Master minimum equipment list

Last updated

In aviation safety, master minimum equipment list, or MMEL, is a categorized list of on-board systems, instruments and equipment that may be inoperative for flight in a specified aircraft model. Procedures or conditions may be associated with items on the list. [1] Any airworthiness-related equipment or system not on the list must be functional for flight. [2]

Contents

Overview

The philosophy behind the MEL is to authorize release of flight with inoperative equipment only when the inoperative equipment does not render the aircraft unsafe for the particular flight. As most airlines schedule the majority of their flights during the day, being able to defer non-critical inoperative equipment with the MEL can help prevent the plane from being hard grounded during the day allowing it to be fixed during overnight stays, preventing loss of revenue. This is permissible as aircraft have a significant number of redundant systems (or systems that are not expressly required to be functional for safe flight) and thus some systems can be inoperative without impacting overall safety. [3]

While the MEL will vary between operator it is always based on the MMEL (master minimum equipment list). The MMEL is defined on a per-aircraft-model basis by the aircraft manufacturer while MEL is prepared by the aircraft operator. This is done by referencing the MMEL from the manufacturer and tailoring it to that operator's aircraft based on the type and number of equipment installed on board. Initial issue of the MEL and its subsequent revisions are approved by the operator's regulating authority.

Generally, to release an aircraft on an MEL deferral will require an aircraft maintenance technician to inspect the aircraft and confirm the reported fault. The technician will then consult the MEL and confirm the aircraft meets the requirements of the MEL before carrying out the procedures to apply the MEL. These procedures will typically involve tagging out and placarding the equipment as inoperative as well as noting aircraft performance reduction as applicable. MEL deferrals often come with stipulations: they may only be allowed for a set number of flight hours, cycles or calendar days before the fault needs to be corrected. Additionally, some may also require monitoring inspections at a fixed interval while the equipment is on MEL. [3]

As an example, take an Airbus A320 with an inoperative landing light. The aircraft is certified to be equipped with two landing lights, two taxi lights and two runway turn off lights. Per the FAA approved MMEL for the A320 family, the aircraft would be permitted to fly at night with one landing inoperative provided the taxi and takeoff lights work properly. Alternatively, the aircraft would be permitted to fly with both landing lights inoperative provided it is not operating at night. [4]

In addition to the MEL, most operators will have additional lists for deferring inoperative equipment. The configuration deviation list (CDL) [5] serves the same function as the MEL but for the structure of the aircraft and its flight controls. The non-essential furnishings (NEF) [6] also serves the same function as the MEL/CDL, though for interior equipment and furnishings. Typically, NEF deferrals can be signed off by the flight crew to defer interior components without requiring a mechanic to inspect the aircraft - though this will depend on the operator and regulating body.

Implementation

Minimum equipment lists are issued to specific aircraft and specific operators. In order to use a minimum equipment list, that specific company must receive a letter of authorization from the civil aviation authorities of the countries where the aircraft will operate.

A minimum equipment list is required in the United States by the Federal Aviation Administration: [7]

The same kind of regulation is also enforced by its regulatory counterpart in other nations, such as the European Aviation Safety Agency, the FAA European counterpart. [8]

Related Research Articles

<span class="mw-page-title-main">Federal Aviation Administration</span> U.S. government agency regulating civil aviation

The Federal Aviation Administration (FAA) is a U.S. federal government agency within the U.S. Department of Transportation which regulates civil aviation in the United States and surrounding international waters. Its powers include air traffic control, certification of personnel and aircraft, setting standards for airports, and protection of U.S. assets during the launch or re-entry of commercial space vehicles. Powers over neighboring international waters were delegated to the FAA by authority of the International Civil Aviation Organization.

The Federal Aviation Regulations (FARs) are rules prescribed by the Federal Aviation Administration (FAA) governing all aviation activities in the United States. The FARs comprise Title 14 of the Code of Federal Regulations. A wide variety of activities are regulated, such as aircraft design and maintenance, typical airline flights, pilot training activities, hot-air ballooning, lighter-than-air aircraft, human-made structure heights, obstruction lighting and marking, model rocket launches, commercial space operations, model aircraft operations, Unmanned Aircraft Systems (UAS) and kite flying. The rules are designed to promote safe aviation, protecting pilots, flight attendants, passengers and the general public from unnecessary risk.

<span class="mw-page-title-main">Instrument landing system</span> Ground-based visual aid for landing

In aviation, the instrument landing system (ILS) is a precision radio navigation system that provides short-range guidance to aircraft to allow them to approach a runway at night or in bad weather. In its original form, it allows an aircraft to approach until it is 200 feet (61 m) over the ground, within a 12 mile (800 m) of the runway. At that point the runway should be visible to the pilot; if it is not, they perform a missed approach. Bringing the aircraft this close to the runway dramatically increases the range of weather conditions in which a safe landing can be made. Other versions of the system, or "categories", have further reduced the minimum altitudes, runway visual ranges (RVRs), and transmitter and monitoring configurations designed depending on the normal expected weather patterns and airport safety requirements.

<span class="mw-page-title-main">Fixed-base operator</span> Company offering air-side aviation services at an airport

A fixed-base operator (FBO) is an organization granted the right by an airport to operate at the airport and provide aeronautical services such as fueling, hangaring, tie-down, and parking, aircraft rental, aircraft maintenance, flight instruction, and similar services. In common practice, an FBO is the primary provider of support services to general aviation operators at a public-use airport and is on land leased from the airport, or, in rare cases, adjacent property as a "through the fence operation". In many smaller airports serving general aviation in remote or modest communities, the town itself may provide fuel services and operate a basic FBO facility. Most FBOs doing business at airports of high to moderate traffic volume are non-governmental organizations, either privately or publicly held companies.

<span class="mw-page-title-main">Type certificate</span> Document noting the airworthiness of a certain type of aircraft

A type certificate signifies the airworthiness of a particular category of aircraft, according to its manufacturing design. Certification confirms that the aircraft of a new type intended for serial production is in compliance with applicable airworthiness requirements established by the national air law.

An airworthiness directive is a notification to owners and operators of certified aircraft that a known safety deficiency with a particular model of aircraft, engine, avionics or other system exists and must be corrected.

<span class="mw-page-title-main">Light-sport aircraft</span> Category of lightweight aircraft that are simple to fly

A light-sport aircraft (LSA), or light sport aircraft, is a category of small, lightweight aircraft that are simple to fly. LSAs tend to be heavier and more sophisticated than ultralight aircraft, but LSA restrictions on weight and performance separates the category from established GA aircraft. There is no standard worldwide description of an LSA.

<span class="mw-page-title-main">JetBlue Flight 292</span> 2005 aviation incident

JetBlue Flight 292 was a scheduled flight from Bob Hope Airport in Burbank, California, to John F. Kennedy International Airport in New York City. On September 21, 2005, Captain Scott Burke executed an emergency landing in the Airbus A320-232 at Los Angeles International Airport after the nose gear jammed in an abnormal position. No one was injured.

<span class="mw-page-title-main">Aircraft maintenance checks</span> Periodic scheduled inspection performed on aircraft to keep it airworthy

Aircraft maintenance checks are periodic inspections that have to be done on all commercial and civil aircraft after a certain amount of time or usage. Military aircraft normally follow specific maintenance programmes which may, or may not, be similar to those of commercial and civil operators.

<span class="mw-page-title-main">Electronic flight bag</span> Flight Information management device

An electronic flight bag (EFB) is an electronic information management device that helps flight crews perform flight management tasks more easily and efficiently with less paper providing the reference material often found in the pilot's carry-on flight bag, including the flight-crew operating manual, navigational charts, etc. In addition, the EFB can host purpose-built software applications to automate other functions normally conducted by hand, such as take-off performance calculations. The EFB gets its name from the traditional pilot's flight bag, which is typically a heavy documents bag that pilots carry to the cockpit.

<span class="mw-page-title-main">Ultralight aircraft (United States)</span> American aircraft category


Ultralight aircraft exist outside of the United States. In most countries, ultralights are a class of aircraft. A completely different legal concept is valid within the USA. The FAA makes explicitly clear that ultralight vehicles are not aircraft, are not regulated as aircraft, and are exempt from aircraft rules. Instead, they are treated as powersport items and have to follow their own ruleset, FAR-103, which is the most compact aviation regulation in existence. It can be printed on the front- and backside of a single piece of paper.

An Air Data Inertial Reference Unit (ADIRU) is a key component of the integrated Air Data Inertial Reference System (ADIRS), which supplies air data and inertial reference information to the pilots' electronic flight instrument system displays as well as other systems on the aircraft such as the engines, autopilot, aircraft flight control system and landing gear systems. An ADIRU acts as a single, fault tolerant source of navigational data for both pilots of an aircraft. It may be complemented by a secondary attitude air data reference unit (SAARU), as in the Boeing 777 design.

<span class="mw-page-title-main">Airworthiness</span> Measure of an aircrafts suitability for safe flight

In aviation, airworthiness is the measure of an aircraft's suitability for safe flight. Initial airworthiness is demonstrated by a certificate of airworthiness issued by the civil aviation authority in the state in which the aircraft is registered, and continuing airworthiness is achieved by performing the required maintenance actions.

<span class="mw-page-title-main">Terrain awareness and warning system</span> Technological equipment to prevent pilots from flying into obstacles

In aviation, a terrain awareness and warning system (TAWS) is generally an on-board system aimed at preventing unintentional impacts with the ground, termed "controlled flight into terrain" accidents, or CFIT. The specific systems currently in use are the ground proximity warning system (GPWS) and the enhanced ground proximity warning system (EGPWS). The U.S. Federal Aviation Administration (FAA) introduced the generic term TAWS to encompass all terrain-avoidance systems that meet the relevant FAA standards, which include GPWS, EGPWS and any future system that might replace them.

<span class="mw-page-title-main">V speeds</span> Standard terms to define airspeeds

In aviation, V-speeds are standard terms used to define airspeeds important or useful to the operation of all aircraft. These speeds are derived from data obtained by aircraft designers and manufacturers during flight testing for aircraft type-certification. Using them is considered a best practice to maximize aviation safety, aircraft performance, or both.

A civil aviation authority (CAA) is a national or supranational statutory authority that oversees the regulation of civil aviation, including the maintenance of an aircraft register.

The minimum control speed (VMC) of a multi-engine aircraft is a V-speed that specifies the calibrated airspeed below which directional or lateral control of the aircraft can no longer be maintained, after the failure of one or more engines. The VMC only applies if at least one engine is still operative, and will depend on the stage of flight. Indeed, multiple VMCs have to be calculated for landing, air travel, and ground travel, and there are more still for aircraft with four or more engines. These are all included in the aircraft flight manual of all multi-engine aircraft. When design engineers are sizing an airplane's vertical tail and flight control surfaces, they have to take into account the effect this will have on the airplane's minimum control speeds.

<span class="mw-page-title-main">Regulation of unmanned aerial vehicles</span>

Regulation of unmanned aerial vehicles (UAVs) involves setting safety requirements, outlining regulations for the safe flying of drones, and enforcing action against errant users.

<span class="mw-page-title-main">Air Canada Flight 759</span> 2017 aviation incident

On July 7, 2017, an Airbus A320-211 operating as Air Canada Flight 759 was nearly involved in an accident at San Francisco International Airport in San Mateo County, California, United States. The flight, which originated at Toronto Pearson International Airport, had been cleared by air traffic control to land on runway 28R and was on final approach to land on that runway; however, instead of lining up with the runway, the aircraft had lined up with the parallel taxiway, on which four fully loaded and fueled passenger airplanes were stopped awaiting takeoff clearance. The flight crew initiated a go-around prior to landing, after which it landed on 28R without further incident. The aircraft on the taxiway departed for their intended destinations without further incident. The subsequent investigation by the National Transportation Safety Board (NTSB) determined that the Air Canada airplane descended to 59 feet (18 m) above the ground before it began its climb, and that it missed colliding with one of the aircraft on the taxiway by 14 feet (4.3 m).

<span class="mw-page-title-main">Overseas National Airways Flight 032</span> 1975 DC-10 accident

Overseas National Airways (ONA) Flight 032 was a non-scheduled positioning flight operated by Overseas National Airways with a McDonnell Douglas DC-10-30CF. On November 12, 1975, the flight crew initiated a rejected takeoff after accelerating through a large flock of gulls at John F. Kennedy International Airport, resulting in a runway excursion. Of the 139 aircraft occupants, all survived, while the aircraft was destroyed by an intense post-crash fire. The National Transportation Safety Board concluded that the probable cause of the accident was bird ingestion into the right-hand engine, causing an uncontained engine failure that ruptured several landing gear tires and disabled the engine's hydraulic system, in turn partially disabling the spoilers and the landing gear brakes. Contributing to the accident was the resultant failure of the affected engine's thrust reverser and the wet runway. The accident aircraft is claimed to be the largest commercial airliner ever destroyed due to a bird strike.

References

  1. "Master Minimum Equipment List (MMEL)". Federal Aviation Administration. 2007-09-27. Archived from the original on 2010-05-15. Retrieved 2011-02-03.
  2. "JAR-MMEL/MEL" (PDF). European Aviation Safety Agency. Archived from the original (PDF) on 2011-12-26. Retrieved 2011-02-03. The MMEL is a document that lists the equipment which may be temporarily inoperative, subject to certain conditions, while maintaining an acceptable level of safety as intended in the applicable JAR or equivalent Requirement. Each MMEL is specific to an aircraft type. All items related to the airworthiness of the aircraft and not included in the list are automatically required to be operative.
  3. 1 2 "NATA Aircraft Maintenance & System Technology Committee Best Practices" (PDF). NATA. Retrieved 2024-06-27.
  4. "Master Minimum Equipment List (MMEL), Airbus SAS, A318, A319, A320, and A321 Series" (PDF). Federal Aviation Administration. Retrieved 2024-06-27.
  5. "Configuration Deviation List". Skybrary. Retrieved 2024-06-27.
  6. "Turning Delayed/Deferred Aircraft Maintenance into Timely Resolutions". Veyron. Retrieved 2024-06-27.
  7. "Publications - Master Minimum Equipment List (MMEL)". FAA. Archived from the original on 2011-02-02. Retrieved 2011-02-03.
  8. "MMELs". EASA. Archived from the original on 2014-04-16. Retrieved 2011-02-03.