AC 20-105A - ENGINE POWER LOSS ACCIDENT PREVENTION

Department of Transportation
Federal Aviation Administration

11/20/80

Initiated by: AWS-340
1. PURPOSE.
   This advisory circular updates statistical information and brings to the 
   attention of aircraft owners, operators, manufacturers, and maintenance 
   personnel the circumstances surrounding engine power loss accidents with 
   recommendations on how, through individual effort and consideration, those 
   accidents can be prevented.
2. CANCELLATION.
   Advisory Circular 20-105, Engine Power Loss Accident Prevention, dated 
   6/9/78 is canceled.
3. BACKGROUND.
   A review of Federal Aviation Administration's General Aviation Accidents 
   Factual Reports for the years 1977, 1978, and 1979, that list engine 
   failure as a cause, showed a total of 2,608 accidents. Those accidents 
   resulted in 473 fatalities and 1,396 injured persons. For several years, 
   "power loss" has been the greatest single type of general aviation accident 
   and during this review period accounted for 19.9 percent of all accidents. 
   Analysis shows that accidents have resulted from:
   a. Personnel Errors.
      (1) Operations which exceeded the limitations of the powerplant.
      (2) Failure of maintenance personnel to utilize acceptable maintenance 
          procedures.
   b. Failure of Engine, Engine Part, or System Component.
      (1) Engines were operated beyond the overhaul time recommended by the 
          manufacturer.
      (2) There was noncompliance with airworthiness requirements regarding 
          inspection, overhaul, repair, preservation, and/or replacement of 
          parts.
      (3) Design changes and alterations were completed without engineering 
          evaluation and approval.
      (4) Parts failed due to operation outside operating limitations; i.e., 
          overtemp, overboost, low oil pressure, etc.
   c. Fuel Starvation and Exhaustion.
      (1) Fuel starvation (fuel on board the aircraft but not supplied to the 
          engine(s)) and fuel exhaustion (no fuel available on board the 
          aircraft) resulted in 47 percent of the engine power loss accidents. 
          This usually results from improper preflight planning or improper 
          fuel management procedures.
      (2) Contamination continues to be a notable factor in fuel starvation 
          accidents. During this review period of the 1,230 engine power loss 
          accidents related to fuel system, fuel contamination was a cause in 
          381 or 31 percent of those accidents. Advisory Circular 20-43C, 
          Aircraft Fuel Control, contains valuable information that alerts the 
          aviation community to the possibility of inadvertent mixing or 
          contamination of turbine and piston fuel and provides recommended 
          servicing procedures.
   d. Fuel System Design. 
      Accidents have resulted because pilots and 
      maintenance personnel failed to become familiar with the different fuel 
      systems and operating procedures. Design changes, accomplished without 
      proper evaluation, the lack of standardization of controls configuration 
      among aircraft, plus the peculiarities in aircraft fuel system designs, 
      have contributed to power loss accidents.
4. RECOMMENDATIONS.
   The following are recommended operating practices that could help reduce 
   engine power loss accidents:
   a. General.
      (1) Know the limitations of the aircraft and aircraft powerplant. Avoid 
          operating in excess of those limitations. Be sure all engine(s) are 
          within acceptable operating parameters prior to takeoff.  Keep 
          proficient in all engine and systems operating procedures, including 
          emergency procedures.  The aircraft flight manual or the rotorcraft 
          flight manual contain the normal and emergency procedures, and proper 
          power assurance check procedures. Use the checklist during normal and 
          emergency operations.
      (2) Follow the manufacturer's operating instructions. Have a qualified 
          person investigate all abnormal engine operating conditions (oil and 
          fuel consumption, low power, vibration, engine instrument readings, 
          etc).
      (3) Positively utilize a powerplant and propeller maintenance program 
          which gives full consideration to the Federal Aviation Regulations 
          and manufacturer's recommendations.
      (4) Keep abreast of technical information related to the aircraft fuel, 
          oil, parts, airworthiness directives, manufacturer's technical 
          publications, etc.
      (5) Know proper procedures when engine inlet or carburetor icing 
          conditions are encountered.
      (6) Follow engine manufacturer's inspection procedures following 
          propeller strike or sudden engine stoppage.
      (7) Operate engine controls smoothly, as abrupt movements can result in 
          engine malfunction and power loss.
      (8) Avoid overspeed, overboost, and overheat.
      (9) Do not fly an aircraft with known engine discrepancies.
   b. Fuel Management.
      (1) In relation to airplane performance, the fuel quantity on board the 
          aircraft is only "time in your tanks." Management of that time should 
          rank high an the list of a pilot's priorities. Be fully familiar with 
          the aircraft fuel system and fuel management procedures.
      (2) Make adequate preflight preparations to ensure that sufficient clean 
          fuel is on board the aircraft for the time to destination, plus an 
          adequate reserve, predicated on airplane performance.
      (3) Know and understand the positions of the aircraft fuel selector 
          valves. Markings should be legible, valves should be easy and smooth 
          to operate and with positive detent action.
      (4) Be familiar with the sequence for selecting fuel tanks of the 
          aircraft. The use of fuel from tank(s) other than as recommended 
          (especially during takeoff and landing) can result in eventual fuel 
          starvation. Many aircraft return unused fuel from the carburetor to 
          a tank. If the tank is full, the fuel goes overboard through the vent 
          and is lost, thus reducing range.
      (5) A pilot should know the total USABLE fuel on board the aircraft 
          before flying. The UNUSABLE fuel should not be considered when 
          planning a flight.
      (6) Make a visual inspection to assure that the fuel tanks are full. If 
          you are in the habit of flying with partial fuel loads, use positive 
          means to know the quantity of fuel on board the aircraft before 
          flight. Complete trust in fuel gauges has often resulted in fuel 
          depletion short of destination and accidents.
      (7) Make a thorough fuel drain check of all sumps before flight. Consult 
          the owner's manual for proper procedures.
      (8) During preflight inspection, determine that all tank vent openings are          clear of obstructions.
      (9) Check fuel flow from each tank to engine(s) prior to taxi. Remember 
          to allow sufficient time for this check as the carburetor and lines 
          hold fuel that would have to be used before you would know if there 
          was no fuel flow from a tank.
      (10) Determine that hand primers are closed and locked in the detent 
           after use.
      (11) Be fully familiar with fuel boost pump operating procedures.
      (12) Before switching tanks, check the fuel quantity in the tank to be 
           selected and after moving the selector check the fuel selector 
           position to be sure proper tank is selected.
      (13) After switching tanks, monitor the fuel pressure until you are sure 
           there is fuel flow from the tank.
   c. Maintenance.
      (1) Maintenance should include inspection of fuel cells and tanks for 
          discrepancies such as collapse, contamination, vent obstruction, 
          internal damage, security, leaks, gauge accuracy, and general 
          condition.
      (2) Periodically make a visual check of the fuel filter for condition 
          and/or contamination.
      (3) Check operation and security of fuel selector and system control 
          handles and/or knobs.
      (4) During maintenance, a detailed inspection should be made of fuel 
          quantity indicating system wiring, components, and calibration.
      (5) Design changes and alterations to aircraft engines should be done 
          with approved data.
      (6) Replacement of engine parts should be completed following 
          manufacturer's instructions.
      (7) Maintenance should be accomplished in accordance with the 
          manufacturer's recommendations.
      (8) Have a qualified maintenance person dress out propeller blade nicks, 
          dents, scratches, etc., as necessary, to prevent fatigue cracks that 
          could cause propeller blade failure resulting in power loss. The 
          dressing of propeller blades should be done following the propeller 
          manufacturer's recommended procedures. Excessive dressing could alter
          the airfoil shape of the propeller blades to the point where 
          propeller efficiency is lost, causing insufficient propeller thrust. 
          In the case of a twin engine aircraft that loss of thrust could 
          prevent the aircraft from maintaining flight with one engine 
          inoperative.
5. SUMMARY.
   Through the individual and collective efforts of the aviation community, we 
   hope to eliminate factors that have caused engine power loss accidents. This 
   advisory circular is one of many efforts to try to reduce the "power loss" 
   type of accidents. The simple act of "keeping the engine running" could 
   appreciably reduce the number of accidents.

/s/
M. C. Beard
Director of Airworthiness