Embry-Riddle Aeronautical University Aviation Industry Certification Requirements Chapter

Embry-Riddle Aeronautical University Aviation Industry Certification Requirements Chapter 4

THIS DAY IN AVIATION • February 19 • 1912 — One of the most successful pre-World War I airship operations begins with the first flight of the Zeppelin LZ II, “Victoria Louise, ” and its introduction into service with the German airship company DELAG.

THIS DAY IN AVIATION • February 19 • 1934 — All domestic air mail contracts having been annulled by order of President Roosevelt on 9 February. • The United States Army Air Corps starts to fly the mail.

THIS DAY IN AVIATION • February 19 • 1936 — Brig. Gen. William Mitchell died in New York City.

THIS DAY IN AVIATION • February 19 • 1937 — Howard Hughes establishes a new transcontinental speed record of 7 hours 28 minutes 25 seconds from Los Angeles to Newark, New Jersey.

THIS DAY IN AVIATION • February 19 • 1945 — Marines land on Iwo Jima.

THIS DAY IN AVIATION • February 19 • 1982 — The first Boeing 757 takes to the air on its maiden flight. • With capacity for between 178 and 239 passengers in a wide variety of configurations, it has a cruising speed of 528 mph and a range of 2, 100 mi. , or 5, 343 mi. at economic cruise.

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Embry-Riddle Aeronautical University Chapter 4 Quiz Aviation Industry Certification Requirements Chapter 4

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Aviation Industry Certification Requirements u u u u Introduction Aircraft Certification Delivery Inspection Operator Certification of Personnel Aviation Maintenance Certifications Aviation Industry Interaction Summary

Introduction u Aviation Industry is the most heavily regulated of all the transportation modes. l l l From Design Through the Manufacturing efforts Operation Maintenance Personnel

Aircraft Certification u Three Certifications for full certification of the airplane: l l l Type Certificate Production Certificate Airworthiness Certificate § Aircraft design § Manufacturing Process § Aircraft itself

Type Certification (FAA form 8110. 9) u u All aircraft built for commercial or private use must have an approved Type Certificate (TC) TC defines: l l l The vehicle Engines and/or propellers Various instruments Systems Equipment that make up model

Type Certification (FAA form 8110. 9) u TC also defines: l u Capabilities and limitations of vehicle § Passenger and/or cargo carrying limits § Altitude limits § Fuel capacity § Top speed and Cruising Speed All these parameters combined (which define the airframe/engine combination) must be identified on a data sheet attached to the certificate

Type Certification (FAA form 8110. 9) u u u This design of the airframe/engine combination must be proven to the FAA by way of inspections and test flights A Final FAA proving flight is conducted before the TC is awarded. The TC is applied for in the early design stages but not awarded until built, tested in flight to ensure it meets the standards of safety and airworthiness.

Type Certification (FAA form 8110. 9) u u Variations or derivatives of a given model the TC can be amended FAA will issue a Supplemental Type Certificate (STC) FAA will only issue TCs for products manufactured in the US or Foreign-made products intended for use in US Refer to page 47

Production Certification (FAA form 8120. 4) u Once TC is awarded – manufacturer applies for Production Certificate (PC) u PC issued when FAA satisfied: l l l u with quality control system that consists of necessary manufacturing and production facilities Effective quality system for compliance with 14 CFR part 21 Approved design data for each aircraft built to TC standards Each copy of the aircraft must be built to TC standards

Production Certification (FAA form 8120. 4) u u A manufacturer usually gets one production certificate Each subsequent aircraft is added to original PC PC is good for as long as manufacturer complies with requirements of original issuance FAA may cancel, suspend, supersede, or revoke the PC for just cause at any time

Airworthiness Certification (FAA form 8100 -2) u u u Awarded by the FAA’s Manufacturing Inspection District Office (MIDO) to each aircraft produced by the manufacturer The certificate is awarded after the aircraft has passed all inspections and a successful flight test – just prior to delivery to the customer The AC contains the aircraft’s unique serial (tail) number

Airworthiness Certification (FAA form 8100 -2) u The AC remains in effect as long as these conditions are met: l l u Aircraft meets its type design Aircraft is in a condition for safe operation All applicable airworthiness directives (ADs) have been incorporated Maintenance and alterations are performed in accordance with applicable FARs FAA may cancel, suspend, supersede, or revoke the AC if any of the above have been violated

Airworthiness Certification (FAA form 8100 -2) u u FAA rules require that the AC be displayed in the aircraft (usually by the main door) Airworthiness Certificate is also allowed for the following categories of vehicles: l l l Normal Utility Acrobatic Transport Special Classes

Airworthiness Certification (FAA form 8100 -2) u u FAA authorization is required to operate any type of aerial vehicle in U. S. airspace Various categories: l l Primary § Aircraft flown for pleasure or personal use Restricted § Agriculture, forest, and wildlife, surveying, patrolling, weather use Light-Sport § Light sport aircraft, ultralight vehicle use Experimental § R&D, air racing, crew training, unmanned aircraft system use

Delivery Inspection u Prior to delivery to a customer l l u u The customer inspects aircraft to ensure it meets customer specifications and requirements. Includes – basic design, options, customer furnished equipment (shape color, and positioning of the airline logo) Inspection includes a test flight by their own flight and cabin crews Once the customer accepts aircraft from the manufacturer l That customer is responsible for maintaining in airworthy condition IAW its own maintenance program and regulatory authority rules.

Operator Certification u u Operator can not just buy a plane, get a license, advertise for customers and enter commercial service Must provide necessary info: l l l He/she understands the business aspect of commercial aviation Understands the operational and maintenance aspects of commercial aviation operation Has the necessary people, facilities, and processes in place to carry out that business

Operator Certification u u Secretary of the Department of Transportation (DOT) issues a “certificate of public convenience and necessity” – authorizing to enter into commercial transportation The applicant is “fit, willing and able” to perform the service The OC is issued by the Flight Standards District Office (FSDO) The OC is NOT transferrable to another operator

Operator Certification u u The OC remains in effect indefinitely unless surrendered by the operator, superseded by another certificate, or revoked by the FAA Federal Aviation Act of 1958 requires airlines to develop an Operations Specifications Document (Ops Specs) for each type of aircraft to be operated

Operator Certification u Ops Specs outlines operational activities: l l l l Type of service to be offered, passenger, cargo, or combination Type of aircraft to be used Routes to be flown Airports and alternate airports that will be used Navigation and communication facilities to be utilized on each route Way points used in navigation Take off and approach routes – including alternate approach routes at each airport

Operator Certification u Ops Specs must also identify the maintenance and inspection program applicable to the model l l u Including scheduled and unscheduled maintenance Inspection program Engine and equipment repair program (offaircraft maintenance) Quality assurance and reliability programs If any aircraft or systems maintenance is performed by third party that agreement must also be in the Ops Specs

Certification of Personnel • Airline operations under part 121 state • • Airline must have sufficient full-time qualified management and technical personnel to ensure a high degree of safety in its operations The must have the necessary “training, experience, and expertise” for conduction the business of aviation and must be knowledgeable of the regulatory and airline policies and procedures as they relate to their specific jobs

Aviation Maintenance Certifications • • Aviation Maintenance training schools must train in accordance with FAA regulations To earn an Airframe and Powerplant (A&P) license – aviation schools must fulfill three requirements (before taking FAA A&Ps exam) • • General Aviation Course Airframe Course Power plant Course Avionics/FCC license course (optional)

General Aviation Course • • Is a building block or provides a foundation to aviation maintenance History of Aviation Cross References, Diagrams, and subject matter as an excellent resource for someone just starting out Include Federal Aviation Regulations (FAR) and Advisory Circulars (AC)

Airframe Course • • Covers aircraft metals, structure, and all other components – excluding engines Provides understanding of aircraft structures and components • • • Cut, tear, weld and lubricate aircraft systems and components Include use and understanding or hydraulic and pneumatic systems Mimic aviation maintenance shops with hands on involvement

Power Plant Course • • Introduction to aircraft engines, their design, and the construction and reciprocating engines and turbine engines Covers: • • fuel delivery systems of an engine functioning of cooling and exhaust maintenance and troubleshooting of ignition systems Must take oral and practical tests administered by an FAA flight standard inspector

Avionics/FCC Course • Curriculum covers: • • Avionics technicians troubleshoot, repair and maintain: • • Introduction to electronic and avionics theory and practical applications Aircraft electrical systems RADAR GPWS Terrain collision and avoidance systems Line Replaceable Units (LRUs) Soldering broken wires Requires great attention to detail

Aviation Industry Interaction • Made up of: • • • Aircraft Manufacturers and venders of parts, systems and accessories for the aircraft Airline operators Third-party maintenance organizations Trade associations • Air Transport Association of America (ATA) • International Air Transport Association (IATA) • Flight crew, cabin crew • Mechanics’ unions • Regulatory Authorities

Aviation Industry Interaction • • All are constantly working together to develop and improve aviation both technically and operationally Continuous Quality Improvement – is the key

Aviation Industry Certification Requirements - Summary u u u u Introduction Aircraft Certification Delivery Inspection Operator Certification of Personnel Aviation Maintenance Certifications Aviation Industry Interaction Summary

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