- •Textbook Series
- •Contents
- •1 Definitions
- •Introduction
- •Abbreviations
- •Definitions
- •2 International Agreements and Organizations
- •The Chicago Convention
- •International Law
- •Commercial Considerations
- •Customs and Excise, and Immigration
- •International Obligations of Contracted States
- •Duties of ICAO Member States
- •Status of Annex Components
- •The International Civil Aviation Organization (ICAO)
- •The Organization of ICAO
- •Regional Structure of ICAO
- •Regional Structure and Offices
- •ICAO Publications
- •Other International Agreements
- •The Conventions of Tokyo, the Hague and Montreal
- •The Warsaw Convention
- •The Rome Convention
- •IATA
- •ECAC
- •EASA
- •Eurocontrol
- •World Trade Organization
- •Geneva Convention
- •EU Regulation 261/2004
- •Questions
- •Answers
- •3 Airworthiness of Aircraft
- •Introduction
- •Airworthiness
- •Questions
- •Answers
- •4 Aircraft Nationality and Registration Marks
- •Introduction
- •Nationality and Registration Marks
- •Certification of Registration
- •Aircraft Markings
- •Classification of Aircraft
- •Questions
- •Answers
- •5 Flight Crew Licensing
- •Introduction
- •Definitions
- •General Rules Concerning Licensing
- •Licences and Ratings for Pilots
- •Multi-crew Pilot Licence (MPL)
- •Instrument Rating (Aeroplane) (IR(A))
- •Instructor and Examiner Rating
- •JAR-FCL 3 Medical Requirements
- •Pilot Proficiency
- •EASA Theoretical Knowledge Examinations
- •Questions
- •Answers
- •6 Rules of the Air
- •History
- •Applicability of the Rules of the Air
- •General Rules
- •Visual Flight Rules
- •Instrument Flight Rules
- •Semi-circular Flight Level Rules and RVSM
- •Special VFR
- •Distress and Urgency Signals
- •Restricted, Prohibited or Danger Areas
- •Signals for Aerodrome Traffic
- •Marshalling Signals
- •Flight Deck Signals
- •Questions
- •Answers
- •Instrument Procedures
- •PANS OPS
- •Instrument Departure Procedures
- •Questions
- •Answers
- •8 Approach Procedures
- •Procedure Basics
- •Approach Procedure Design
- •Obstacle Clearance Altitude/Height
- •Operating Minima
- •Descent Gradients
- •Track Reversal and Racetracks
- •Missed Approach Segment and Procedure
- •Published Information
- •RNAV Approach Procedures based on VOR/DME
- •Questions
- •Answers
- •9 Circling Approach
- •Circling Approach
- •Questions
- •Answers
- •10 Holding Procedures
- •Holding Procedures
- •Entry Sectors
- •ATC Considerations
- •Obstacle Clearance
- •Questions
- •Answers
- •11 Altimeter Setting Procedure
- •Altimeter Setting Objectives
- •Transition
- •Phases of Flight
- •Questions
- •Answers
- •12 Parallel or Near-parallel Runway Operation
- •Safety
- •Runway Spacing
- •Questions
- •Answers
- •13 SSR and ACAS
- •Airborne Collision Avoidance System (ACAS)
- •Questions
- •Answers
- •14 Airspace
- •Introduction
- •Control Areas and Zones
- •Classes of Airspace
- •Required Navigation Performance (RNP)
- •Airways and ATS Routes
- •Questions
- •Answers
- •15 Air Traffic Services
- •Introduction
- •Air Traffic Control
- •ATC Clearances
- •Control of Persons and Vehicles at Aerodromes
- •The Flight Information Service
- •The Alerting Service
- •Procedures
- •Questions
- •Answers
- •16 Separation
- •Concept of Separation
- •Vertical Separation
- •Horizontal Separation
- •Radar Separation
- •Procedural Wake Turbulence Separation
- •Radar Wake Turbulence Separation
- •Visual Separation in the Vicinity of Aerodromes
- •Stacking
- •Questions
- •Answers
- •17 Control of Aircraft
- •Procedural ATC
- •Radar Control
- •Radar Identification
- •Radar Service
- •Aerodrome Control
- •Approach Control Service
- •Air Traffic Advisory Service
- •Aircraft Emergencies
- •Questions
- •Answers
- •18 Aeronautical Information Service (AIS)
- •Introduction
- •General
- •The Integrated Aeronautical Information Package
- •The Aeronautical Information Publication (AIP)
- •Notices to Airmen (NOTAM)
- •SNOWTAM
- •ASHTAM
- •Aeronautical Information Circulars (AICs)
- •Pre-flight and Post-flight Information
- •Questions
- •Answers
- •Introduction
- •Aerodrome Reference Code
- •Glossary of Terms
- •Aerodrome Data
- •Runways
- •Taxiways
- •Aprons
- •Questions
- •Answers
- •Requirements
- •Visual Aids for Navigation
- •Runway Markings
- •Taxiway Markings
- •Signs
- •Markers
- •Visual Docking Guidance Systems
- •Questions
- •Answers
- •21 Aerodrome Lighting
- •Aerodrome Lights
- •Approach Lighting Systems
- •Runway Lighting
- •Taxiway Lighting
- •Questions
- •Answers
- •22 Obstacle Marking and Aerodrome Services
- •Introduction
- •Visual Aids for Denoting Obstacles
- •Visual Aids for Denoting Restricted Use Areas
- •Emergency and Other Services
- •Other Aerodrome Services
- •Questions
- •Answers
- •23 Facilitation
- •Entry and Departure of Aircraft
- •Questions
- •Answers
- •24 Search and Rescue
- •Definitions and Abbreviations
- •Establishment and Provision of SAR Service
- •Co-operation between States
- •Operating Procedures
- •Questions
- •Answers
- •25 Security
- •Introduction
- •Objectives
- •Organization
- •Preventative Security Measures
- •Management of Response to Acts of Unlawful Interference
- •Further Security Information
- •Questions
- •Answers
- •26 Aircraft Accident and Incident Investigation
- •Introduction
- •Objective of Investigation
- •Investigations
- •Serious Incidents
- •EU Considerations
- •Questions
- •Answers
- •27 Revision Questions
- •Revision Questions
- •Answers
- •EASA Specimen Examination
- •Answers to Specimen EASA Examination
- •28 Addendum – EASA Part-FCL & Part-MED
- •Chapter Five. Flight Crew Licensing
- •European Aviation Safety Agency (EASA)
- •Licences
- •Ratings
- •Certificates
- •EASA Part-MED
- •29 Index
Holding Procedures
Entry Sectors
10.5 Introduction. There are three methods of joining a holding pattern based on the heading of the aircraft as it approaches the holding fix. Based upon this heading, three sectors are defined with specific procedures appropriate to each. Between each sector there is a 5° ‘flexibility’ area either side of the defining heading within which the pilot has the choice of applicable joining procedure. The three sectors are illustrated below. For ease of definition the entry procedures below relate to a standard (right hand) pattern.
310°Mag |
060°Mag |
N |
|
|
|
|
SECTOR 1 |
|
110°
SECTOR 2
70°
Inbound 310°Mag
SECTOR 3
240°Mag
130°Mag
Each sector has +/- 5° ‘latitude’
Figure 10.3
10.6 Sector 1 (Parallel Entry) Procedure. Having reached the fix, the aircraft is turned left onto an outbound heading to make good a track reciprocal to the stated inbound holding track. This is maintained for the appropriate period of time relating to the altitude of the aircraft, and then the aircraft is turned left to return to the fix. On the second time over the fix, the aircraft is turned right to follow the holding pattern.
Figure 10.4
10
Holding Procedures 10
211
10 Holding Procedures
10.7 Sector 2 (Offset Entry) Procedure. Having reached the fix, the aircraft is turned onto the heading to make good the track diverging 30° left of the reciprocal of the inbound holding track. This is maintained for the appropriate period of time relating to the altitude of the aircraft, and then the aircraft is turned right onto the holding track to return to the fix. On the second time over the fix, the aircraft is turned right to follow the holding pattern.
Procedures Holding 10
Figure 10.5
10.8 Sector 3 (Direct Entry) Procedure. Having reached the fix, the aircraft is turned right to follow the holding pattern.
Figure 10.6
212
Holding Procedures 10
ATC Considerations
10.9 Clearance to Join. As the holding pattern will be in controlled airspace and used for controlled flights, ATC (usually the approach controller) will pass an ATC clearance to the pilot with instructions to take up the holding pattern. The clearance will specify the location of the hold to be used, details of the holding pattern (unless routinely published), the holding level and any special requirements.
“G-CD hold at OX FL50 expected approach time 1020” “Hold OX FL50 1020 G-CD”
Followed by:
“Oxford Approach G-CD is established in the hold at FL50”
The pilot is required to ensure that the aircraft is level at the holding level at least 5 NM before reaching the holding fix. The clearance will be acknowledged and the ATCO will not expect to hear from the pilot again until the aircraft has completed the joining procedure and is established in the holding pattern.
10.10 Descending in the Hold. When the level below is vacant, the ATCO will re-clear the pilot to the lower level. The pilot will acknowledge the clearance and immediately commence descent.
Note: Shuttle is a climbing or descending manoeuvre in a holding pattern.
“G-CD shuttle in the hold to FL40” “Leaving FL50 descending to FL40 G-CD”
Followed by:
“G-CD level FL40”
10.11 Departing the Hold. At the appropriate time, the ATCO will instruct the pilot to commence the instrument procedure. It is usual to leave a holding pattern at the fix, but where radar is used the Approach Radar controller may vector the aircraft from any position in the holding pattern. Typically a clearance would be as follows:
“G-CD advise when ready to commence the procedure” “Ready to commence the procedure G-CD”
“G-CD set the Oxford QNH 1003, clear NDB/DME approach runway 01, report turning inbound at 2000 ft”
“1003 set clear NDB/DME runway 01 wilco G-CD”
Under certain circumstances (timed approaches) the ATCO will clear the aircraft to depart the holding pattern at a specific time to commence the procedure. In this case, the pilot should adjust the holding pattern leg lengths to depart the pattern from overhead the holding fix as close as possible to the stated clearance time.
Holding Procedures 10
213
10 Holding Procedures
Obstacle Clearance
10.12 Holding Area. The instrument procedure designer will ensure that the MOC (300 m or 600 m in mountainous terrain), is applied throughout the holding area. This will include the holding pattern and any necessary adjacent airspace that would be used during a joining procedure. The size of the holding area will depend upon the nature of the pattern, the type of aircraft using the hold, adjacent airspace requirements and maximum holding altitude. Surrounding the holding area a buffer zone, 5 NM wide, is established within which decreasing MOC is applied from full MOC at the boundary with the holding area, to zero at the extremity.
Procedures Holding 10
Figure 10.7
Figure 10.8
214
Holding Procedures 10
Holding Procedures 10
215