What is the most critical scenario for controllability according to AMC 25.149(f)?

The most critical case is usually an engine failure after power/thrust increase for a go-around from an all-engines-operating approach.

What is VMCL (1 out) and when can it be determined?

VMCL (1 out) is a one-engine-inoperative landing minimum control speed, which can be determined in conditions appropriate for an approach and landing with one engine already failed.

How should flap and trim settings be configured when determining VMCL?

Flap and trim settings should be appropriate for the approach and landing configurations.

What is the purpose of CS 25.149(f) regarding VMCL?

CS 25.149(f) aims to ensure the aeroplane remains safely controllable after an engine failure during an all-engines-operating approach and landing.

Can the propeller be feathered during VMCL (1 out) determination?

Yes, the propeller of the inoperative engine may be feathered throughout the VMCL (1 out) determination.

AMC 25.149(f) Minimum Control Speed during Approach and Landing (VMCL)

Q: How can the VMCL (1 out) value be used?

The resulting value of VMCL (1 out) may be used in determining the recommended procedures and speeds for a one-engine-inoperative approach and landing.

Q: What power or thrust setting should be used on the operating engine(s) when determining VMCL?

The power or thrust on the operating engine(s) should be set to the go-around power or thrust setting.

Navigate / EASA

Ask question Discover more Add to collection

AMC 25.149(f) Minimum Control Speed during Approach and Landing (V_MCL)

ED Decision 2020/024/R

(a) CS 25.149(f) is intended to ensure that the aeroplane is safely controllable following an engine failure during an all-engines-operating approach and landing. From a controllability standpoint, the most critical case usually consists of an engine failing after the power or thrust has been increased to perform a go-around from an all-engines-operating approach.

(b) To determine V_MCL, the flap and trim settings should be appropriate to the approach and landing configurations, the power or thrust on the operating engine(s) should be set to the go-around power or thrust setting, and compliance with all the V_MCL requirements of CS 25.149(f) and (h) must be demonstrated.

(c) At the option of the applicant, a one-engine-inoperative landing minimum control speed, V_{MCL (1 out)}, may be determined in the conditions appropriate to an approach and landing with one engine having failed before the start of the approach. In this case, only those configurations recommended for use during an approach and landing with one engine inoperative need be considered. The propeller of the inoperative engine, if applicable, may be feathered throughout.

The resulting value of V_{MCL (1 out)} may be used in determining the recommended procedures and speeds for a one-engine-inoperative approach and landing.

[Amdt 25/26]

Details

Source-Title: AMC 25.149(f) Minimum Control Speed during Approach and Landing (VMCL)

Erulesid: ERULES-1963177438-18645 Compare versions

Domain: Initial airworthiness

Amendedby: Amendment 26

Applicabilitydate: 22 June, 2021

Entryintoforcedate: 23 December, 2020

Regulatorysource: ED Decision 2020/024/R Navigate

Regulatorysubject: CS-25

Typeofcontent: AMC to CS (Acceptable means of compliance to certification specification)

Parentir: CS 25.149 Minimum control speed

Origin: EASA

Category: EAR