1986 Audi 5000 S
Fuel Economy Overview
The 1986 Audi 5000 S achieves an EPA-estimated 19 MPG in combined city and highway driving, with 17 MPG in the city and 24 MPG on the highway. Powered by a 2.2L 5-cylinder engine paired with a manual 5-spd, this midsize cars features Front-Wheel Drive drive.
In terms of environmental impact, the 1986 5000 S produces approximately 468 grams of CO2 per mile. This figure is measured under standardized EPA test conditions and represents tailpipe emissions only. For context, the average new vehicle sold in the United States produces approximately 400 grams of CO2 per mile, meaning this 5000 S has higher-than-average emissions in this regard.
The estimated annual fuel cost for this vehicle is $3,150, based on 15,000 miles of driving per year and current national average fuel prices. Compared to the average new vehicle, you would save $5,000 over a 5-year period. This calculation accounts for differences in fuel consumption efficiency and provides a practical measure of long-term ownership costs attributable to fuel economy.
Energy DNA
Green Scorecard
Personalized Commute CalculatorEPA defaults to 55% City / 45% Hwy
Adjust the slider to match your daily driving habits. City driving involves stop-and-go traffic under 45mph, while highway driving represents sustained speeds over 55mph.
Aerodynamic Speed Penalty
EPA highway tests average roughly 48 mph. Driving at 75 mph increases aerodynamic drag exponentially. Expect your real-world highway fuel economy to drop by roughly 15-20% at interstate speeds.
5-Year Total Cost of Ownership
Recall Intelligence
THESE BRAKE HOSE ASSEMBLIES HAVE INADEQUATE CRIMPS ATTACHING THE HOSE TO THE HOSE FITTINGS AND COULD CAUSE THE HOSE AND FITTING TO SEPARATE.
Consequence & Remedy
Consequence: IF THE BRAKE HOSE ASSEMBLY SEPARATES, LOSS OF BRAKING POWER CAN OCCUR INCREASING THE POTENTIAL FOR A VEHICLE ACCIDENT.
Remedy: THESE BRAKE HOSE ASSEMBLIES WILL BE REPLACED.
THE DIFFERENTIAL OIL OF THE TRANSAXLE IS LOST OVER TIME DUE TO EVAPORATION. LOW OIL LEVELS CAUSE PREMATURE BEARING AND GEAR WEAR AND EVENTUAL FAILURE OF THE DIFFERENTIAL.
Consequence & Remedy
Consequence: IN THE EVENT OF FAILURE, THE VEHICLE'S DRIVE WHEELS COULDLOSE POWER. IN EXTREME CIRCUMSTANCES, THE FRONT WHEELS LOCK, CAUSING RAPIDDECELERATION RESULTING IN POSSIBLE LOSS OF VEHICLE CONTROL AND AN ACCIDENT.
Remedy: DRAIN AND REPLACE THE DIFFERENTIAL GEAR OIL WITH OIL HAVING HIGHER PERFORMANCE CHARACTERISTICS.
FUEL INJECTION SEALS MAY HARDEN, DUE TO HIGH TEMPERATURE AND ALCOHOL IN SOME FUELS, AND ALLOW FUEL TO ESCAPE INTO THE ENGINE COMPARTMENT.
Consequence & Remedy
Consequence: FUEL DRIPPING ONTO HOT ENGINE COMPONENTS COULD CAUSE ANENGINE COMPARTMENT FIRE.
Remedy: REPLACE ENGINES FUEL INJECTOR SEALS WITH IMPROVED SEALS PLUS IMPROVEMENTS DESIGNED TO BETTER INSULATE THE ENGINE AGAINST FIRE RISK.
CERTAIN REAR BRAKE CALIPERS COULD BIND AND CONSEQUENTLY OVERHEAT.
Consequence & Remedy
Consequence: OVERHEATED CALIPERS COULD CAUSE BRAKE PEDAL TO FEELSPONGY AND COULD RESULT IN ONE BRAKE CIRCUIT BECOMING INOPERATIVE. BRAKINGABILITY WOULD BE AFFECTED.
Remedy: REQUIRES INSPECTION OF BRAKE CALIPERS AND REPLACEMENT OF CALIPERS AS NECESSARY.
REPEATED TOPPING OFF OF FUEL TANK DURING REFUELING REDUCES THE EXPANSION SPACE WITHIN THE TANK ALLOWING VAPORS TO ESCAPE FROM THE CHARCOAL FILTER TO OUTSIDE RATHER THAN BEING INDUCTED INTO THE ENGINE.
Consequence & Remedy
Consequence: ESCAPING VAPORS COULD IGNITE BY HEAT EMITTED BY THEEXHAUST SYSTEM.
Remedy: INSTALL REDESIGNED FILLER NECK AND A NEW VENT VALVE AND HOSE FOR CHARCOAL FILTER. ALSO, STOP REFUELING WHEN PUMP NOZZLE SHUTS OFF.
THE IDLE STABILIZER MAY EXPERIENCE EXCESSIVE WEAR, CAUSING ENGINE IDLE FLUCTUATIONS, USUALLY DESCRIBED AS ENGINE SURGE, WHICH INCREASE WITH USAGE OF THE CAR.
Consequence & Remedy
Consequence: ENGINE SURGE COULD ULTIMATELY SEE-SAW TO THE EXTEND THATLOSS OF VEHICLE CONTROL COULD BE EXPERIENCED IF THE BRAKES WERE NOT APPLIED INTIME. THERE IS A RISK OF A COLLISION AND INJURY IN A CONFINED SPACE.
Remedy: REPLACE IDLE STABILIZATION VALVE.
SUDDEN ACCELERATION FROM A STATIONARY POSITION MAY OCCUR, WHEN SHIFTING FROM PARK TO REVERSE OR DRIVE.
Consequence & Remedy
Consequence: UNEXPECTED SUDDEN ACCELERATION WITHOUT PRIOR WARNINGCOULD RESULT IN A VEHICLE CRASH, CAUSING INJURIES.
Remedy: INSTALL AN AUTOMATIC SHIFT LOCK TO PREVENT THE TRANSMISSION SHIFT LEVER FROM BEING MOVED FROM PARK TO REVERSE OR DRIVE UNLESS BRAKE PEDAL IS APPLIED AT THE SAME TIME.
REAR OR FRONT RIGHT SEAT BELT LOCKS MAY NOT PROPERLY ENGAGE. CONSEQUENCE OF DEFECT: SEAT BELTS COULD SEPARATE IN EVENT OF HEAVY BRAKE APPLICATION OR IMPACT AND THUS SUBJECT PASSENGERS TO INJURY.
Consequence & Remedy
Consequence:
Remedy: REPLACE SEAT BELTS, AS NECESSARY.
MISADJUSTMENT OF FUEL DISTRIBUTOR ALLOWS FUEL TO ESCAPE AND BE ABSORBED BY THE AIR FILTER. CONSEQUENCE OF DEFECT: WITH THE FUEL ABSORBED BY THE AIR FILTER AND AN ENGINE BACKFIRE ON RESTART, THIS FUEL COULD IGNITE AND RESULT IN AN ENGINE COMPARTMENT FIRE.
Consequence & Remedy
Consequence:
Remedy: INSTALLATION OF AN AIR FILTER MODIFICATION KIT TO PRECLUDE FUEL LEAKS.
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Looking for comprehensive historical data?
NHTSA FARS (Fatal Crash History) and broader generational safety trends are aggregated at the model level rather than by specific engine configurations. View the complete historical data profile for all Audi 5000 S configurations.
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Fuel Cost Analysis
Based on 15,000 miles/year and current fuel prices.
Efficiency Breakdown
Estimated Lifetime Carbon Footprint
(Based on 200,000 miles driven)