CS 25.123 En-route flight paths
ED Decision 2015/008/R
(See AMC 25.123)
(a) For the en-route configuration, the flight paths prescribed in sub-paragraphs (b) and (c) of this paragraph must be determined at each weight, altitude, and ambient temperature, within the operating limits established for the aeroplane. The variation of weight along the flight path, accounting for the progressive consumption of fuel and oil by the operating engines, may be included in the computation. The flight paths must be determined at a selected speed not less than VFTO, with –
(1) The most unfavourable centre of gravity;
(2) The critical engines inoperative;
(3) The remaining engines at the available maximum continuous power or thrust; and
(4) The means for controlling the engine-cooling air supply in the position that provides adequate cooling in the hot-day condition.
(b) The one-engine-inoperative net flight path data must represent the actual climb performance diminished by a gradient of climb of 1·1% for two-engined aeroplanes, 1·4% for three-engined aeroplanes, and 1·6% for four-engined aeroplanes.
(1) In
non-icing conditions; and
(2) In
icing conditions with the “En-route Ice” accretion defined in Appendices C
and O, as applicable, in accordance with CS 25.21(g), if:
(i) A
speed of 1.18VSR with the most
critical of the “En-route Ice ” accretion(s) exceeds the en-route speed selected in
non-icing conditions by more than the greater of 5.6 km/h (3 knots) CAS or 3%
of VSR, or
(ii) The
degradation of the gradient of climb is greater than one-half of the
applicable actual-to-net flight path reduction defined in sub-paragraph (b) of
this paragraph.
(c) For three- or four-engined aeroplanes, the two-engine-inoperative net flight path data must represent the actual climb performance diminished by a gradient climb of 0·3% for three-engined aeroplanes and 0·5% for four-engined aeroplanes.
[Amdt 25/3]
[Amdt 25/16]
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