(a) General. The holder of an air carrier operating certificate
or an operating certificate issued under part 125 may conduct a ferry
flight of a four-engine airplane or a turbine-engine-powered airplane
equipped with three engines, with one engine inoperative, to a base for
the purpose of repairing that engine subject to the following:
(1) The airplane model has been test flown and found satisfactory for
safe flight in accordance with paragraph (b) or (c) of this section, as
appropriate. However, each operator who before November 19, 1966, has
shown that a model of airplane with an engine inoperative is satisfactory
for safe flight by a test flight conducted in accordance with performance
data contained in the applicable Airplane Flight Manual under paragraph
(a)(2) of this section need not repeat the test flight for that model.
(2) The approved Airplane Flight Manual contains the following
performance data and the flight is conducted in accordance with that data:
(i) Maximum weight.
(ii) Center of gravity limits.
(iii) Configuration of the inoperative propeller (if applicable).
(iv) Runway length for takeoff (including temperature accountability).
(v) Altitude range.
(vi) Certificate limitations.
(vii) Ranges of operational limits.
(viii) Performance information.
(ix) Operating procedures.
(3) The operator has FAA approved procedures for the safe operation of
the airplane, including specific requirements for --
(i) Limiting the operating weight on any ferry flight to the minimum
necessary for the flight plus the necessary reserve fuel load;
(ii) A limitation that takeoffs must be made from dry runways unless,
based on a showing of actual operating takeoff techniques on wet runways
with one engine inoperative, takeoffs with full controllability from wet
runways have been approved for the specific model aircraft and included in
the Airplane Flight Manual:
(iii) Operations from airports where the runways may require a takeoff
or approach over populated areas; and
(iv) Inspection procedures for determining the operating condition of
the operative engines.
(4) No person may take off an airplane under this section if --
(i) The initial climb is over thickly populated areas; or
(ii) Weather conditions at the takeoff or destination airport are less
than those required for VFR flight.
(5) Persons other than required flight crewmembers shall not be carried
during the flight.
(6) No person may use a flight crewmember for flight under this section
unless that crewmember is thoroughly familiar with the operating
procedures for one-engine inoperative ferry flight contained in the
certificate holder's manual and the limitations and performance
information in the Airplane Flight Manual.
(b) Flight tests: reciprocating-engine-powered airplanes. The
airplane performance of a reciprocating-engine-powered airplane with one
engine inoperative must be determined by flight test as follows:
(1) A speed not less than 1.3 VS1 must be chosen at which
the airplane may be controlled satisfactorily in a climb with the critical
engine inoperative (with its propeller removed or in a configuration
desired by the operator and with all other engines operating at the
maximum power determined in paragraph (b)(3) of this section.
(2) The distance required to accelerate to the speed listed in
paragraph (b)(1) of this section and to climb to 50 feet must be
determined with --
(i) The landing gear extended;
(ii) The critical engine inoperative and its propeller removed or in a
configuration desired by the operator; and
(iii) The other engines operating at not more than maximum power
established under paragraph (b)(3) of this section.
(3) The takeoff, flight and landing procedures, such as the approximate
trim settings, method of power application, maximum power, and speed must
be established.
(4) The performance must be determined at a maximum weight not greater
than the weight that allows a rate of climb of at least 400 feet per
minute in the en route configuration set forth in §25.67(d) of this
chapter in effect on January 31, 1977, at an altitude of 5,000 feet.
(5) The performance must be determined using temperature accountability
for the takeoff field length, computed in accordance with §25.61 of this
chapter in effect on January 31, 1977.
(c) Flight tests: Turbine-engine-powered airplanes. The airplane
performance of a turbine-engine-powered airplane with one engine
inoperative must be determined by flight tests, including at least three
takeoff tests, in accordance with the following:
(1) Takeoff speeds VR and V2, not less than the
corresponding speeds under which the airplane was type certificated under
§25.107 of this chapter, must be chosen at which the airplane may be
controlled satisfactorily with the critical engine inoperative (with its
propeller removed or in a configuration desired by the operator, if
applicable) and with all other engines operating at not more than the
power selected for type certification as set forth in §25.101 of this
chapter.
(2) The minimum takeoff field length must be the horizontal distance
required to accelerate and climb to the 35-foot height at V2
speed (including any additional speed increment obtained in the tests)
multiplied by 115 percent and determined with --
(i) The landing gear extended;
(ii) The critical engine inoperative and its propeller removed or in a
configuration desired by the operator (if applicable); and
(iii) The other engine operating at not more than the power selected
for type certification as set forth in §25.101 of this chapter.
(3) The takeoff, flight, and landing procedures such as the approximate
trim setting, method of power application, maximum power, and speed must
be established. The airplane must be satisfactorily controllable during
the entire takeoff run when operated according to these procedures.
(4) The performance must be determined at a maximum weight not greater
than the weight determined under §25.121(c) of this chapter but with --
(i) The actual steady gradient of the final takeoff climb requirement
not less than 1.2 percent at the end of the takeoff path with two critical
engines inoperative; and
(ii) The climb speed not less than the two-engine inoperative trim
speed for the actual steady gradient of the final takeoff climb prescribed
by paragraph (c)(4)(i) of this section.
(5) The airplane must be satisfactorily controllable in a climb with
two critical engines inoperative. Climb performance may be shown by
calculations based on, and equal in accuracy to, the results of testing.
(6) The performance must be determined using temperature accountability
for takeoff distance and final takeoff climb computed in accordance with
§25.101 of this chapter.
For the purpose of paragraphs (c)(4) and (5) of this section, two
critical engines means two adjacent engines on one side of an airplane
with four engines, and the center engine and one outboard engine on an
airplane with three engines.