hot side

CHAPTER: Turbochargers Normal Wear Thrust Bearing Fine abrasive wear

CHAPTER: Turbochargers Normal Wear Thrust washers

CHAPTER: Turbochargers Why Turbos Fail • Lack of Lubrication • Abrasive in the Oil • High Exhaust Temperature • Foreign Objects • Turbo Problems

CHAPTER: Turbochargers Lack of Lube Road-signs • Temper Colors/ Cooked Oil • Adhesive Wear • Weakened Metal • Wheel Contact with Housing • Wheel separation from Shaft

CHAPTER: Turbochargers Lack of Lubrication Housing Contact

CHAPTER: Turbochargers Lack of Lubrication Housing Contact Temper colors and cooked oil residue

CHAPTER: Turbochargers Lack of Lubrication High Temperature

CHAPTER: Turbochargers Lack of Lubrication High Temperature Rapid Shutdown

CHAPTER: Turbochargers Lack of Lubrication High Temperature Cooked oil residual

CHAPTER: Turbochargers Lack of Lubrication High Temperature Quench dots/rings

CHAPTER: Turbochargers Lack of Lubrication High Temperature Bushing stuck to shaft

CHAPTER: Turbochargers Lack of Lubrication High Temperature Turbine wheel separation

CHAPTER: Turbochargers Lack of Lubrication High Temperature

CHAPTER: Turbochargers