Operational Aspects of Vertical Navigation during the Approach Phase of Flight: CDA vs. Conventional Step-Down Approach (CROSBI ID 278380)
Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija
Podaci o odgovornosti
Andraši, Petar ; Novak, Doris ; Ratković, Antonio
hrvatski
Operational Aspects of Vertical Navigation during the Approach Phase of Flight: CDA vs. Conventional Step-Down Approach
The continuous descent approach (CDA) is an operational technique used by aircraft when descending from cruise altitude ; the aim is to minimize thrust and thereby avoid horizontal flight segments. CDA involves vertical navigation calculations that modify flight trajectory according to altitude ; these procedures can reduce fuel consumption, emission of toxic exhaust gases, and noise due to the aircraft and its engines. In order to verify some of these benefits under field conditions in Croatia, the present study analysed fuel consumption, approach distance and approach duration during 44 landings by Croatia Airlines Dash-8 Q400 aircraft at the airport in Split, Croatia. CDA was performed at 426 km/h (230 knots) or at high speed, and these procedures were compared with the standard step-down approach involving a flight speed of 426 km/h (230 knots) and an18.5 km- long (10 NM) horizontal segment at an altitude of 914 m(3000 ft). The different approach conditions were compared in terms of fuel consumption. The results indicate that implementing CDA can provide small fuel savings on individual flights, and that these savings can be significant when calculated over an entire fleet on an annual basis. The significant reduction in fuel consumption should also mean a reduction in CO2 emissions.
Continuous descent approach (CDA) ; fuel management ; vertical navigation
nije evidentirano
engleski
Operational Aspects of Vertical Navigation during the Approach Phase of Flight: CDA vs. Conventional Step-Down Approach
nije evidentirano
Continuous descent approach (CDA) ; fuel management ; vertical navigation
nije evidentirano
Podaci o izdanju
27 (2)
2020.
346-352
objavljeno
1848-6339
1330-3651
10.17559/TV-20170125145236
Povezanost rada
Tehnologija prometa i transport, Zrakoplovstvo, raketna i svemirska tehnika