Fuel servicing operations. Unless servicing JP-4, simultaneous servicing of fuel while loading passengers, cargo, performing maintenance, aircrew members performing inspections, or operating aircraft systems is considered to be a normal fuel servicing operation. Warning: Do not load/off-load cargo containing explosives, oxygen, flammable gases or liquids during fuel servicing operations.

1. When aircrew members are required to refuel, the flight engineer will act as the refueling team supervisor. (T-3) Flight engineers will comply with T.O. 00-25-172, Ground Servicing of Aircraft and Static Grounding/Bonding, and applicable T.O. 1C- 10(K)A-2 series guidance. (T-3) Two other aircrew members are required to assist in the refueling, one for safety duties and the other to act as fire guard. (T-3) Four total will be required when the right wing single point refueling is inoperative and refueling must be accomplished from the flight engineer’s panel. (T-3)

2. A current and qualified aircrew member will be designated to remain on the flight deck to monitor interphone and be prepared to broadcast a request for emergency assistance on a radio tuned to the appropriate agency with ready access to an emergency response team anytime aircrew members are in the aircraft and fuel servicing is being conducted. (T-3) The passenger address may be used to direct passenger evacuation in an emergency.

3. Unless environmental conditions dictate, the primary emergency exit will remain open and stairs in place. Close and arm all doors except the open entry door. If entry door is closed due to inclement weather, do not arm. Stairs shall remain in place. (T-3)

4. With passengers on board a current and qualified aircrew member will be designated the passenger compartment monitor (PCM) and shall continuously monitor passengers during fuel servicing operations. (T-3) PCMs will not perform other duties during fuel servicing. (T-3)

5. The PCM shall brief passengers on emergency egress, exits, prohibitions, and hazards. (T-3) Passengers will remain seated except for brief physiological needs but will

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   not wear seat belts. (T-3) When possible, conduct this briefing prior to fuel servicing. If fuel servicing is in progress, the briefing will be given immediately after boarding. (T-3)

6. When authorized, passengers may board or exit the aircraft for the express purpose of loading for departure or off-loading upon arrival. Boarding or exiting must be opposite of fuel servicing operations. (T-3) Once onboard, except for emergencies, passengers shall not deplane once fuel servicing commences.

7. Passengers are not required to ground themselves.

8. The PIC, or designated maintenance/aircrew representative will advise PCMs when to evacuate passengers. (T-3)

9. The PCM shall set the interior lighting as bright as possible to suit the combat environment. (T-3)

10. The following guidance will be used for fuel servicing operations: (T-3)

    1. If using the auxiliary power unit (APU) during refueling/defueling operations, it must be started and running in a stable condition prior to pressurizing the refueling hose or pantograph.

    2. Electric and electronic equipment may be on and operated to include operations performed by aircrew members during required inspections with the following exceptions:

       1. Pull circuit breakers for radar altimeters. Tactical air navigation (TACANs) must be turned off.

       2. Radar may be in standby but, if time permits, should be turned off.

       3. Identification Friend or Foe (IFF) may be in standby but, if time permits, should be turned off.

       4. Radio operations are authorized. Exception: Use of high frequency (HF) radios is prohibited.

       5. Do not pull or reset circuit breakers during fuel servicing operations.

       6. Maintain interphone contact between the flight deck and refueling team for duration of fuel servicing operations regardless if performing crew duties. This allows for communication in the event of an emergency or evacuation, as required. Note: Interphone cable connections shall be completed prior to starting fuel transfer operation. Do not disconnect this equipment while fuel servicing is in progress.

       7. Establish a meeting point, take a head count and brief all personnel on the egress plan in case of emergency. Meeting point should be upwind and out of the path of responding emergency vehicles.

       8. Tune ultra high frequency (UHF)1 or VHF1 to ground, tower, or emergency (guard) frequency.

11. Avoid refueling with JP-8+100 or Jet A++100 while transiting airfields with these fuels. AMC aircraft are not allowed to operate on JP-8+100, except in emergency

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    conditions. All JP-8+100 locations are required to maintain a clean JP-8 capability to support transient aircraft. If inadvertent refueling with JP-8+100 or Jet A++100 occurs comply with the following: (T-3)

    1. Defuel the aircraft prior to flight.

    2. Make an AFTO Form 781 entry stating “Caution: Aircraft refueled using JP-8+100 [Jet A++100], preventative measures must be taken when defueling.”.

The PIC is responsible for the recovery items including: (T-3)

1. Parking and receiving.

2. Aircraft servicing, including Aerospace Ground Equipment (AGE) usage.

3. Supervision of minor maintenance within local capability.

4. Minor configuration changes to meet mission tasking.

5. Securing the aircraft before entering crew rest.

6. Coordinating aircraft security requirements.

7. Documenting AFTO 781-series forms.

In all cases where aircrews must service the aircraft without qualified maintenance specialist assistance, comply with the appropriate maintenance T.O. (T-3)

Aircrews are not qualified to accomplish the required ground inspections. In those instances where maintenance personnel are not available, the aircrew will enter a red dash symbol in the AFTO Form 781H updating current status and indicating a discrepancy that reflects that the applicable maintenance inspection (i.e., preflight, thru-flight, basic post-flight) is overdue. (T-3)

Use the following guidance and the abbreviated instructions on the form. This is a machine-readable document utilizing an optical mark reading system. Do not use reproductions of the form to record flight information. Use a number 2 or softer pencil, darkening responses completely. Do not use ink or make stray marks outside of the REMARKS section. Do not staple or punch holes. The 1C-10(K)A-101 is obsolete, disregard reference to this technical order on the AFTO Form 18.

1. Segment types:

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   1. CL (CLIMB) - Takeoff climb, and in-flight climb into another altitude band.

   2. CR (CRUISE) - In-flight cruise en route to destination or in-flight refueling station.

   3. D (DESCENT) - Penetration descent, and inflight descent into another altitude band.

   4. ON135 & ON10 (FUEL ONLOAD) - Fuel onload from a KC-46 tanker. AFTO Form 18 (Aug 95) does not specify ON46. When onloading fuel from KC-46 darken selection for ON135 & ON10 and include a notation in the remarks section on the applicable form (e.g., Flight Segment 4 = KC-46). Receiver type and number of contacts made ARE NOT recorded.

   5. ON135 (FUEL ONLOAD) - Fuel onload from a KC-135 tanker. Receiver type and number of contacts made ARE NOT recorded.

   6. ON10 (FUEL ONLOAD) - Fuel onload from a KC-10A tanker. Receiver types and number of contacts made ARE NOT recorded.

   7. OFFB (FUEL OFFLOAD VIA BOOM) - KC-10A operating as a tanker.

      Receiver types and number of contacts made ARE recorded.

   8. OFFD (FUEL OFFLOAD VIA CENTER LINE DROGUE/WING PODS)

      - KC-10A operating as a tanker. Receiver types and number of contacts made ARE recorded.

   9. P (PATTERN/PRACTICE) - This segment includes touch & go practice (T&G), fullstop-taxi-back and engine-running-crew change landings (FS), missed approach practice and aborted approaches (A). The total number of T&G’s, FS’s, and/or A’s are recorded in this segment type. Low altitude-cruise and traffic-holding- pattern operations are recorded in this segment; however, NO ENTRIES are made in T&G, FS, or A.

2. Segment guidelines:

   1. The first segment starts at brake release and will be a climb (CL) or pattern/practice (P). Speed and altitude are not required for the initial climb.

   2. The last segment will be a descent (D) or pattern/practice (P). 11.6.1.2.3. Time spent in a traffic/holding pattern is a pattern/practice (P).

      1. In-flight change-of-altitude (i.e., climb or descent) beyond an adjacent altitude band, as well as takeoff climb and penetration descent, should be entered as CL or D.

      2. A fuel on-load segment begins when the KC10A is stabilized in the astern position and ends when the KC-10A departs from the tanker aircraft.

      3. The off-load segment begins when the first receiver is stabilized in the astern position and ends when the last receiver departs from the KC-10A.

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      4. A pattern/practice segment begins when the KC-10A enters the traffic- pattern for planned practice, unplanned traffic-pattern circumstances, reaches the altitude for a low altitude-cruise, or is halted in a traffic-holding pattern.

      5. A flight consisting of more than eight segments is continued on another form.

      6. On continuation pages, blocks 1, 3, 4, and 5 are filled out along with segment blocks as required. Blocks 3, 4, and 5 should be the same on all forms for a given flight.

      7. A new flight is defined, and a new form must be completed when cargo/fuel are on or off-loaded on the ground, more than one-hour elapses between landing and subsequent takeoff, or anytime engines are shut down. (T-3)

3. Block 15. Receiver type and total number of contacts, wet or dry, made with each type. Record method as LP (left pod), B (boom), C (centerline drogue) or RP (right pod). Use Block 15 on any or every form as required. Do not enter the modified mission symbol (e.g., the "R" in RF-4), except for cases shown below. For AV-8, enter A-008. Enter receiver type only as follows. If the receiver is not listed, select a boom or drogue example, and include actual type in REMARKS. See Table 11.1.

4. REMARKS. Enter name & rank, duty AF base, duty phone, and mission number on each form. Enter receiver type if not listed. Track Wing Air Refueling Pod (WARP) cycles for the left and right pods separately and report at maintenance debriefing. The definition of a cycle is: fully extending and fully retracting the pod hose. Multiple contacts may be made in the interim period between extending and retracting the hose without logging additional cycles.

Complete any open items after landing. Turn in completed forms after each flight or upon return to the home station. The chief flight engineer or designated representative will review completed forms. (T-3) Each Monday, forward the past week’s completed forms to aircraft structural integrity management information systems office Air Force Life Cycle Management Center/Product Support Engineering Division (AFLCMC/EZPRA), ATTN: KC- 10, 7851 Arnold St. Bldg 3 Rm 107, Tinker AFB, OK 73145-9145.

The primary method of KC-10 engine performance monitoring is the Exhaust Gas Temperature (EGT) divergence method. This compares EGT from one engine to another on the same aircraft using number 2 engine as the baseline. Data may be collected with the boom and drogue deployed if airspeed remains stable, no climbs or descents are initiated, and the receiver is no closer than pre-contact. Discontinue procedure any time safety would be compromised.

Instructions for engine performance monitoring:

1. Auto throttles off. Allow power to stabilize for 5 minutes. Note: N/A if power was stable prior to disconnecting auto throttles.

2. N1 setting aligned to within 0.3% of each other, at not less than 89%.

3. Stabilized cruise, power stabilized; light turbulence is permissible.

4. Altitude: 20,000 feet or greater. Above flight level (FL) 270 is optimum.

5. Mach: 0.70 or greater.

6. Record at least one coupon per flight. Two is preferred on long flights.

Record the following data:

1. Air Force serial number, not tail number.

2. Zulu date readings are taken.

3. Zulu time readings are taken.

4. Flight engineer’s name.

5. Altitude / 1000.

6. Total air temperature to the closest °C. Ensure positive or negative sign is recorded.

7. Mach: All 3 numbers, within +.001.

8. Flight engineer’s flying squadron.

9. N1 to closest +0.1%.

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10. EGT to the closest degree.

11. N2 to closest +0.1%.

12. Fuel flow to nearest 10pph.

13. Oil pressure to nearest psi.

14. Bleed configuration. Note: Normal is packs on.

15. Anti-ice configuration. Note: Normal is engine and wing anti-ice off.

16. Remarks/abnormal configuration: Record non-standard configurations, boom and drogue deployed, slats extended, turbulence, alternate method, etc.

If an indicator becomes erratic or inoperative, record the best estimate of data. Circle the estimate and document discrepancy on the form and AFTO Form 781A.

Alternate method. If the primary conditions cannot be met, use this alternate method.

1. May be accomplished at any altitude and airspeed/Mach.

2. Auto throttles off. Allow power to stabilize for 1 - 3 minutes.

3. Align N1 settings to within 0.3% of each other.

4. Record only N1 and EGT.

5. Fill in all heading information.

6. Compare EGT data with the engine EGT comparison sheet.

EGT comparison. EGT is the primary indication of CF-6 engine operating condition. Since EGT will never shift downward, unless caused by an instrument error, enter any upward shift of more than +10°C in the AFTO Form 781A. For example, if the EGT comparison page in the aircraft forms indicates engine #1: +13°C, engine #2: baseline, and engine #3: +6°C, then the maximum EGT for the #1 engine is baseline plus 23°C, and the maximum EGT for the #3 engine is baseline plus 16°C. Readings above these maximum values require an AFTO Form 781A entry. If a shift of more than +10°C is identified confirm by another reading taken at a different power setting & altitude. If confirmed, immediately report the condition to home station for guidance. Note: A downward shift of both wing engines may indicate a problem with engine #2. EGT comparison sheets are maintained in each aircraft. Maintenance updates this sheet every 60 days based on the engine monitoring data received.

TOLD check limits. TOLD verification limits are: speeds +/- 3 KIAS; N1 settings +/- 0.3%; distances +/- 500 feet. Critical field length must be equal to or less than runway available. Landing distance must be equal to or less than runway length.

KC-10A Performance Data Computer (i.e., Slip Stick). KC-10 Slip Stick tabulated data is authorized for use to verify takeoff performance calculations and to compute landing speeds, minimum air refueling speeds and other inflight data.

Fixed flap takeoffs. Fixed flap takeoffs, at 15 or 22 degrees, may be executed for initial or full-stop taxi backs from a MOB. Use optimum flap procedures at all other fields.

1. Compute an optimum flap takeoff setting for the given conditions.

2. A fixed flap takeoff may be executed if the 15- or 22-degree flap line for the takeoff gross weight falls below the runway available limiting weight and climb gradient limiting weight lines using sheet 3 tree chart of T.O. 1C-10(K)A-1-1, and the takeoff gross weight is less than maximum takeoff gross weight. Use fixed flap setting for all performance computations.

At a minimum, consumption comparisons will be accomplished: (T-3)

1. As soon as practical after initial level-off; record fuel total, compare to predicted total.

2. Prior to and after each AAR.

3. During over-water cruise at intervals not to exceed 1.5 hours.

4. Any time aircraft performance is critical or marginal.

Fuel monitoring may be discontinued at the discretion of the AC when all the following conditions have been met:

1. All AARs have been completed.

2. The equal time point has been crossed on over-water missions.

3. The fuel systems and quantity indicators are functioning normally.

4. There is obvious extra fuel and the + FUEL trend is favorable.

Mission planning. The flight engineer assists the pilots in extracting data from maps and charts, plotting headings or TACAN and very high frequency omni-directional range (VOR) radials, determining wind factors, and mission timing.

Preflight. Time permitting; the flight engineer may load the flight plan into the FMS.

In-flight. Use the FMS to check flight progress and fuel status at pre-selected points along the route of flight. The flight engineer will take an active role in maintaining awareness of aircraft location and position along the flight path. (T-2) This includes assisting pilots in loading and verifying new or updated waypoints. Use the FMS to determine time, distance,