VTSG  —  Krabi

VTSG  AD 2.1  AERODROME LOCATION INDICATOR AND NAME

VTSG  —  Krabi

VTSG  AD 2.2  AERODROME GEOGRAPHICAL AND ADMINISTRATIVE DATA

1

ARP coordinates and site at AD
080600.59N 0985907.13E

1500 M FM THR RWY14

2

Direction and distance from (city)

 10 KM NE from city
3

Elevation/Reference temperature

93 FT/30°C

4Geoid Undulation at AD ELEV PSN

NIL

5

MAG VAR/Annual change

 0°26'W (2016)/0.1°E
6

AD Administration, address, telephone,
telefax, telex, AFS

Director of Krabi Airport
Krabi Airport
Amphoe Naua Khlong
Krabi Province
Thailand 81130

Tel:  +667 570 1468-9

Fax:  +667 570 1470

AFS:  VTSGYDYX

7

Types of traffic permitted (IFR/VFR)

 IFR/VFR
8

Remarks

Operator: Department of Airports

VTSG  AD 2.3  OPERATIONAL HOURS

1

Aerodrome Operator

H24
2

Customs and immigration

0130-0930, On demand

3

Health and sanitation

0130-0930, On demand
4

AIS Briefing Office

NIL

5

ATS Reporting Office (ARO)

H24
6

MET Briefing Office

H24
7

ATS

H24
8

Fuelling

H24
9

Handling

On request
10

Security

H24
11

De-icing

NIL

12

Remarks

NIL

VTSG  AD 2.4  HANDLING SERVICES AND FACILITIES

1

Cargo-handling facilities

NIL

2

Fuel/oil types

 JET A-1
3

Fuelling facilities/capacity

 1 JET A-1 Refueller @ 60,000 L

1 JET A-1 Refueller @ 45,000 L

1 JET A-1 Refueller @ 18,000 L

2 JET A-1 Refueller @ 12,000 L

4

De-icing facilities

NIL

5

Hangar space for visiting aircraft

NIL

6

Repair facilities for visiting aircraft

NIL

7

Remarks

NIL

VTSG  AD 2.5  PASSENGER FACILITIES

1

Hotels

 Near the AD and in the city
2

Restaurants

 At AD and in the city
3

Transportation

 Limousines, car rent and shuttle bus
4

Medical facilities

 First Aid at AD and hospital in the city
5

Bank and Post Office

 Money exchange service available between 0200-1100 UTC, but postal services not available
6

Tourist Office

 At AD open
1) 0000 - 0800
2) 0700 - 1500
7

Remarks

NIL

VTSG  AD 2.6  RESCUE AND FIRE FIGHTING SERVICES

1

AD category for fire fighting

 Category 9
2

Rescue equipment

 Yes
3

Capability for removal of disabled aircraft

NIL

4

Remarks

NIL

VTSG  AD 2.7  SEASONAL AVAILABILITY - CLEARING

1

Types of clearing equipment

NIL

2

Clearance priorities

NIL

3

Remarks

The aerodrome is available all seasons.

VTSG  AD 2.8  APRONS, TAXIWAYS AND CHECK LOCATIONS/POSITIONS DATA

1Apron surface and strength

Surface: Concrete

Strength: PCN 68/R/C/X/T

2Taxiway width, surface and strength

Width: 23 M

Surface: Concrete and asphalt

Strength: PCN 72/F/C/X/T

3

Altimeter checkpoint location and elevation

NIL

4

VOR checkpoints

NIL

5

INS checkpoints

NIL

6

Remarks

NIL

VTSG  AD 2.9  SURFACE MOVEMENT GUIDANCE AND CONTROL SYSTEM AND MARKINGS

1

Use of aircraft stand ID signs, TWY guide lines and visual docking/parking guidance system of aircraft stands

NIL

2

RWY and TWY markings and LGT

RWY and TWY: Marked
3

Stop bars

NIL

4

Remarks

NIL

VTSG  AD 2.10  AERODROME OBSTACLES

In approach/TKOF areas

In circling areas and at AD

Remarks

123

RWY/Area affected

Obstacle type

Elevation

Markings/LGT

Coordinates

Obstacle type

Elevation

Markings/LGT

Coordinates

abcab

RWY 32

Chimney

HGT 171 M

LGTD
075930N 0990306E

NIL

NIL

NIL

VTSG  AD 2.11  METEOROLOGICAL INFORMATION PROVIDED

1

Associated MET Office

Aeronautical Meteorological Station-Krabi,

Southern West-Coast Meteorological Center,

Thai Meteorological Department (TMD)

2

Hours of service

MET Office outside hours

H24

NIL

3

Office responsible for TAF preparation

Periods of validity

Supply TAF from Southern West-Coast Meteorological Center

24 HR

4

Type of landing forecast

Interval of issuance

TREND

1 HR

5

Briefing/consultation provided

Personal Consultation

Tel: +667 570 1576

6

Flight documentation

Language(s) used

NIL

7

Charts and other information available for
briefing or consultation

S, U85, Daily Weather Forecast, satellite and radar images

8

Supplementary equipment available for
providing information

Automated Weather Observation System (AWOS),

Low Level Wind Shear Alert System (LLWAS) and

Weather Radar

9

ATS units provided with information

Krabi TWR

10

Additional information (limitation of service, etc.)

NIL

VTSG  AD 2.12  RUNWAY PHYSICAL CHARACTERISTICS

Designations

RWY NR

TRUE BRG

Dimensions of RWY(M)

Strength (PCN) and surface of RWY and SWY

THR coordinates

RWY end coordinates

THR geoid undulation

THR elevation and highest elevation of TDZ of precision APP RWY
123456
14 140.60° 3000x45

PCN 72/F/C/X/T

Concrete and asphalt

080623.28N 0985848.43E

THR 82 FT

TDZ 82 FT

32 320.60° 3000x45

PCN 72/F/C/X/T

Concrete and asphalt

080507.74N 0985950.66E

THR 93 FT

TDZ 93 FT

Slope of RWY-SWY

SWY dimensions (M)

CWY dimensions (M)Strip dimensions (M)OFZRemarks
789101112

-0.4% 0% +0.5% +0.8% 0%
(1050M 1575M 2250M 2750M 3000M)

60x60

NIL

 3240x300

NIL

Concrete drainage channels are located in the Runway strips, parallel to and at 120 M. offset from the Runway centre lines.

0% -0.8% -0.5% 0% +0.4%
(250M 750M 1425M 1950M 3000M)

60x60

NIL

 3240x300

NIL

VTSG  AD 2.13  DECLARED DISTANCES

RWY Designator

TORA

(M)

TODA

(M)

ASDA

(M)

LDA

(M)

Remarks

123456
14 3000 3000 3060 3000

NIL

32 3000 3000 3060 3000

NIL

VTSG  AD 2.14  APPROACH AND RUNWAY LIGHTING

RWY Designator

APCH LGT

type

LEN INTST

THR LGT

colour

WBAR

VASIS

(MEHT)

PAPI

TDZ, LGT

LEN

RWY Centre Line LGT

Length, spacing,

colour,

INTST

RWY edge LGT

LEN, spacing,

colour

INTST

RWY End LGT

colour

WBAR

SWY LGT

LEN (M)

colour

Remarks

12345678910
14

SALS

420 M

 Green

PAPI

Left 3.6°

(28.24 M)

NIL

NIL

3000 M

60 M

White, LIH

Red

NIL

NIL

32

SALS

420 M

 Green

PAPI

Left 3.2°

(25.25 M)

NIL

NIL

3000 M

60 M

White, LIH

Red

NIL

NIL

VTSG  AD 2.15  OTHER LIGHTING, SECONDARY POWER SUPPLY

1

ABN/IBN location, characteristics and hours of operation

ABN: At tower building FLG W G EV 7 SEC
2

LDI location and LGT

Anemometer location and LGT

NIL

3

TWY edge and centre line lighting

EDGE: All Taxiways
4

Secondary power supply/switch-over time

 Secondary power supply at tower and Air Field Lighting (AFL).
5

Remarks

NIL

VTSG  AD 2.16  HELICOPTER LANDING AREA

1

Coordinates TLOF or THR of FATO

Geoid undulation

NIL

2

TLOF and/or FATO elevation M/FT

NIL

3

TLOF and FATO area dimensions, surface, strength, marking

NIL

4

True and MAG BRG of FATO

NIL

5

Declared distance available

NIL

6

APP and FATO lighting

NIL

7

Remarks

NIL

VTSG  AD 2.17  ATS AIRSPACE

1

Designation and lateral limits

A circle of 5 NM radius centred on KBI DVOR/DME
2

Vertical limits

 2000 FT/AGL
3

Airspace classification

 C
4

ATS unit call sign

Language(s)

Krabi Tower

English, Thai

5

Transition altitude

 11000 FT
6

Remarks

NIL

VTSG  AD 2.18  ATS COMMUNICATION FACILITIES

Service designation

Call sign

Frequency

Hours of operation

Remarks

12345
APP Krabi Approach 120.05 MHZH24*Emergency Freq.
TWR Krabi Tower

122.5 MHZ

236.6 MHZ

*121.5 MHZ

H24
GND Krabi Ground 121.9 MHZH24
ATIS   132.4 MHZ 

VTSG  AD 2.19  RADIO NAVIGATION AND LANDING AIDS

Type of aid,

MAG VAR

CAT of ILS/MLS

(For VOR/ILS/MLS, give declination)

ID

Frequency

Hours of operation

Position of transmitting antenna coordinates

Elevation of DME transmitting antenna

Remarks

1234567
NDB KB 299 KHZH24
080619.0N 0985828.25E
 

50 NM coverage restricted as follow:

  1. BRG 090-160 DEG ALT should not below 4000 FT.

  2. BRG 161-270 DEG ALT should not below 1500 FT.

  3. BRG 271-300 DEG ALT should not below 5000 FT.

  4. BRG 351-089 DEG ALT should not below 7000 FT.

  5. BRG 301-350 DEG excessive needle oscillation out of tolerances.

DVOR/DME KBI

111 MHZ

CH47X

H24
080627.19N 0985839.07E
 

DVOR/DME restriction, due to mountainous terrain surround DVOR/DME station coverage check does not provide adequate signal to 40 NM at required altitude in various areas as follows:

  1. Radial 001°-180° altitude should not below 5 500 FT

  2. Radial 181°-200° altitude should not below 7 000 FT

  3. Radial 201°-340° altitude should not below 10 000 FT

  4. Radial 341°-360° altitude should not below 15 500 FT

ILS CAT I

LOC RWY 32

IKBI

110.1 MHZ

CH38X

H24
080630.62N 0985842.38E
 

Designated operation coverage 18 NM, ALT 6300 FT/AMSL.

DME   H24
080629.46N 0985840.31E

71 FT

Paired with LOC freq.

GP  334.4 MHZH24
080519N 0985946.6E
 

3.2 DEG, RDH 56.5 FT.

VTSG  AD 2.20  LOCAL AERODROME REGULATIONS

1. For preventing runway pavement structural damage, aircraft with weight equivalent to or heavier than B737 or A319 are not allowed to make 180 degree turn on the runway. The turn shall be made on the runway turn pad located near the threshold of runway 32.
2. Traffic departing runway 14 may be delayed in the apron or on the appropriate taxiway in case there is a landing traffic on runway 32.

VTSG  AD 2.21  NOISE ABATEMENT PROCEDURES

NIL

VTSG  AD 2.22  FLIGHT PROCEDURES

1.  THE CONTINUOUS DESCENT OPERATIONS (CDO) FOR ARRIVALS INTO KRABI AIRPORT
1.1 INTRODUCTION
1.1.1 As part of AEROTHAI’s ongoing efforts to improve operational efficiency and air traffic management, Continuous Descent Operations (CDO) will commence from 1700 UTC on 12 October 2017 with trial period from 1700 UTC on 11 September 2017 until 1659 UTC on 12 October 2017. CDO is an operation, enabled by airspace design, procedure design and ATC facilitation, in which an aircraft descends continuously, to the greatest possible extent, by employing minimum engine thrust, ideally in a low drag configuration, prior to Final Approach Fix / Final Approach Point
1.1.2 Vertical profile of CDO aims to improve flight stability (minimal level-off), increase terrain safety, ensure environmental friendly procedures by reducing aircraft noise, fuel consumption and emissions, enhanced flight punctuality and predictability, as well as other economic benefits for flights into Krabi Airport.
1.2 CONDITION OF USE
1.2.1 Conditions for Conducting a CDO
1.2.1.1 CDO application can be either under surveillance or Procedural environment.
1.2.1.2 CDO can be requested by pilot or initiated by ATC. Pilot should request CDO at least 5 minutes prior to reaching Top of Descent (TOD) for any type of approach.

Note: 1.There is limited benefit if CDO clearance is received at altitude lower than 10,000 FT.

Note: 2.In case of CDO procedure being impractical due to an emergency, weather condition, traffic situation or any other reasons, an alternate instruction will be issued by ATC, or requested by pilot.

1.2.2 Application of Other ATC Procedures
1.2.2.1 When conducting CDO, standard ATC procedures continue to apply. ATC may issue clearance to an intermediate approach level while facilitating a CDO profile.
1.2.2.2 In doing so, ATC shall endeavour to issue further descent clearance prior to the CDO flight reaching the last assigned altitude so as to prevent aircraft from levelling off.
1.2.3  Change of Runway-In-Use
1.2.3.1 In case of change on Runway-in-Use prior to aircraft reaching Final Approach Fix / Final Approach point, i.e. from RWY 32 to RWY14 CDO procedure shall be cancelled.
1.2.3.2 Pilot should then re-plan arrival route to the revised landing runway and inform ATC if the flight would still be able to meet all required speed/altitude restrictions.
1.2.4 Aircraft Type

CDO procedure is applicable for FMS capable aircraft.

1.2.5  Arrival Routes

CDO procedure is in place for all aircraft on W32 inbound to Krabi Airport via STAR NEYMA1A

1.2.6 Operations Time

CDO is available 24 hours.

1.2.7 Available Runway

CDO procedure is available for RWY 32.

1.2.8 Types of Approach
1.2.8.1 ILS RWY 32
1.2.8.2 LOC RWY 32
1.2.8.3 RNAV (GNSS) RWY 32
1.2.8.4 VOR RWY 32
1.2.9 Speed

When traffic permits, aircraft will operate at an optimum speed calculated by FMS, depending on aircraft type. The following speed guidance should be applicable in case of high traffic volume.

Flight StatusSpeed Range
Above 10 000 FT.250 – 320 IAS
Below 10 000 FT.220 – 250 IAS
Final Segment (up to 4 NM)160 – 180 IAS
1.2.10 Minimum Flight Altitude
1.2.10.1 Outside Krabi TMA, aircraft shall comply with altitude constraints of the CDO procedure.
1.2.10.2 Inside Krabi TMA, during CDO, minimum safety altitudes are identical to those within STAR and Instrument Approach Procedures required or minimum radar vector altitude.
1.3 CDO PROCEDURE
1.3.1 Before aircraft reaching TOD (approximately 150 NM from the airport), either pilot or ATC can initiate CDO using phraseologies described in paragraph 1.4
1.3.2 When all requirements for CDO are met and situation permits, CDO will commence.
1.3.3  Pilot shall operate aircraft FMS to plan optimal descent profile and report CDO execution commencing descent.
1.3.4  Aircraft should descend continuously on normal arrival route to Krabi TMA.
1.3.5  Longitudinal separation required will be at least 3 minutes or 8 NM on final approach segment between CDO traffic.
1.3.6  Operations without Vectoring
1.3.6.1 ILS, LOC, RNAV (GNSS) and VOR RWY 32 Instrument Approach Procedures

Aircraft Arriving on W32

  1. Aircraft Arriving on W32, after passing 30 NM from KBI DVOR, altitude not lower than 9,000 FT., then proceed to NEYMA altitude not lower than 9,000 FT., then follow on NEYMA1A to MUNIA altitude 2,500 FT. and carry out the ILS, LOC, RNAV (GNSS) or VOR RWY 32 approach procedure as published in AIP Thailand.

  2. The pilot may request permission to fly directly to AMMIE; however, this would be an ATC’s jurisdiction whether the request can be approved, depending on traffic conditions. In this case, the pilot shall fly directly to AMMIE, altitude will be advised by ATC, after AMMIE follow on NEYMA1A to MUNIA altitude 2,500 FT. and carry out the ILS, LOC, RNAV (GNSS) or VOR RWY 32 approach procedure as published in AIP Thailand.

1.3.7 Operations under Vectoring
1.3.7.1 Pilot should receive CDO clearance at altitude not lower than 10,000 FT.
1.3.7.2 ATC shall provide vectoring guidance and track mile estimate to pilot.
1.3.8 Radio Communications Failure
1.3.8.1 In the event of radio communication failure, CDO flight will be terminated immediately.
1.3.8.2 Pilot is to apply radio failure procedures stated in AIP Thailand ENR 1.6-6 paragraph 6
1.4 PHRASEOLOGY
1.4.1 The following phraseology does not phrases and regular radiotelephony procedure words contain in Doc 4444 and Doc 9432, but it enables clear and concise communications between pilot and controller to maintain safety of CDO arrivals.
1.4.2 ATC-initiated CDO

“(aircraft call sign), (ATC unit), CDO AVAILABLE, DO YOU ACCEPT?”

1.4.3  Pilots response to ATC-initiated CDO
1.4.3.1 “(aircraft call sign), ACCEPT CDO”
1.4.3.2 “(aircraft call sign), NEGATIVE CDO”
1.4.4 Pilot-requested CDO

“(ATC Unit), (aircraft call sign), REQUEST CDO (type of approach) APPROACH”

1.4.5 Approval CDO by Bangkok Area Control Centre

“(aircraft call sign), CDO (type of approach) APPROVED DESCEND TO (level or altitude), QNH (number) NEYMA1A ARRIVAL”

1.4.6 Denial CDO by Bangkok Area Control Centre
1.4.6.1  “(aircraft call sign), UNABLE TO APPROVED, DUE TO (reason)”
1.4.6.2  “(aircraft call sign), EXPECT CDO FROM KRABI APPROACH
1.4.7 CDO Cleared or Approved by Krabi Approach Control Unit
1.4.7.1  “(aircraft call sign), CONTINUE NEYMA1A ARRIVAL CLEARED CDO (type of approach) APPROACH RWY 32, QNH (number) REPORT ESTABLISHED”
1.4.7.2  “(aircraft call sign), DESCEND TO (level), QNH (number), CDO (type of approach) APPROVED”
1.4.8  When vectoring for CDO

“(aircraft call sign), FLY HEADING (three digits); TURN LEFT (or RIGHT) HEADING (three digits) VECTORING FOR CDO, POSITION (number) MILES FROM TOUCHDOWN”

1.4.9 CDO Cancellation
1.4.9.1 “(aircraft call sign), CANCEL CDO DUE TO (reason), STOP DESCEND (level or altitude), QNH (number)”
1.4.9.2  “(aircraft call sign), CDO TERMINATED DUE TO (reason)”
1.4.10 Resuming CDO

“(aircraft call sign), RESUME CDO DIRECT (point), DESCEND TO (level or altitude), QNH (number), CLEAR (type of approach) APPROACH RWY 32

1.4.11 Pilot report leaving assigned level

“(aircraft call sign), CDO LEAVING (level)”

1.4.12 Warning of aircraft below CDO Profile

“(aircraft call sign), BELOW CDO PROFILE, ALTITUDE SHOULD BE (altitude) OR ABOVE”

1.5 INFORMATION/TRAINING
1.5.1 Each airline must ensure that, for each type of aircraft, pilots are aware of CDO performance requirements.
1.5.2 Airlines are expected to define strategy to be adopted to drag-generating parts extension to stabilize aircraft in landing configuration at an altitude in compliance with flight safety, taking into account glide path at 3.2° in Final Approach.

VTSG  AD 2.23  ADDITIONAL INFORMATION

1.  BIRD CONCENTRATIONS

- Bird concentrations in the vicinity of an aerodrome.

VTSG  AD 2.24  CHARTS RELATED TO AN AERODROME

Chart name

Page

Aerodrome Chart - ICAO

 AD 2-VTSG-2-1

Standard Departure Chart - Instrument (SID) - ICAO - RWY 14 - SURAT2H TRANG2D PHUKET2F

 AD 2-VTSG-6-1

Standard Departure Chart - Instrument (SID) - ICAO - RWY 32 - SURAT2G TRANG2C PHUKET2E

 AD 2-VTSG-6-3

Standard Departure Chart - Instrument (SID) - ICAO - RNAV RWY 14 - EPGOT1G OSPEX1G SARER1G TUNRA1G

 AD 2-VTSG-6-5

Standard Departure Chart - Instrument (SID) - ICAO - RNAV RWY 14 - EPGOT1G OSPEX1G SARER1G TUNRA1G (Tabular description)

 AD 2-VTSG-6-6

Standard Departure Chart - Instrument (SID) - ICAO - RNAV RWY 32 - EPGOT1F LUXIR1F OSPEX1F TUNRA1F

 AD 2-VTSG-6-7

Standard Departure Chart - Instrument (SID) - ICAO - RNAV RWY 32 - EPGOT1F LUXIR1F OSPEX1F TUNRA1F (Tabular description)

 AD 2-VTSG-6-8

Standard Departure Chart - Instrument (SID) - ICAO - RNAV RWY 32 - EPGOT1F LUXIR1F OSPEX1F TUNRA1F (Waypoint list table)

 AD 2-VTSG-6-9

Standard Arrival Chart - Instrument (STAR) - ICAO - RNAV RWY 32 - EMRIT1E NULMA1E TUNRA1E

 AD 2-VTSG-7-1

Standard Arrival Chart - Instrument (STAR) - ICAO - RNAV RWY 32 - EMRIT1E NULMA1E TUNRA1E (Tabular description)

 AD 2-VTSG-7-2

Instrument Approach Chart - ICAO - VOR RWY 32

 AD 2-VTSG-8-1

Instrument Approach Chart - ICAO - VOR RWY 32 (Fix and point list table)

 AD 2-VTSG-8-2

Instrument Approach Chart - ICAO - LOC RWY 32

 AD 2-VTSG-8-3

Instrument Approach Chart - ICAO - LOC RWY 32 (Fix and point list table)

 AD 2-VTSG-8-4

Instrument Approach Chart - ICAO - ILS RWY 32

 AD 2-VTSG-8-5

Instrument Approach Chart - ICAO - ILS RWY 32 (Fix and point list table)

 AD 2-VTSG-8-6

Instrument Approach Chart - ICAO - RNAV (GNSS) RWY 32

 AD 2-VTSG-8-7

Instrument Approach Chart - ICAO - RNAV (GNSS) RWY 32 (Tabular description)

 AD 2-VTSG-8-8