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JAAAppendices
033
Technical Realization: LPLUS 2002
JAA Appendices, Subject: 010 Page Edition:122002 1
Table Of Contents0333301 A ..........................................................................................................................70333302 A ..........................................................................................................................90333305 A ........................................................................................................................100333306 A ........................................................................................................................120333308 A ........................................................................................................................140333318 A ........................................................................................................................170333320 A ........................................................................................................................190333320 B ........................................................................................................................200333321 A ........................................................................................................................220333322 A ........................................................................................................................240333323 A ........................................................................................................................250333324 A ........................................................................................................................270333327 A ........................................................................................................................280333906 A ........................................................................................................................290333907 A ...............................................................................................................................................30 ..............................................................................................................................................300333910 A ........................................................................................................................310333911 B ........................................................................................................................320333912 B ........................................................................................................................340334616 A ...............................................................................................................................................350334622 A ........................................................................................................................360334623 A ........................................................................................................................370334735 A ............................................................................................................................................380334736 A ........................................................................................................................400334737 A ........................................................................................................................420334738 A ........................................................................................................................430339543 A ........................................................................................................................440339546 A ...............................................................................................................................................450339550 A ............................................................................................................................................460339551 A ...............................................................................................................................................470339552 A ...............................................................................................................................................480339553 A ........................................................................................................................490339554 A ........................................................................................................................510339554 B ........................................................................................................................520339556 A ........................................................................................................................53
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0339557 A .........................................................................................................................550339558 A ........................................................................................................................560339562 A .........................................................................................................................570339564 A ........................................................................................................................580339571 A .........................................................................................................................590339573 A .........................................................................................................................610339574 A ........................................................................................................................630339575 A ........................................................................................................................640339579 A ........................................................................................................................660339579 B .........................................................................................................................670339579 C ..........................................................................................................................69 ..............................................................................................................................................690339579 D ..........................................................................................................................700339694 A .........................................................................................................................730339694 B ...............................................................................................................................................740339695 A .........................................................................................................................750339696 A............................................................................................................................760339697 A .........................................................................................................................780339699 A ........................................................................................................................800339700 A .........................................................................................................................820339701 A .........................................................................................................................830339702 A .........................................................................................................................840339703 A .........................................................................................................................850339704 A .........................................................................................................................860339705 A ........................................................................................................................880339706 A ........................................................................................................................900339707 B ...............................................................................................................................................920339708 A ........................................................................................................................930339709 A ........................................................................................................................950339710 B ........................................................................................................................960339710 C ........................................................................................................................970339712 A ........................................................................................................................980339712 B ........................................................................................................................990339715 A ......................................................................................................................1000339716 A ......................................................................................................................1010339732 A .........................................................................................................................1020339733 A ......................................................................................................................10303311042 A ....................................................................................................................1050311043 A ......................................................................................................................10603311044 A ......................................................................................................................107
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03311045 A ...........................................................................................................................................10803311046 A ....................................................................................................................10903311047 A .....................................................................................................................110 ............................................................................................................................................11003311048 A .......................................................................................................................111 ..........................................................................................................................................11103311049 A .....................................................................................................................112 ............................................................................................................................................11203311058 A ....................................................................................................................11303311059 A ....................................................................................................................11403311060 A ....................................................................................................................11503311061 A (pag. 1) .........................................................................................................11603311062 A ....................................................................................................................11803311063 A ....................................................................................................................11903311064 A ....................................................................................................................12003311065 A .....................................................................................................................12103311066 A ....................................................................................................................12203311067 A ....................................................................................................................12303311074 B ....................................................................................................................127 03311074 C ...................................................................................................................12803311074 D .....................................................................................................................13003311182 A ....................................................................................................................13203311183 A ....................................................................................................................13303311184 A ....................................................................................................................13403311185 A ....................................................................................................................13503311186 A ....................................................................................................................13603311187 A ....................................................................................................................13703311188 A ....................................................................................................................13803311189 A ....................................................................................................................13903311190 A ....................................................................................................................14003311191 A ....................................................................................................................14103311193 A ....................................................................................................................14303311194 A ....................................................................................................................14403311195 A ....................................................................................................................14503311196 A ....................................................................................................................14703311198 A ....................................................................................................................14803311201 A ....................................................................................................................14903311202 A ....................................................................................................................15003311204 A ....................................................................................................................15103311204 B ....................................................................................................................15203311204 C .......................................................................................................................153
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03311207 A ....................................................................................................................15403311207 B ....................................................................................................................15603311209 A ....................................................................................................................15803311209 B ....................................................................................................................16003311210 B ....................................................................................................................16203311211 A ....................................................................................................................16403311211 B ......................................................................................................................16503311212 A........................................................................................................................16603311212 B ....................................................................................................................16703311213 A ....................................................................................................................16803311214 A ....................................................................................................................17003311214 B .....................................................................................................................17103311216 A ....................................................................................................................17303311223 A ....................................................................................................................17403311223 B ....................................................................................................................17603311223 C ....................................................................................................................17803311224 A ....................................................................................................................17903311224 B ....................................................................................................................18003311224 C ....................................................................................................................18103311226 A ....................................................................................................................18203311226 B .....................................................................................................................18403311228 A ....................................................................................................................18603311229 A ....................................................................................................................18703311238 A ....................................................................................................................18903311239 A ....................................................................................................................19103311239 B ....................................................................................................................19303311240 A ....................................................................................................................19403311240 B ....................................................................................................................19503311241 A .......................................................................................................................19603311243 A ....................................................................................................................19703311244 A ....................................................................................................................20003311245 A .....................................................................................................................202 03311245 B ....................................................................................................................20303311252 A ......................................................................................................................20403311252 C ....................................................................................................................20603311253 A ....................................................................................................................20803311253 B ....................................................................................................................20903311253 C........................................................................................................................21003311253 D .....................................................................................................................21103311254 A ....................................................................................................................21203311254 B ....................................................................................................................213
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03311254 C ....................................................................................................................21403311254 D ....................................................................................................................21503311255 A ......................................................................................................................216 ...........................................................................................................................................21703311255 B ......................................................................................................................217 ............................................................................................................................................218 ............................................................................................................................................21803311255 C ....................................................................................................................21803311259 A ....................................................................................................................22003311259 B ....................................................................................................................22103311260 A ....................................................................................................................22203311260 B ....................................................................................................................22303311261 A .....................................................................................................................22403311262 A ....................................................................................................................22503311270 A ....................................................................................................................22603311271 A ....................................................................................................................22803311272 A ....................................................................................................................22903311702 A ....................................................................................................................23003311704 A ....................................................................................................................23103311717 A ....................................................................................................................23203312275 A ....................................................................................................................23303312276 A ....................................................................................................................23403312277 A ....................................................................................................................23503312280 A ....................................................................................................................23603312281 A ....................................................................................................................23703312285 A........................................................................................................................23803312289 A ....................................................................................................................23903312302 A ....................................................................................................................24003312302 B ....................................................................................................................24103312303 A ....................................................................................................................24203312303 B ....................................................................................................................24303312304 A ....................................................................................................................24403312305 A ....................................................................................................................24503312306 A ....................................................................................................................24703312306 B ....................................................................................................................24803312307 A ....................................................................................................................25003312307 B ...................................................................................................................25103312308 A .....................................................................................................................25203312308 B ....................................................................................................................25303312309 A ....................................................................................................................25503312309 B ....................................................................................................................25603312310 A ....................................................................................................................257
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03312311 A ....................................................................................................................25803312312 A ....................................................................................................................25903312313 A ....................................................................................................................26003312314 A ....................................................................................................................26103312315 A .......................................................................................................................263 ..........................................................................................................................................26303312316 A ....................................................................................................................26403312317 A ....................................................................................................................26503312318 A ....................................................................................................................26603312319 A .......................................................................................................................267 ..........................................................................................................................................26703312320 A – 03312328A ............................................................................................26803312339 A ....................................................................................................................27003312340 A ....................................................................................................................27103312341 A ....................................................................................................................27203312342 A .....................................................................................................................27403312343 A ....................................................................................................................27503312344 A ....................................................................................................................27603312345 A ....................................................................................................................27703312346 A ....................................................................................................................27903312347 A, 03312348 A ..............................................................................................28003312349 A ....................................................................................................................28103312350 A, 03312351 A ..............................................................................................28203312359 A 03312361 A .........................................................................................28403312367 A ....................................................................................................................286
0333301 A
JAA Appendices, Subject: 010 Page Edition:122002 7
0333302 A
CIVIL AVIATION AUTHORITYFLIGHT PLANNING & MONITORING
DATA SHEET MEP1
6. DESCENTMethod of Use.
1. Enter graph with OAT at cruise altitude and move vertically to cruise altitude.2. From there move horizontally to fuel, time and distance lines.3. Move vertically down respectively from each and read values for fuel (gallons), time (minutes)
and distance (nautical miles).4. Repeat 1,2 and 3 for altitude of airfield.5. Subtract results of 4 from 3 and derive fuel, time and distance for descent profile.
Figure 3.6 DESCENT
JAA Appendices, Subject: 010 Page Edition:122002 9
0333305 A CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
Figure 4.5.3.1 Long Range CruiseAll Engines Maximum Cruise Thrust Limits A/C Auto
PRESSURE ALTITUDE 33000 Ft.
NOTE OPTIMUM WEIGHT FOR PRESSURE ALTITUDE IS 58200 KGTHRUST LIMITED WEIGHT FOR ISA + 10 AND COLDER EXCEEDS STRUCTURAL LIMIT
THRUST LIMITED WEIGHT FOR ISA + 15 THRUST LIMITED WEIGHT FOR ISA + 20
EXCEEDS STREXCEEDS STRUCTURAL LIMITIS66400 KG
ADJUSTMENTS FOR OPERATION AT NONSTANDARD TEMPERATURES
INCREASE FUEL REQUIRED BYDECREASE FUEL REQUIRED BY
0.6 PERCENT PER 10 DEGREES C ABOVE ISA0.6 PERCENT PER 10 DEGREES C BELOW ISA
INCREASE TAS BY 1 KNOT PER DEGREE C ABOVE ISADECREASE TAS BY 1 KNOT PER DEGREE C BELOW ISA
JAA Appendices, Subject: 010 Page Edition:122002 10
0333306 A CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
Figure 4.5.3.1 Long Range CruiseAll Engines Maximum Cruise Thrust Limits A/C Auto
PRESSURE ALTITUDE 28000 Ft.
JAA Appendices, Subject: 010 Page Edition:122002
NOTE OPTIMUM WEIGHT FOR PRESSURE ALTITUDE EXCEEDS STRUCTURAL LIMITTHRUST LIMITED WEIGHT FOR ISA + 10 AND COLDER EXCEEDS STRUCTURAL LIMITTHRUST LIMITED WEIGHT FOR ISA + 15 THRUST LIMITED WEIGHT FOR ISA + 20
EXCEEDS STRUCTURAL LIMITEXCEEDS STRUCTURAL LIMIT
ADJUSTMENTS FOR OPERATION AT NONSTANDARD TEMPERATURES
INCREASE FUEL REQUIRED BY DECREASE FUEL REQUIRED BY
0.6 PERCENT PER 10 DEGREES C ABOVE ISA0.6 PERCENT PER 10 DEGREES C BELOW ISA
INCREASE TAS BY 1 KNOT PER DEGREE C ABOVE ISADECREASE TAS BY 1 KNOT PER DEGREE C BELOW ISA
12
0333307 A CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
Figure 4.5.1 EN – ROUTE CLIMB 280/.74 ISA 6° C TO 15° C
JAA Appendices, Subject: 010 Page Edition:122002 13
0333308 A
CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
Figure 4.5.1 EN – ROUTE CLIMB 280/.74 ISA 6° C TO 15° C
JAA Appendices, Subject: 010 Page Edition:122002 14
0333309 A
CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
Figure 4.5.1 EN – ROUTE CLIMB 280/.74 ISA 6° C TO 15° C
JAA Appendices, Subject: 010 Page Edition:122002 15
0333311 A
CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
Figure 4.5.3.1 Long Range CruiseAll Engines Maximum Cruise Thrust Limits A/C Auto
PRESSURE ALTITUDE 33000 Ft.
NOTE OPTIMUM WEIGHT FOR PRESSURE ALTITUDE IS 58200 KGTHRUST LIMITED WEIGHT FOR ISA + 10 AND COLDER EXCEEDS STRUCTURAL LIMIT
THRUST LIMITED WEIGHT FOR ISA + 15 THRUST LIMITED WEIGHT FOR ISA + 20
EXCEEDS STREXCEEDS STRUCTURAL LIMITIS66400 KG
ADJUSTMENTS FOR OPERATION AT NONSTANDARD TEMPERATURES
INCREASE FUEL REQUIRED BYDECREASE FUEL REQUIRED BY
0.6 PERCENT PER 10 DEGREES C ABOVE ISA0.6 PERCENT PER 10 DEGREES C BELOW ISA
JAA Appendices, Subject: 010 Page Edition:122002 16
INCREASE TAS BY 1 KNOT PER DEGREE C ABOVE ISADECREASE TAS BY 1 KNOT PER DEGREE C BELOW ISA
0333318 A CIVIL AVIATION AUTHORITY FUEL PLANNING
DATA SHEET MRJT 1
Figure 4.5.3.1 Long Range CruiseAll Engines Maximum Cruise Thrust Limits A/C Auto
PRESSURE ALTITUDE 35000 Ft.
NOTE OPTIMUM WEIGHT FOR PRESSURE ALTITUDE IS 53200 KGTHRUST LIMITED WEIGHT FOR ISA + 10 AND COLDER IS 64500 KG
THRUST LIMITED WEIGHT FOR ISA + 15THRUST LIMITED WEIGHT FOR ISA + 20
IS 63100 KGIS 61400 KG
ADJUSTMENTS FOR OPERATION AT NONSTANDARD TEMPERATURES
INCREASE FUEL REQUIRED BYDECREASE FUEL REQUIRED BY
0.6 PERCENT PER 10 DEGREES C ABOVE ISA0.6 PERCENT PER 10 DEGREES C BELOW ISA
JAA Appendices, Subject: 010 Page Edition:122002 17
INCREASE TAS BY 1 KNOT PER DEGREE C ABOVE ISADECREASE TAS BY 1 KNOT PER DEGREE C BELOW ISA
JAA Appendices, Subject: 010 Page Edition:122002 18
0333320 A
CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
Figure 4.2.1 OPTIMUM ALTITUDE
Figure 4.2.2 SHORT DISTANCE CRUISE ALTITUDE
JAA Appendices, Subject: 010 Page Edition:122002 19
0333320 B
CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
Figure 4.5.3.2 Mach 0.74 CruiseAll Engines Maximum Cruise Thrust Limits A/C Auto
PRESSURE ALTITUDE 22000Ft TAS 451 Kts
NOTE OPTIMUM WEIGHT FOR PRESSURE ALTITUDE EXCEEDS STRUCTURAL LIMIT HRUST LIMITED WEIGHT FOR ISA + 10 AND COLDER EXCEEDS STRUCTURAL LIMIT
THRUST LIMITED WEIGHT FOR ISA + 15 THRUST LIMITED WEIGHT FOR ISA + 20
EXCEEDS STRUCTURAL LIMITEXCEEDS STRUCTURAL LIMIT
ADJUSTMENTS FOR OPERATION AT NONSTANDARD TEMPERATURES INCREASE FUEL REQUIRED BY
DECREASE FUEL REQUIRED BY 0.6 PERCENT PER 10 DEGREES C ABOVE ISA
0.6 PERCENT PER 10 DEGREES C BELOW ISA INCREASE TAS BY 1 KNOT PER DEGREE C ABOVE ISA
DECREASE TAS BY 1 KNOT PER DEGREE C BELOW ISA
JAA Appendices, Subject: 010 Page Edition:122002 20
333320 C
CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
Figure 4.5.3.2 Mach 0.74 Cruise
All Engines Maximum Cruise Thrust Limits A/C Auto PRESSURE ALTITUDE 25000Ft TAS 445 Kts
NOTE OPTIMUM WEIGHT FOR PRESSURE ALTITUDE EXCEEDS STRUCTURAL LIMIT HRUST LIMITED WEIGHT FOR ISA + 10 AND COLDER EXCEEDS STRUCTURAL LIMIT
THRUST LIMITED WEIGHT FOR ISA + 15 THRUST LIMITED WEIGHT FOR ISA + 20
EXCEEDS STRUCTURAL LIMITEXCEEDS STRUCTURAL LIMIT
ADJUSTMENTS FOR OPERATION AT NONSTANDARD TEMPERATURES INCREASE FUEL REQUIRED BY
DECREASE FUEL REQUIRED BY 0.6 PERCENT PER 10 DEGREES C ABOVE ISA
0.6 PERCENT PER 10 DEGREES C BELOW ISA INCREASE TAS BY 1 KNOT PER DEGREE C ABOVE ISA
DECREASE TAS BY 1 KNOT PER DEGREE C BELOW ISA
JAA Appendices, Subject: 010 Page Edition:122002 21
0333321 A
CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
Figure 4.3.1B SIMPLIFIED FLIGHT PLANNING
JAA Appendices, Subject: 010 Page Edition:122002 22
0333322 A CIVIL AVIATION AUTHORITY FUEL PLANNING
DATA SHEET MRJT 1
3.3 Alternate Planning (Fig. 4.3.6)The fuel and time figures extracted from this chart include the following:
Ÿ Missed approach
Ÿ Climb to cruise altitude
Ÿ Cruise at LRC
Ÿ Descent and straight on approach.Method of use is similar to previous graphs.For distances greater than 500 NM use the LRC Simplified Flight Planning Charts.
Figure 4.3.6 SIMPLIFIED FLIGHT PLANNING ALTERNATE PLANNING LONG RANGE CRUISE
JAA Appendices, Subject: 010 Page Edition:122002 24
0333323 A
CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
Figure 4.3.3C SIMPLIFIED FLIGHT PLANNING
0.78 MACH CRUISE
JAA Appendices, Subject: 010 Page Edition:122002 25
0333324 A CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
4. HOLDING FUEL PLANNING
The table below provides fuel flow Information necessary for planning holding reserve fuel requirements.Chart is based on racetrack pattern at minimum drag airspeed minimum speed 210KIAS.For holding in straight and level reduce table values by 5%
Figure 4.4FLAPS UP
Fuel flow is based on a racetrack pattern.For holding in straight and level flight reduce fuel values by 5%
5. DETAILED FUEL PLANNING 5.1 Enroute Climb (Figures 4.5.1)Tables are provided for a range of temperature deviations from ISA 15°C to ISA +25°CFuel and time given in these tables are from brake release and distance from 1500 ft. with a climb airspeed schedule 280 KIAS/0.74 Mach. The stated TAS is the average for the climb and should be used to correct the still air distance shown.
JAA Appendices, Subject: 010 Page Edition:122002 27
0333327 A
CIVIL AVIATION AUTHORITYFUEL PLANNING & MONITORING
DATA SHEET MEP1
3. RANGE AT STANDARD TEMPERATURES Method of Use
1. Enter graph (Fig.3.2) with cruise altitude2. Move horizontally to power selected intersection (with or without reserve)3. Move vertically to read range in nautical miles still air distance.
Figure 3.2 RANGE
JAA Appendices, Subject: 010 Page Edition:122002 28
0333906 A
NOT FOR NAVIGATIONALPURPOSES!COPYRIGHT 1999 JEPPESEN GMBHEDITION NOVEMBER '99
JAA Appendices, Subject: 010 Page Edition:122002 29
0333907 A
NOT FOR NAVIGATIONALPURPOSES! COPYRIGHT 1999 JEPPESEN GMBHEDITION NOVEMBER '99
JAA Appendices, Subject: 010 Page Edition:122002 30
0333910 A
CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
4. HOLDING FUEL PLANNINGThe table below provides fuel flow Information necessary for planning holding reserve fuel requirements.Chart is based on racetrack pattern at minimum drag airspeed minimum speed 210KIAS.For holding in straight and level reduce table values by 5%
Figure 4.4FLAPS UP
Fuel flow is based on a racetrack pattern.For holding in straight and level flight reduce fuel values by 5%
5. DETAILED FUEL PLANNING 5.1 Enroute Climb (Figures 4.5.1)
Tables are provided for a range of temperature deviations from ISA 15°C to ISA +25°CFuel and time given in these tables are from brake release and distance from 1500 ft. with a climb airspeed schedule 280 KIAS/0.74 Mach. The stated TAS is the average for the climb and should be used to correct the still air distance shown.
JAA Appendices, Subject: 010 Page Edition:122002 31
0333911 B CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
3.3 Alternate Planning (Fig. 4.3.6)The fuel and time figures extracted from this chart include the following:
Ÿ Missed approach
Ÿ Climb to cruise altitude
Ÿ Cruise at LRC
Ÿ Descent and straight on approach.
Method of use is similar to previous graphs.For distances greater than 500 NM use the LRC Simplified Flight Planning Charts
Figure 4.3.6 SIMPLIFIED FLIGHT PLANNING ALTERNATE PLANNING LONG RANGE CRUISE
JAA Appendices, Subject: 010 Page Edition:122002 32
0333912 B CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
Figure 4.3.2A SIMPLIFIED FLIGHT PLANNING
0.74 MACH CRUISE
JAA Appendices, Subject: 010 Page Edition:122002 34
0334616 A
CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
3.3 Alternate Planning (Fig. 4.3.6)The fuel and time figures extracted from this chart include the following:
Ÿ Missed approach
Ÿ Climb to cruise altitude
Ÿ Cruise at LRC
Ÿ Descent and straight on approach.Method of use is similar to previous graphs.For distances greater than 500 NM use the LRC Simplified Flight Planning Charts.
Figure 4.3.6 SIMPLIFIED FLIGHT PLANNING ALTERNATE PLANNING LONG RANGE CRUISE
JAA Appendices, Subject: 010 Page Edition:122002 35
0334622 A
CIVIL AVIATION AUTHORITYFUEL PLANNING & MONITORING
DATA SHEET MEP 1
4. POWER SETTING, FUEL FLOW AND TASEnter the power setting table (fig. 3.3) with required % power to obtain fuel flow in US gallons per hour.Manifold Pressure is read off against pressure altitude and RPM in the correct % power column.Figure 3.3 POWER SETTING TABLE
JAA Appendices, Subject: 010 Page Edition:122002 36
0334623 A CIVIL AVIATION AUTHORITYFUEL PLANNING & MONITORING
DATA SHEET MEP 1
4. POWER SETTING, FUEL FLOW AND TASEnter the power setting table (fig. 3.3) with required % power to obtain fuel flow in US gallons per hour.Manifold Pressure is read off against pressure altitude and RPM in the correct % power column.
JAA Appendices, Subject: 010 Page Edition:122002 37
Figure 3.3 POWER SETTING TABLE
0334735 A
CIVIL AVIATION AUTHORITYFUEL PLANNING & MONITORING
DATA SHEET MEP 1
5. ENDURANCE PROFILEThe graph at Figure 2.5 (page 1) provides a rapid method for determination of endurance for the sample
JAA Appendices, Subject: 010 Page Edition:122002 38
aeroplane. An example is shown on the graph.
Figure 2.5 ENDURANCE
JAA Appendices, Subject: 010 Page Edition:122002 39
0334736 A CIVIL AVIATION AUTHORITYFLIGHT PLANNING & MONITORING
DATA SHEET SEP 1
Figure 2.2 RECOMMENDED CRUISE POWER SETTINGSTABLE 2.2.3
20° C LEAN 23.0 IN. HG (OR FULL THROTTLE) @ 2300 RPM
Of Peak EGT CRUISE LEAN MIXTURE 3400 Ibs.
Press. Alt.
IOAT Man. Press.
Fuel Flow Air Speed
Feet °C °F IN. HG PPH GPH KIAS KTASISA 20° C(ISA 36° F)
0 2000 4000 6000 8000
10,000 12,000 14,000 16.000
3 7
11 15 18 23 17 31 35
26 20 13
6 1 9
16 23 31
23.0 23.0 23.0 23.0 22.4 20.7
19.2 17.8 16.4
67.6 69.7 72.1 74.4 73.8 68.4 63.8 60.0 56.3
11.3 11.6 12.0 12.4 12.3 11.4 10.6
10.0 9.4
152 152 153 153 150 143 135 127 117
144 149 154 158
160 157 153 148 141
Standard Day (ISA)
0 2000 4000 6000 8000
10,000 12,000 14,000 16.000
17 13 9 5 2
3 7
11 15
62 56 49 42 35 27 20 13
5
23.0 23.0 23.0 23.0 22.4 20.7 19.2 17.8 16.4
65.4 67.4 69.4 71.7 71.1 66.2 61.8 58.5 55.3
10.9 11.2 11.6 12.0 11.9 11.0 10.3
9.8 9.2
147 147 148 148 145 137 129 120 109
145 149 154 159 160 157 152 146 137
ISA + 20° C(ISA + 36° F)
0 2000
4000 6000 8000
10,000
12,000
14,000
16,000
37 33 29 25 22 17 13
9
98 92 85 78 71 63 56 48
23.0 23.0 23.0 23.0 22.4 20.7 19.2 17.8
63.2 65.1 67.1 69.0 68.5 64.0 60.0 57.1
10.5 10.9 11.2 11.5 11.4 10.7 10.0
9.5
142 143 143 142 140 132 123 113
145 149 154 158 160 156 151 142
JAA Appendices, Subject: 010 Page Edition:122002 40
NOTES: 1. Full throttle manifold pressure settings are approximate.2. Shaded area represents Operation with full throttle.3. Fuel flows are to be used for flight planning only and will vary from
aeroplane to aeroplane. Lean using the EGT.
JAA Appendices, Subject: 010 Page Edition:122002 41
0339543 A
CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
4. HOLDING FUEL PLANNINGThe table below provides fuel flow Information necessary for planning holding reserve fuel requirements.Chart is based on racetrack pattern at minimum drag airspeed minimum speed 210KIAS.For holding in straight and level reduce table values by 5%
Figure 4.4FLAPS UP
Fuel flow is based on a racetrack pattern.For holding in straight and level flight reduce fuel values by 5%
5. DETAILED FUEL PLANNING 5.1 Enroute Climb (Figures 4.5.1)Tables are provided for a range of temperature deviations from ISA 15°C to ISA +25°CFuel and time given in these tables are from brake release and distance from 1500 ft. with a climb airspeed schedule 280 KIAS/0.74 Mach. The stated TAS is the average for the climb and should be used to correct the still air distance shown.
JAA Appendices, Subject: 010 Page Edition:122002 44
0339546 A
CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
3.3 Alternate Planning (Fig. 4.3.6)The fuel and time figures extracted from this chart include the following:
Ÿ Missed approach
Ÿ Climb to cruise altitude
Ÿ Cruise at LRC
Ÿ Descent and straight on approach.Method of use is similar to previous graphs.For distances greater than 500 NM use the LRC Simplified Flight Planning Charts.
Figure 4.3.6 SIMPLIFIED FLIGHT PLANNING ALTERNATE PLANNING LONG RANGE CRUISE
JAA Appendices, Subject: 010 Page Edition:122002 45
0339550 A
CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
Figure 4.2.1 OPTIMUM ALTITUDE
JAA Appendices, Subject: 010 Page Edition:122002 46
Figure 4.2.2 SHORT DISTANCE CRUISE ALTITUDE
0339551 A
CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
Figure 4.2.1 OPTIMUM ALTITUDE
JAA Appendices, Subject: 010 Page Edition:122002 47
Figure 4.2.2 SHORT DISTANCE CRUISE ALTITUDE
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DATA SHEET MRJT 1
Figure 4.2.1 OPTIMUM ALTITUDE
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Figure 4.2.2 SHORT DISTANCE CRUISE ALTITUDE
0339553 A CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
Figure 4.2.1 OPTIMUM ALTITUDE
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DATA SHEET MRJT 1
1 AEROPLANE DATA AND CONSTANTS1.1 Aeroplane Data
• Monoplane • Twin turbojet engines • Retractable undercarriage
Structural Limits: Maximum Taxi (Ramp) Mass Maximum Take Off Mass Maximum Landing Mass Maximum Zero Fuel Mass Maximum Fuel Load
63060 Kg. 62800 Kg. 54900 Kg. 51300 Kg. 5311 U.S. Gallons 16145 Kg. (@ 3.04 Kg./Gal.)
1.2 Constants Fuel Density (unless otherwise notified) 3.04 Kg./US Gallon 6.7 Ibs AIS Gallon 2. OPTIMUM ALTITUDES
2.1 Optimum Cruise Altitude (Fig. 4.2.1)Enter graph with cruise mass (56800 Kg.) Move vertically to selected cruise profile (LRC) Move horizontally to read optimum altitude (33500 ft.)NB. Fuel Penalties will be incurred by operating "off optimum" altitude as shown in table.
OFF OPTIMUM CONDITION FUEL MILEAGE PENALTY %LRC 0.74
2000 n. above Optimum 2000 n below 4000 ft. below 8000 ft. below 12000 ft. below
1 0 1 4
10 15
1 0 2 4
11 20
2.2 Short Distance Cruise Altitude (Fig. 4.2.2)Enter with trip distance (Nautical Air Miles).Move to temperature deviation.Move horizontally to reference line.Follow the trade lines to intersect with vertical through brake release weight.Move horizontally to read maximum pressure altitude.
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DATA SHEET MRJT 1
Figure 4.2.1 OPTIMUM ALTITUDE
Figure 4.2.2 SHORT DISTANCE CRUISE ALTITUDE
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DATA SHEET MRJT 1
Figure 4.5.3.2 Mach 0.74 CruiseAll Engines Maximum Cruise Thrust Limits A/C Auto
PRESSURE ALTITUDE 31000Ft TAS 434 Kts
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NOTE OPTIMUM WEIGHT FOR PRESSURE ALTITUDE IS 63500 KGTHRUST LIMITED WEIGHT FOR ISA + 10 AND COLDER EXCEEDS STRUCTURAL LIMIT
THRUST LIMITED WEIGHT FOR ISA + 15 THRUST LIMITED WEIGHT FOR ISA + 20
EXCEEDS STRUCTURAL LIMITEXCEEDS STRUCTURAL LIMIT
ADJUSTMENTS FOR OPERATION AT NONSTANDARD TEMPERATURES INCREASE FUEL REQUIRED BY
DECREASE FUEL REQUIRED BY 0.6 PERCENT PER 10 DEGREES C ABOVE ISA
0.6 PERCENT PER 10 DEGREES C BELOW ISA INCREASE TAS BY 1 KNOT PER DEGREE C ABOVE ISA
DECREASE TAS BY 1 KNOT PER DEGREE C BELOW ISA
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0339557 A CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
Figure 4.5.3.2 Mach 0.74 CruiseAll Engines Maximum Cruise Thrust Limits A/C Auto
PRESSURE ALTITUDE 31000Ft TAS 434 Kts
NOTE OPTIMUM WEIGHT FOR PRESSURE ALTITUDE IS 63500 KGTHRUST LIMITED WEIGHT FOR ISA + 10 AND COLDER EXCEEDS STRUCTURAL LIMIT
THRUST LIMITED WEIGHT FOR ISA + 15 THRUST LIMITED WEIGHT FOR ISA + 20
EXCEEDS STRUCTURAL LIMITEXCEEDS STRUCTURAL LIMIT
ADJUSTMENTS FOR OPERATION AT NONSTANDARD TEMPERATURES INCREASE FUEL REQUIRED BY
DECREASE FUEL REQUIRED BY 0.6 PERCENT PER 10 DEGREES C ABOVE ISA
0.6 PERCENT PER 10 DEGREES C BELOW ISA INCREASE TAS BY 1 KNOT PER DEGREE C ABOVE ISA
DECREASE TAS BY 1 KNOT PER DEGREE C BELOW ISA
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ENDURANCE/FUEL CALCULATION
Fuel (kg) Time (hh:mm)
Trip FuelContingency FuelAlternate FuelFinal Reserve Fuel
5800
18001325
02:32
00:42
Minimum T/OFuelExtra Fuel
Actual T/OFuel Taxi FUEL 200
Ramp Fuel 10000
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DATA SHEET MRJT 1
Figure 4.5.3.1 Long Range CruiseAll Engines Maximum Cruise Thrust Limits A/C Auto
PRESSURE ALTITUDE 35000 Ft.
NOTE OPTIMUM WEIGHT FOR PRESSURE ALTITUDE IS 53200 KGTHRUST LIMITED WEIGHT FOR ISA + 10 AND COLDER IS 64500 KG
THRUST LIMITED WEIGHT FOR ISA + 15THRUST LIMITED WEIGHT FOR ISA + 20
IS 63100 KGIS 61400 KG
ADJUSTMENTS FOR OPERATION AT NONSTANDARD TEMPERATURES INCREASE FUEL REQUIRED BY
DECREASE FUEL REQUIRED BY 0.6 PERCENT PER 10 DEGREES C ABOVE ISA
0.6 PERCENT PER 10 DEGREES C BELOW ISA
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INCREASE TAS BY 1 KNOT PER DEGREE C ABOVE ISADECREASE TAS BY 1 KNOT PER DEGREE C BELOW ISA
0339564 A CIVIL AVIATION AUTHORITY FUEL PLANNING
DATA SHEET MRJT 1
Figure 4.5.1 EN ROUTE CLIMB 280/.74 ISA +6° C TO +15° C
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DATA SHEET MRJT 1
Figure 4.5.3.1 Long Range Cruise
JAA Appendices, Subject: 010 Page Edition:122002 59
All Engines Maximum Cruise Thrust Limits A/C Auto
PRESSURE ALTITUDE 33000 Ft.
NOTE OPTIMUM WEIGHT FOR PRESSURE ALTITUDE IS 58200 KG
THRUST LIMITED WEIGHT FOR ISA + 10 AND COLDER EXCEEDS STRUCTURAL LIMIT THRUST LIMITED WEIGHT FOR ISA + 15
THRUST LIMITED WEIGHT FOR ISA + 20 EXCEEDS STREXCEEDS STRUCTURAL LIMIT
IS66400 KG
ADJUSTMENTS FOR OPERATION AT NONSTANDARD TEMPERATURES
INCREASE FUEL REQUIRED BYDECREASE FUEL REQUIRED BY
0.6 PERCENT PER 10 DEGREES C ABOVE ISA0.6 PERCENT PER 10 DEGREES C BELOW ISA
INCREASE TAS BY 1 KNOT PER DEGREE C ABOVE ISADECREASE TAS BY 1 KNOT PER DEGREE C BELOW ISA
0339572 A
CIVIL AVIATION AUTHORITY DATA SHEET
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FUEL PLANNING MRJT 1
Figure 4.5.3.1 Long Range CruiseAll Engines Maximum Cruise Thrust Limits A/C Auto
PRESSURE ALTITUDE 28000 Ft.
0339573 A
JAA Appendices, Subject: 010 Page Edition:122002
NOTE OPTIMUM WEIGHT FOR PRESSURE ALTITUDE EXCEEDS STRUCTURAL LIMITTHRUST LIMITED WEIGHT FOR ISA + 10 AND COLDER EXCEEDS STRUCTURAL LIMITTHRUST LIMITED WEIGHT FOR ISA + 15 THRUST LIMITED WEIGHT FOR ISA + 20
EXCEEDS STRUCTURAL LIMITEXCEEDS STRUCTURAL LIMIT
ADJUSTMENTS FOR OPERATION AT NONSTANDARD TEMPERATURES
INCREASE FUEL REQUIRED BY DECREASE FUEL REQUIRED BY
0.6 PERCENT PER 10 DEGREES C ABOVE ISA0.6 PERCENT PER 10 DEGREES C BELOW ISA
INCREASE TAS BY 1 KNOT PER DEGREE C ABOVE ISADECREASE TAS BY 1 KNOT PER DEGREE C BELOW ISA
61
CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
Figure 4.5.1 EN – ROUTE CLIMB 280/.74 ISA 6° C TO 15° C
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DATA SHEET MRJT 1
Figure 4.5.1 EN – ROUTE CLIMB 280/.74 ISA 6° C TO 15° C
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DATA SHEET MRJT 1
Figure 4.5.1 EN – ROUTE CLIMB 280/.74 ISA 6° C TO 15° C
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CIVIL AVIATION AUTHORITY FUEL PLANNING
DATA SHEET MRJT 1
Figure 4.5.3.1 Long Range CruiseAll Engines Maximum Cruise Thrust Limits A/C Auto
PRESSURE ALTITUDE 35000 Ft.
NOTE OPTIMUM WEIGHT FOR PRESSURE ALTITUDE IS 53200 KGTHRUST LIMITED WEIGHT FOR ISA + 10 AND COLDER IS 64500 KG
THRUST LIMITED WEIGHT FOR ISA + 15THRUST LIMITED WEIGHT FOR ISA + 20
IS 63100 KGIS 61400 KG
ADJUSTMENTS FOR OPERATION AT NONSTANDARD TEMPERATURES
INCREASE FUEL REQUIRED BYDECREASE FUEL REQUIRED BY
0.6 PERCENT PER 10 DEGREES C ABOVE ISA0.6 PERCENT PER 10 DEGREES C BELOW ISA
INCREASE TAS BY 1 KNOT PER DEGREE C ABOVE ISA
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DECREASE TAS BY 1 KNOT PER DEGREE C BELOW ISA
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DATA SHEET MRJT 1
Figure 4.2.1 OPTIMUM ALTITUDE
Figure 4.2.2 SHORT DISTANCE CRUISE ALTITUDE
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DATA SHEET MRJT 1
Figure 4.5.3.2 Mach 0.74 Cruise
All Engines Maximum Cruise Thrust Limits A/C Auto PRESSURE ALTITUDE 25000Ft TAS 445 Kts
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NOTE OPTIMUM WEIGHT FOR PRESSURE ALTITUDE EXCEEDS STRUCTURAL LIMIT HRUST LIMITED WEIGHT FOR ISA + 10 AND COLDER EXCEEDS STRUCTURAL LIMIT
THRUST LIMITED WEIGHT FOR ISA + 15 THRUST LIMITED WEIGHT FOR ISA + 20
EXCEEDS STRUCTURAL LIMITEXCEEDS STRUCTURAL LIMIT
ADJUSTMENTS FOR OPERATION AT NONSTANDARD TEMPERATURES INCREASE FUEL REQUIRED BY
DECREASE FUEL REQUIRED BY 0.6 PERCENT PER 10 DEGREES C ABOVE ISA
0.6 PERCENT PER 10 DEGREES C BELOW ISA INCREASE TAS BY 1 KNOT PER DEGREE C ABOVE ISA
DECREASE TAS BY 1 KNOT PER DEGREE C BELOW ISA
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0339579 C CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
Figure 4.5.3.2 Mach 0.74 Cruise
All Engines Maximum Cruise Thrust Limits A/C Auto PRESSURE ALTITUDE 25000Ft TAS 445 Kts
NOTE OPTIMUM WEIGHT FOR PRESSURE ALTITUDE EXCEEDS STRUCTURAL LIMIT HRUST LIMITED WEIGHT FOR ISA + 10 AND COLDER EXCEEDS STRUCTURAL LIMIT
THRUST LIMITED WEIGHT FOR ISA + 15 THRUST LIMITED WEIGHT FOR ISA + 20
EXCEEDS STRUCTURAL LIMITEXCEEDS STRUCTURAL LIMIT
ADJUSTMENTS FOR OPERATION AT NONSTANDARD TEMPERATURES INCREASE FUEL REQUIRED BY
DECREASE FUEL REQUIRED BY 0.6 PERCENT PER 10 DEGREES C ABOVE ISA
0.6 PERCENT PER 10 DEGREES C BELOW ISA INCREASE TAS BY 1 KNOT PER DEGREE C ABOVE ISA
DECREASE TAS BY 1 KNOT PER DEGREE C BELOW ISA
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DATA SHEET MRJT 1
Figure 4.5.3.2 Mach 0.74 CruiseAll Engines Maximum Cruise Thrust Limits A/C Auto
PRESSURE ALTITUDE 34000 Ft TAS 428 Kts
NOTE OPTIMUM WEIGHT FOR PRESSURE ALTITUDE IS 55500 KG THRUST LIMITED WEIGHT FOR ISA + 10 AND COLDER IS 67100 KG
THRUST LIMITED WEIGHT FOR ISA + 15THRUST LIMITED WEIGHT FOR ISA + 20
IS 65700 KGIS 64000 KG
ADJUSTMENTS FOR OPERATION AT NONSTANDARD TEMPERATURES
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INCREASE FUEL REQUIRED BYDECREASE FUEL REQUIRED BY
0.6 PERCENT PER 10 DEGREES C ABOVE ISA0.6 PERCENT PER 10 DEGREES C BELOW ISA
INCREASE TAS BY 1 KNOT PER DEGREE C ABOVE ISA DECREASE TAS BY 1 KNOT PER DEGREE C BELOW ISA
0339691 A
CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
Figure 4.5.3.1 Long Range CruiseAll Engines Maximum Cruise Thrust Limits A/C Auto
PRESSURE ALTITUDE 33000 Ft.
NOTE OPTIMUM WEIGHT FOR PRESSURE ALTITUDE IS 58200 KGTHRUST LIMITED WEIGHT FOR ISA + 10 AND COLDER EXCEEDS STRUCTURAL LIMIT
THRUST LIMITED WEIGHT FOR ISA + 15 THRUST LIMITED WEIGHT FOR ISA + 20
EXCEEDS STREXCEEDS STRUCTURAL LIMITIS66400 KG
ADJUSTMENTS FOR OPERATION AT NONSTANDARD TEMPERATURES
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INCREASE FUEL REQUIRED BYDECREASE FUEL REQUIRED BY
0.6 PERCENT PER 10 DEGREES C ABOVE ISA0.6 PERCENT PER 10 DEGREES C BELOW ISA
INCREASE TAS BY 1 KNOT PER DEGREE C ABOVE ISADECREASE TAS BY 1 KNOT PER DEGREE C BELOW ISA
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DATA SHEET MRJT 1
Figure 4.3.1B SIMPLIFIED FLIGHT PLANNING
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CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
Figure 4.5.3.1 Long Range CruiseAll Engines Maximum Cruise Thrust Limits A/C Auto
PRESSURE ALTITUDE 33000 Ft.
NOTE OPTIMUM WEIGHT FOR PRESSURE ALTITUDE IS 58200 KGTHRUST LIMITED WEIGHT FOR ISA + 10 AND COLDER EXCEEDS STRUCTURAL LIMIT
THRUST LIMITED WEIGHT FOR ISA + 15 THRUST LIMITED WEIGHT FOR ISA + 20
EXCEEDS STREXCEEDS STRUCTURAL LIMITIS66400 KG
ADJUSTMENTS FOR OPERATION AT NONSTANDARD TEMPERATURES
INCREASE FUEL REQUIRED BYDECREASE FUEL REQUIRED BY
0.6 PERCENT PER 10 DEGREES C ABOVE ISA0.6 PERCENT PER 10 DEGREES C BELOW ISA
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INCREASE TAS BY 1 KNOT PER DEGREE C ABOVE ISADECREASE TAS BY 1 KNOT PER DEGREE C BELOW ISA
0339695 A CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
Figure 4.3.3C SIMPLIFIED FLIGHT PLANNING
0.78 MACH CRUISE
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0339696 ACIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
3.3 Alternate Planning (Fig. 4.3.6)The fuel and time figures extracted from this chart include the following:
Ÿ Missed approach
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Ÿ Climb to cruise altitude
Ÿ Cruise at LRC
Ÿ Descent and straight on approach.Method of use is similar to previous graphs.For distances greater than 500 NM use the LRC Simplified Flight Planning Charts.
Figure 4.3.6 SIMPLIFIED FLIGHT PLANNING ALTERNATE PLANNING LONG RANGE CRUISE
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DATA SHEET MRJT 1
4. HOLDING FUEL PLANNING
The table below provides fuel flow Information necessary for planning holding reserve fuel requirements.Chart is based on racetrack pattern at minimum drag airspeed minimum speed 210KIAS.For holding in straight and level reduce table values by 5%
Figure 4.4FLAPS UP
Fuel flow is based on a racetrack pattern.For holding in straight and level flight reduce fuel values by 5%
5. DETAILED FUEL PLANNING 5.1 Enroute Climb (Figures 4.5.1)Tables are provided for a range of temperature deviations from ISA 15°C to ISA +25°CFuel and time given in these tables are from brake release and distance from 1500 ft. with a climb airspeed schedule 280 KIAS/0.74 Mach. The stated TAS is the average for the climb and should be used to correct the still air distance shown.
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DATA SHEET MRJT 1
4. HOLDING FUEL PLANNING
The table below provides fuel flow Information necessary for planning holding reserve fuel requirements.Chart is based on racetrack pattern at minimum drag airspeed minimum speed 210KIAS.For holding in straight and level reduce table values by 5%
Figure 4.4FLAPS UP
Fuel flow is based on a racetrack pattern.For holding in straight and level flight reduce fuel values by 5%
5. DETAILED FUEL PLANNING 5.1 Enroute Climb (Figures 4.5.1)Tables are provided for a range of temperature deviations from ISA 15°C to ISA +25°CFuel and time given in these tables are from brake release and distance from 1500 ft. with a climb airspeed schedule 280 KIAS/0.74 Mach. The stated TAS is the average for the climb and should be used to correct the still air distance shown.
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DATA SHEET MRJT 1
4. HOLDING FUEL PLANNING
The table below provides fuel flow Information necessary for planning holding reserve fuel requirements.Chart is based on racetrack pattern at minimum drag airspeed minimum speed 210KIAS.For holding in straight and level reduce table values by 5%
Figure 4.4FLAPS UP
Fuel flow is based on a racetrack pattern.For holding in straight and level flight reduce fuel values by 5%
5. DETAILED FUEL PLANNING 5.1 Enroute Climb (Figures 4.5.1)Tables are provided for a range of temperature deviations from ISA 15°C to ISA +25°CFuel and time given in these tables are from brake release and distance from 1500 ft. with a climb airspeed schedule 280 KIAS/0.74 Mach. The stated TAS is the average for the climb and should be used to correct the still air distance shown.
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DATA SHEET MRJT 1
Figure 4.5.1 EN – ROUTE CLIMB 280/.74 ISA 6° C TO 15° C
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DATA SHEET MRJT 1
Figure 4.5.1 EN – ROUTE CLIMB 280/.74 ISA 6° C TO 15° C
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DATA SHEET MRJT 1
Figure 4.5.1 EN – ROUTE CLIMB 280/.74 ISA 6° C TO 15° C
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DATA SHEET MRJT 1
5.4 DescentThese tables (Fig. 4.5.4) provide tabulations of time, fuel and distance for "flight idle" thrust at 0.74 mach/250 KIAS (economy) and 0.70 Mach/280 KIAS (turbulence penetration)Allowances are made for a straight in approach with gear down. Figure 4.5.4 Descent .74M/250 KIAS
.70M/280/250 KIAS
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BASED ON IDLE THRUST. ALLOWANCES FOR A STRAIGHT-IN APPROACH ARE INCLUDED.
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0339705 A CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
5.4 DescentThese tables (Fig. 4.5.4) provide tabulations of time, fuel and distance for "flight idle" thrust at 0.74 mach/250 KIAS (economy) and 0.70 Mach/280 KIAS (turbulence penetration)Allowances are made for a straight in approach with gear down. Figure 4.5.4 Descent.74M/250 KIAS
.70M/280/250 KIAS
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BASED ON IDLE THRUST.ALLOWANCES FOR A STRAIGHTIN APPROACH ARE INCLUDED.
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DATA SHEET MRJT 1
5.4 DescentThese tables (Fig. 4.5.4) provide tabulations of time, fuel and distance for "flight idle" thrust at 0.74 mach/250 KIAS (economy) and 0.70 Mach/280 KIAS (turbulence penetration)Allowances are made for a straight in approach with gear down. Figure 4.5.4 Descent.74M/250 KIAS
.70M/280/250 KIAS
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BASED ON IDLE THRUST. ALLOWANCES FOR A STRAIGHTIN APPROACH ARE INCLUDED.
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0339707 B
NOT FOR NAVIGATIONALPURPOSES!
COPYRIGHT !JEPPESEN GMBH EDITION NOVEMBER ' 99
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DATA SHEET MRJT 1
Figure 4.5.3.2 Mach 0.74 CruiseAll Engines Maximum Cruise Thrust Limits A/C Auto
PRESSURE ALTITUDE 28000Ft TAS 440 Kts
NOTE OPTIMUM WEIGHT FOR PRESSURE ALTITUDE EXCEEDS STRUCTURAL LIMITTHRUST LIMITED WEIGHT FOR ISA + 10 AND COLDER EXCEEDS STRUCTURAL LIMIT
THRUST LIMITED WEIGHT FOR ISA + 15 THRUST LIMITED WEIGHT FOR ISA + 20
EXCEEDS STRUCTURAL LIMITEXCEEDS STRUCTURAL LIMIT
ADJUSTMENTS FOR OPERATION AT NONSTANDARD TEMPERATURES INCREASE FUEL REQUIRED BY
DECREASE FUEL REQUIRED BY 0.6 PERCENT PER 10 DEGREES C ABOVE ISA
0.6 PERCENT PER 10 DEGREES C BELOW ISA INCREASE TAS BY 1 KNOT PER DEGREE C ABOVE ISA
DECREASE TAS BY 1 KNOT PER DEGREE C BELOW ISA
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0339709 A
NOT FOR NAVIGATIONALPURPOSES!
COPYRIGHT 1999 JEPPESEN GMBHEDITION NOVEMBER '99
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0339710 B NOT FOR NAVIGATIONALPURPOSES!
COPYRIGHT 1999 JEPPESEN GMBHEDITION NOVEMBER '99
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0339710 C NOT FOR NAVIGATIONALPURPOSES!
COPYRIGHT 1999 JEPPESEN GMBHEDITION NOVEMBER '99
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0339712 A NOT FOR NAVIGATIONALPURPOSES!
COPYRIGHT 1999 JEPPESEN GMBHEDITION NOVEMBER '99
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0339712 B
NOT FOR NAVIGATIONALPURPOSES!
COPYRIGHT 1999 JEPPESEN GMBHEDITION NOVEMBER '99
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DATA SHEET SEP 1
FIGURE 2.1 TIME FUEL AND DISTANCE TO CLIMB
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DATA SHEET SEP 1
4. RANGE PROFILEThe graph at Figure 2.4 (page 9) provides a simple and rapid means of determining the still air range (nautical air miles) for the sample aeroplane. An example of the use of the graph is shown.Note that the figures make allowance for the taxi, runup and 45 minutes reserve fuel.
Figure 2. 4 RANGE
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CIVIL AVIATION AUTHORITYFLIGHT PLANNING & MONITORING
DATA SHEET SEP 1
Figure 2.2 RECOMMENDED CRUISE POWER SETTINGSTABLE 2.2.2
20° C LEAN 25.0 IN. HG (OR FULL THROTTLE) @ 2100 RPM
Of Peak EGT CRUISE LEAN MIXTURE 3400 Ibs.
Press. Alt.
IOATMan.
Press.Fuel Flow
Air Speed
Feet °C °F IN. HG PPH GPH KIAS KTAS
ISA 20° C(ISA 36° F)
0 2000 4000 6000 8000
10,000 12,000 14,000 16.000
3 7
11 15 19 23 27 31 35
26 19 12 5
2 9
17 24 32
25.0 25.0 25.0 24.3 22.5 20.8 19.3 17.9 16.5
63.8 66.4 68.9 68.3 63.9 60.1 56.7 54.5 52.2
10.6 11.1 11.5 11.4 10.7 10.0
9.5 9.1 8.7
148 149 149 147 139 132 123 113 95
140 145 150 152 148 144 139 132 114
Standard Day (ISA)
0 2000 4000 6000 8000
10,000 12,000 14,000 16.000
17 13 9 5 1
3 7
11
62 55 48 41 34 27 19 12
25.0 25.0 25.0 24.3 22.5 20.8 19.3 17.9
61.9 64.2 66.6 66.1 61.9 58.5 55.6 53.5
10.3 11.7 11.1 11.0 10.3 9.8 9.3 8.9
143 143 144 141 134 126 116 103
140145150152148 143136125
ISA + 20° C(ISA + 36° F)
0 2000 4000 6000 8000
10,000 12,000 14,000 16.000
37 33 29 25 21 17 13
98 91 84 77 70 63 55
25.0 25.0 25.0 24.3 22.5 20.8 19.3
60.1 62.1 64.4 63.9 60.2 56.8 54.5
10.0 10.4 10.7 10.7 10.0 9.5 9.1
138 138 139 136 128 119 108
140 145 150 151 147 141 131
NOTES: 1. Full throttle manifold pressure settings are approximate.
2. Shaded area represents operation with full throttle.
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3. Fuel flows are to be used for flight planning only and will vary from aeroplane to aeroplane. Lean using the EGT.
0339733 A CIVIL AVIATION AUTHORITYFLIGHT PLANNING & MONITORING
DATA SHEET SEP 1
Figure 2.2 RECOMMENDED CRUISE POWER SETTINGS
TABLE 2.2.3
20° C LEAN 23.0 IN. HG (OR FULL THROTTLE) @ 2300 RPM
Of Peak EGT CRUISE LEAN MIXTURE 3400 Ibs.
Press. Alt.
IOATMan.
Press.Fuel Flow
Air Speed
Feet °C °F IN. HG PPH GPH KIAS KTAS
ISA 20° C(ISA 36° F)
0 2000 4000 6000 8000
10,000 12,000 14,000 16.000
37
11151823173135
26 20 13 6
1 9
16 23 31
23.0 23.0 23.0 23.0 22.4 20.719.2 17.8 16.4
67.6 69.7 72.1 74.4 73.868.463.860.056.3
11.3 11.6 12.0 12.4 12.3 11.4 10.610.0
9.4
152152153153150143135127117
144149154158160 157153148141
Standard Day (ISA)
0 2000 4000 6000 8000
10,000 12,000 14,000 16.000
1713952
37
1115
62 56 49 42 35 27 20 13
5
23.0 23.0 23.023.022.420.719.217.816.4
65.4 67.469.471.771.166.261.858.555.3
10.9 11.211.612.011.911.010.39.89.2
147 147 148 148 145 137 129 120 109
145 149 154 159 160 157 152 146 137
ISA + 20° C(ISA + 36° F)
0 2000 4000 6000 8000
10,000 12,000 14,000 16.000
37 33 29 25 22 17 13
9
98 92 85 78 71 63 56 48
23.023.0 23.0 23.0 22.4 20.7 19.2 17.8
63.265.1 67.1 69.0 68.5 64.0 60.0 57.1
10.510.9 11.2 11.5 11.4 10.7 10.09.5
142 143 143 142 140 132 123 113
145 149 154 158 160 156 151 142
NOTES: 1. Full throttle manifold pressure settings are approximate.2. Shaded area represents Operation with full throttle.
3. Fuel flows are to be used for flight planning only and will vary from aeroplane to
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03311042 A
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0311043 A
NOT FOR NAVIGATIONALPURPOSES!
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03311045 A
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03311048 A NOT FOR NAVIGATIONALPURPOSES!
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03311049 A NOT FOR NAVIGATIONALPURPOSES!
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03311058 A NOT FOR NAVIGATIONALPURPOSES!
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03311059 A NOT FOR NAVIGATIONALPURPOSES!COPYRIGHT 1999 JEPPESEN GMBHEDITION NOVEMBER '99
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03311060 A NOT FOR NAVIGATIONALPURPOSES!COPYRIGHT 1999 JEPPESEN GMBHEDITION NOVEMBER '99
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03311061 A (pag. 1) NOT FOR NAVIGATIONALPURPOSES!
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03311062 A NOT FOR NAVIGATIONALPURPOSES!
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03311063 A NOT FOR NAVIGATIONALPURPOSES!
COPYRIGHT 1999 JEPPESEN GMBH
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03311066 A NOT FOR NAVIGATIONALPURPOSES!
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03311067 A NOT FOR NAVIGATIONALPURPOSES!
COPYRIGHT 1999 JEPPESEN GMBHEDITION NOVEMBER '99
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03311073 D
DATA SHEET LRJT 1
FLIGHT PLANNING QUICK DERTERMINATION OF FPLN SEQ A
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03311074 AJAR FCL FLIGHT PLANNING
QUICK DETERMINATION OF FLIGHT PLAN
INTRODUCTION
The following flight planning tables allow the planner to determine trip fuel consumption and trip time required to cover a given air distance. These tables are established for: Takeoff Climb profile : 250kt/300kt/M.80 Cruise mach number: M.80, M.82, M.84, LR Descent profile: Cruise Mach number/300kt/250kt Approach and landing : 240 kg 6 minute IFR ISA CG = 37 % Normal air conditioning Anti ice OFFNote:
1. In the tables, the asterisk (*} means that a step climb of 4000 feet must be flown to reach the corresponding FL.
2. To obtain a flight plan at optimum cruise level, the highest flight level desired within the flight has to be selected in the table.
3. For each degree Celsius above ISA temperature apply fuel correction 0.010 (kg/°C/NM) x ISA(°C) x Air Distance (NM).
CORRECTION FOR DEVIATION FROM REFERENCE LANDING WEIGHT
The fuel consumption must be corrected when the actual landing weight is different from the reference landing weightIf it is lover (or greater) man the reference landing weight subtract (or add) the value given in the correction part of the table per 1000 kg below (or above) the reference landing weight.
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03311074 B DATA SHEET LRJT 1
FLIGHT PLANNING GROUND DISTANCE/AIR DISTANCE
SEQ A
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03311074 C DATA SHEET LRJT 1
FLIGHT PLANNING QUICK DERTERMINATION OF FPLN SEQ A
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03311074 D
DATA SHEET LRJT 1
FLIGHT PLANNING QUICK DERTERMINATION OF FPLN
SEQ A
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03311195 A
List of TAFsTAF EDDF ISSUED AT 042200 EDDF 0524 VRE03KT CAVOK BECMG 0609 20005KT 9999 SCT030 BKN045 =
TAF EDDK ISSUED AT 042200 EDDK 0624 14005KT 7000 NSC BECMG 0608 CAVOK TEMPO 1115 9999 SCT040 = TAF EDDL ISSUED AT 042200 EDDL 0624 16003KT 5000 NSC BECMG 0608 CAVOK = TAF EDDM TSSUED AT 042200 EDCM 0624 26005KT 9999 SCT035 =
TAF EDDN ISSUED AT 042200 EDDN 0624 26005KT 9999 SCT035 = TAF EDDH ISSUED AT 042200 EDOH 0624 21010KT CAVOK BECMG 0810 9999 SCT025 SCT040 PROB30 TEMPO 1218 7000 RADZ BKN012 BECMG 1620 7000 BKN020 TEMPO 1824 4000 RADZ BKN005 =
TAF EDDS ISSUED AT 042200 EDDS 0624 26005KT 9999 SCT035 =
TAF EGLL ISSUED AT 042200 EGLL 0624 17005KT 5000 SCT040 PROB30 TEMPO 0607 1500 BR BECMG 0811 23010KT 9999 BECMG 1619 BRNO15 =
TAF EHAM ISSUED AT 042200 EHAM 0624 VRB03KT CAVOK BECMG 0710 21009KT SCT025 BKN080 PROB30 TEMPO 1218 7000 BR RA SCT012 SCT035 BECMG 1215 27012KT BECMG 2023 6000 BR SCT008 =
TAF EHBK ISSUED AT 040400 EHBK 1206 28011KT 7000 BR SCT012 SCT040 BECMG 1215 CAVOK
JAA Appendices, Subject: 010 Page Edition:122002 145
BECMG 1720 VRB03KT BECMG 0104 20006KT 7000 BR SCT008 BKN012 =
JAA Appendices, Subject: 010 Page Edition:122002 146
03311196 A
List of TAFsTAF EDDF ISSUED AT 042200EDDF 0524 VRE03KT CAVOKBECMG 0609 20005KT 9999 SCT030 BKN045 =
TAF EDDK ISSUED AT 042200 EDDK 0624 14005KT 7000 NSC BECMG 0608 CAVOK TEMPO 1115 9999 SCT040 = TAF EDDL ISSUED AT 042200 EDDL 0624 16003KT 5000 NSC BECMG 0608 CAVOK = TAF EDDM TSSUED AT 042200EDCM 0624 26005KT 9999 SCT035 =
TAF EDDN ISSUED AT 042200EDDN 0624 26005KT 9999 SCT035 = TAF EDDH ISSUED AT 042200EDOH 0624 21010KT CAVOKBECMG 0810 9999 SCT025 SCT040PROB30 TEMPO 1218 7000 RADZ BKN012BECMG 1620 7000 BKN020TEMPO 1824 4000 RADZ BKN005 =
TAF EDDS ISSUED AT 042200EDDS 0624 26005KT 9999 SCT035 =
TAF EGLL ISSUED AT 042200 EGLL 0624 17005KT 5000 SCT040 PROB30 TEMPO 0607 1500 BR BECMG 0811 23010KT 9999 BECMG 1619 BRNO15 =
TAF EHAM ISSUED AT 042200EHAM 0624 VRB03KT CAVOKBECMG 0710 21009KT SCT025 BKN080PROB30 TEMPO 1218 7000 BR RA SCT012 SCT035BECMG 1215 27012KTBECMG 2023 6000 BR SCT008 =
TAF EHBK ISSUED AT 040400EHBK 1206 28011KT 7000 BR SCT012 SCT040BECMG 1215 CAVOKBECMG 1720 VRB03KT
JAA Appendices, Subject: 010 Page Edition:122002 147
BECMG 0104 20006KT 7000 BR SCT008 BKN012 =
03311198 A
List of TAFsTAF EDDF ISSUED AT 042200EDDF 0524 VRE03KT CAVOKBECMG 0609 20005KT 9999 SCT030 BKN045 =
TAF EDDK ISSUED AT 042200 EDDK 0624 14005KT 7000 NSC BECMG 0608 CAVOK TEMPO 1115 9999 SCT040 = TAF EDDL ISSUED AT 042200 EDDL 0624 16003KT 5000 NSC BECMG 0608 CAVOK = TAF EDDM TSSUED AT 042200EDCM 0624 26005KT 9999 SCT035 =
TAF EDDN ISSUED AT 042200EDDN 0624 26005KT 9999 SCT035 = TAF EDDH ISSUED AT 042200EDOH 0624 21010KT CAVOKBECMG 0810 9999 SCT025 SCT040PROB30 TEMPO 1218 7000 RADZ BKN012BECMG 1620 7000 BKN020TEMPO 1824 4000 RADZ BKN005 =
TAF EDDS ISSUED AT 042200EDDS 0624 26005KT 9999 SCT035 =
TAF EGLL ISSUED AT 042200 EGLL 0624 17005KT 5000 SCT040 PROB30 TEMPO 0607 1500 BR BECMG 0811 23010KT 9999 BECMG 1619 BRNO15 =
TAF EHAM ISSUED AT 042200EHAM 0624 VRB03KT CAVOKBECMG 0710 21009KT SCT025 BKN080PROB30 TEMPO 1218 7000 BR RA SCT012 SCT035BECMG 1215 27012KTBECMG 2023 6000 BR SCT008 =
JAA Appendices, Subject: 010 Page Edition:122002 148
TAF EHBK ISSUED AT 040400EHBK 1206 28011KT 7000 BR SCT012 SCT040BECMG 1215 CAVOKBECMG 1720 VRB03KTBECMG 0104 20006KT 7000 BR SCT008 BKN012 =
03311201 A
JAA Appendices, Subject: 010 Page Edition:122002 149
03311204 A
JAR FCL FLIGHT PLANNING QUICK DETERMINATION OF FLIGHT PLAN
INTRODUCTION
The following flight planning tables allow the planner to determine trip fuel consumption and trip time required to cover a given air distance. These tables are established for: Takeoff Climb profile : 250kt/300kt/M.80 Cruise mach number: M.80, M.82, M.84, LR Descent profile: Cruise Mach number/300kt/250kt Approach and landing : 240 kg 6 minute IFR ISA CG = 37 % Normal air conditioning Anti ice OFFNote:
1. In the tables, the asterisk (*} means that a step climb of 4000 feet must be flown to reach the corresponding FL.
2. To obtain a flight plan at optimum cruise level, the highest flight level desired within the flight has to be selected in the table.
3. For each degree Celsius above ISA temperature apply fuel correction 0.010 (kg/°C/NM) x ISA(°C) x Air Distance (NM).
CORRECTION FOR DEVIATION FROM REFERENCE LANDING WEIGHT
The fuel consumption must be corrected when the actual landing weight is different from the reference landing weightIf it is lover (or greater) man the reference landing weight subtract (or add) the value given in the correction part of the table per 1000 kg below (or above) the reference landing weight.
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03311204 B DATA SHEET LRJT 1
JAR FCL FLIGHT PLANNING GROUND DISTANCE/AIR DISTANCE
LONG RANGE CRUISE ABOVE FL250
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03311204 C
JAR FCL FLIGHT PLANNING GROUND DISTANCE/AIR DISTANCE
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03311207 A DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING FUEL TANKING
FUEL TANKING
GENERALFuel tanking graphs allow to determine the Optimum fuel quantity to be tanked as a function of the fuel price ratio between departure and destination airports. The following pages present for one flight level per page the Optimum aircraft takeoff weight depending on the fuel price ratio (departure fuel price divided by destination fuel price) and on the air distance to fly.The computed optimum takeoff weight is based on the additional fuel consumption needed for the transport of the extra (tanked) fuel and it is the weight at which the maximum profit can be achieved. The quantity of extra fuel that can be loaded is calculated as the difference between the Optimum takeoff weight (including extra fuel) and the planned takeoff weight {without fuel tanking). The graphs are established for: FL 290, 310, 330, 350, 370, 390 Air distances from 500 to 5000 NM Flight profile :Climb 250kt/300kt/M.80Cruise M.80Descent M.80/300kt/250ktNote:
1. ff necessary, step climbs are performed to reach the indicated flight levels.2. The crew/operator has to verify that the found aircraft weight complies with basic aircraft
limitations (e.g. max fuel capacity) as well as with mission dependent restrictions (e.g. MLW at destination).
EXAMPLES1. Fuel price ratio = 0.930 Cruising Altitude = FL310 Planned TOW = 200 000 kg (mission weight without fuel tanking) Air Distance = 2500 NM Enter graph For the given air distance, the optimum fuel tanking weight is 187 000 kg, which is lower than the planned takeoff weight d no fuel tanking recommended.2. fuel price ratio = 0.890Cruising Altitude = FL 350 Planned TOW = 190 000 kg (mission weight without fuel tanking) Air Distance = 3250 NM Enter graph For the given air distance, the optimum fuel tanking weight is 198 000 kg, which is 8 000 kg higher than the planned takeoff weight d optimum quantity of extra fuel is 8 000 kg.
JAA Appendices, Subject: 010 Page Edition:122002 154
Check : a) new TOW less or equal MTOW from departure airport. b) total fuel to be loaded less or equal maximum fuel capacity. c) MLW at destination
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03311207 B
DATA SHEET LRJT 1
JAR FCL FLIGHT PLANNING FUEL TANKING
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03311208 A
DATA SHEET LRJT 1
JAR FCL FLIGHT PLANNING FUEL TANKING
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03311209 A
DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING FUEL TANKING
FUEL TANKING
GENERALFuel tanking graphs allow to determine the Optimum fuel quantity to be tanked as a function of the fuel price ratio between departure and destination airports. The following pages present for one flight level per page the Optimum aircraft takeoff weight depending on the fuel price ratio (departure fuel price divided by destination fuel price) and on the air distance to fly.The computed optimum takeoff weight is based on the additional fuel consumption needed for the transport of the extra (tanked) fuel and it is the weight at which the maximum profit can be achieved. The quantity of extra fuel that can be loaded is calculated as the difference between the Optimum takeoff weight (including extra fuel) and the planned takeoff weight {without fuel tanking). The graphs are established for: FL 290, 310, 330, 350, 370, 390 Air distances from 500 to 5000 NM Flight profile :Climb 250kt/300kt/M.80Cruise M.80Descent M.80/300kt/250ktNote:
1. ff necessary, step climbs are performed to reach the indicated flight levels.2. The crew/operator has to verify that the found aircraft weight complies with basic aircraft
limitations (e.g. max fuel capacity) as well as with mission dependent restrictions (e.g. MLW at destination).
EXAMPLES1. Fuel price ratio = 0.930Cruising Altitude = FL310 Planned TOW = 200 000 kg (mission weight without fuel tanking) Air Distance = 2500 NM Enter graph For the given air distance, the optimum fuel tanking weight is 187 000 kg, which is lower than the planned take off weight d no fuel tanking recommended.2. fuel price ratio = 0.890Cruising Altitude = FL 350 Planned TOW = 190 000 kg (mission weight without fuel tanking) Air Distance = 3250 NM Enter graph For the given air distance, the optimum fuel tanking weight is 198 000 kg, which is 8 000 kg higher than
JAA Appendices, Subject: 010 Page Edition:122002 158
the planned takeoff weight optimum quantity of extra fuel is 8 000 kg. Check : a) new TOW less or equal MTOW from departure airport. b) total fuel to be loaded less or equal maximum fuel capacity. c) MLW at destination
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03311209 B DATA SHEET LRJT 1
JAR FCL FLIGHT PLANNING FUEL TANKING
JAA Appendices, Subject: 010 Page Edition:122002 160
03311210 A
DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING FUEL TANKING
FUEL TANKING
GENERALFuel tanking graphs allow to determine the Optimum fuel quantity to be tanked as a function of the fuel price ratio between departure and destination airports. The following pages present for one flight level per page the Optimum aircraft takeoff weight depending on the fuel price ratio (departure fuel price divided by destination fuel price) and on the air distance to fly.The computed optimum takeoff weight is based on the additional fuel consumption needed for the transport of the extra (tanked) fuel and it is the weight at which the maximum profit can be achieved. The quantity of extra fuel that can be loaded is calculated as the difference between the Optimum takeoff weight (including extra fuel) and the planned takeoff weight {without fuel tanking).
The graphs are established for: FL 290, 310, 330, 350, 370, 390 Air distances from 500 to 5000 NM Flight profile : Climb 250kt/300kt/M.80 Cruise M.80 Descent M.80/300kt/250ktNote: 1. ff necessary, step climbs are performed to reach the indicated flight levels. 2. The crew/operator has to verify that the found aircraft weight complies with basic aircraft limitations (e.g. max fuel capacity) as well as with mission dependent restrictions (e.g. MLW at destination).
EXAMPLES1. Fuel price ratio = 0.930Cruising Altitude = FL310Planned TOW = 200 000 kg (mission weight without fuel tanking) Air Distance = 2500 NM Enter graphFor the given air distance, the optimum fuel tanking weight is 187 000 kg, which is lower than the planned takeoff weight d no fuel tanking recommended.2. fuel price ratio = 0.890Cruising Altitude = FL 350Planned TOW = 190 000 kg (mission weight without fuel tanking) Air Distance = 3250 NM Enter graphFor the given air distance, the optimum fuel tanking weight is 198 000 kg, which is 8 000 kg higher than the planned takeoff weight d optimum quantity of extra fuel is 8 000 kg.
JAA Appendices, Subject: 010 Page Edition:122002 161
Check :a) new TOW less or equal MTOW from departure airport.b) total fuel to be loaded less or equal maximum fuel capacity.c) MLW at destination
03311210 B
DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING FUEL TANKING
JAA Appendices, Subject: 010 Page Edition:122002 162
03311211 A
JAR FCL FLIGHT PLANNING QUICK DETERMINATION OF FLIGHT PLAN
INTRODUCTION
The following flight planning tables allow the planner to determine trip fuel consumption and trip time required to cover a given air distance. These tables are established for: Takeoff Climb profile : 250kt/300kt/M.80 Cruise mach number: M.80, M.82, M.84, LR Descent profile: Cruise Mach number/300kt/250kt Approach and landing : 240 kg 6 minute IFR ISA CG = 37 % Normal air conditioning Anti ice OFFNote:
1. In the tables, the asterisk (*} means that a step climb of 4000 feet must be flown to reach the corresponding FL.
2. To obtain a flight plan at optimum cruise level, the highest flight level desired within the flight has to be selected in the table.
3. For each degree Celsius above ISA temperature apply fuel correction 0.010 (kg/°C/NM) x ∆ISA(°C) x Air Distance (NM).
CORRECTION FOR DEVIATION FROM REFERENCE LANDING WEIGHT
The fuel consumption must be corrected when the actual landing weight is different from the reference landing weightIf it is lover (or greater) man the reference landing weight subtract (or add) the value given in the correction part of the table per 1000 kg below (or above) the reference landing weight.
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03311211 B DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING QUICK DERTERMINATION OF FPLN
JAA Appendices, Subject: 010 Page Edition:122002 165
03311212 A
JAR FCL FLIGHT PLANNING QUICK DETERMINATION OF FLIGHT PLAN
INTRODUCTION
The following flight planning tables allow the planner to determine trip fuel consumption and trip time required to cover a given air distance. These tables are established for: Takeoff Climb profile : 250kt/300kt/M.80 Cruise mach number: M.80, M.82, M.84, LR Descent profile: Cruise Mach number/300kt/250kt Approach and landing : 240 kg 6 minute IFR ISA CG = 37 % Normal air conditioning Anti ice OFFNote:
1. In the tables, the asterisk (*} means that a step climb of 4000 feet must be flown to reach the corresponding FL.
2. To obtain a flight plan at optimum cruise level, the highest flight level desired within the flight has to be selected in the table.
3. For each degree Celsius above ISA temperature apply fuel correction 0.010 (kg/°C/NM) x ∆ISA(°C) x Air Distance (NM).
CORRECTION FOR DEVIATION FROM REFERENCE LANDING WEIGHT
The fuel consumption must be corrected when the actual landing weight is different from the reference landing weightIf it is lover (or greater) man the reference landing weight subtract (or add) the value given in the correction part of the table per 1000 kg below (or above) the reference landing weight.
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03311212 B
JAR FCL FLIGHT PLANNING QUICK DERTERMINATION OF FPLN
JAA Appendices, Subject: 010 Page Edition:122002 167
03311213 A
JAR FCL FLIGHT PLANNING QUICK DETERMINATION OF FLIGHT PLAN
INTRODUCTION
The following flight planning tables allow the planner to determine trip fuel consumption and trip time required to cover a given air distance. These tables are established for: Takeoff Climb profile : 250kt/300kt/M.80 Cruise mach number: M.80, M.82, M.84, LR Descent profile: Cruise Mach number/300kt/250kt Approach and landing : 240 kg 6 minute IFR ISA CG = 37 % Normal air conditioning Anti ice OFFNote:
1. In the tables, the asterisk (*} means that a step climb of 4000 feet must be flown to reach the corresponding FL.
2. To obtain a flight plan at optimum cruise level, the highest flight level desired within the flight has to be selected in the table.
3. For each degree Celsius above ISA temperature apply fuel correction 0.010 (kg/°C/NM) x ∆ISA(°C) x Air Distance (NM).
CORRECTION FOR DEVIATION FROM REFERENCE LANDING WEIGHT
The fuel consumption must be corrected when the actual landing weight is different from the reference landing weightIf it is lover (or greater) man the reference landing weight subtract (or add) the value given in the correction part of the table per 1000 kg below (or above) the reference landing weight.
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03311213 B
JAR FCL FLIGHT PLANNING QUICK DERTERMINATION OF FPLN
JAA Appendices, Subject: 010 Page Edition:122002 169
03311214 A
JAR FCL FLIGHT PLANNING QUICK DETERMINATION OF FLIGHT PLAN
INTRODUCTION
The following flight planning tables allow the planner to determine trip fuel consumption and trip time required to cover a given air distance. These tables are established for: Takeoff Climb profile : 250kt/300kt/M.80 Cruise mach number: M.80, M.82, M.84, LR Descent profile: Cruise Mach number/300kt/250kt Approach and landing : 240 kg 6 minute IFR ISA CG = 37 % Normal air conditioning Anti ice OFFNote:
4. In the tables, the asterisk (*} means that a step climb of 4000 feet must be flown to reach the corresponding FL.
5. To obtain a flight plan at optimum cruise level, the highest flight level desired within the flight has to be selected in the table.
6. For each degree Celsius above ISA temperature apply fuel correction 0.010 (kg/°C/NM) x ∆ISA(°C) x Air Distance (NM).
CORRECTION FOR DEVIATION FROM REFERENCE LANDING WEIGHT
The fuel consumption must be corrected when the actual landing weight is different from the reference landing weightIf it is lover (or greater) man the reference landing weight subtract (or add) the value given in the correction part of the table per 1000 kg below (or above) the reference landing weight.
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03311214 B
JAR FCL FLIGHT PLANNING QUICK DERTERMINATION OF FPLN
JAA Appendices, Subject: 010 Page Edition:122002 171
0 3311215 A DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING INTEGRATED CRUISE
JAA Appendices, Subject: 010 Page Edition:122002 172
03311216 A DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING INTEGRATED CRUISE
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03311223 A DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING INTEGRATED CRUISE
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03311223 B DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING INTEGRATED CRUISE
CLIMB CORRECTION
The planner must correct the values for the fuel and the time obtained from the integrated cruise tables with the numbers given in the following tables. The tables which are established for M.80, M.82, M.84 and long range speed take into account climbing from the brake release point at 250KT/300KT/M.80.
LONG RANGE SPEED
CLIMB TO OPTIMUM FL
STEP CLIMB CORRECTION
When the flight includes one or more step climbs (2000 feet below FL290, 4000 feet above), apply a correction of 160 kg per step climb to the fuel consumption.
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03311223 C DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING INTEGRATED CRUISE
DESCENT CORRECTION
Correct the fuel and the time values determined in the integrated cruise tables as follows to take into account the descent down to 1500 feet followed by 6 min IFR approach and landing.
LONG RANGE CRUISE
IRC, M.80, M.82. M.84 FROM OPTIMUM FL
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03311224 A DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING INTEGRATED CRUISE
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03311224 B DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING INTEGRATED CRUISE
CLIMB CORRECTION
The planner must correct the values for the fuel and the time obtained from the integrated cruise tables with the numbers given in the following tables. The tables which are established for M.80, M.82, M.84 and long range speed take into account climbing from the brake release point at 250KT/300KT/M.80. LONG RANGE SPEED
CLIMB TO OPTIMUM FL
STEP CLIMB CORRECTION
When the flight includes one or more step climbs (2000 feet below FL290, 4000 feet above), apply a correction of 160 kg per step climb to the fuel consumption.
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03311224 C
DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING INTEGRATED CRUISE
DESCENT CORRECTION
Correct the fuel and the time values determined in the integrated cruise tables äs follows to take into account the descent down to 1500 feet followed by 6 min IFR approach and landing.
LONG RANGE CRUISE
IRC, M.80, M.82. M.84 FROM OPTIMUM FL
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03311226 A DATA SHEET LRJT 1
JAR FCL FLIGHT PLACRUISE LEVEL
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03311226 B DATA SHEET LRJT 1
JAR FCL FLIGHT PLCRUISE LEVEL
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03311228 A DATA SHEET LRJT 1
JAR FCL FLIGHT PLANNING GROUND DISTANCE/AIR DISTANCE
LONG RANGE CRUISE ABOVE FL250
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03311229 A DATA SHEET LRJT 1
JAR FCL FLIGHT PLACRUISE LEVEL
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03311231 A
DATA SHEET LRJT 1
JAR FCL FLIGHT PLANNING GROUND DISTANCE/AIR DISTANCE
LONG RANGE CRUISE ABOVE FL250
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03311238 A DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING INTERGRATED CRUISE
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03311239 A DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING FUEL TANKING
FUEL TANKING
GENERALFuel tanking graphs allow to determine the Optimum fuel quantity to be tanked as a function of the fuel price ratio between departure and destination airports. The following pages present for one flight level per page the Optimum aircraft takeoff weight depending on the fuel price ratio (departure fuel price divided by destination fuel price) and on the air distance to fly.The computed optimum takeoff weight is based on the additional fuel consumption needed for the transport of the extra (tanked) fuel and it is the weight at which the maximum profit can be achieved. The quantity of extra fuel that can be loaded is calculated as the difference between the Optimum takeoff weight (including extra fuel) and the planned takeoff weight {without fuel tanking). The graphs are established for: FL 290, 310, 330, 350, 370, 390 Air distances from 500 to 5000 NM Flight profile :Climb 250kt/300kt/M.80Cruise M.80Descent M.80/300kt/250ktNote:
1. ff necessary, step climbs are performed to reach the indicated flight levels.2. The crew/operator has to verify that the found aircraft weight complies with basic aircraft
limitations (e.g. max fuel capacity) as well as with mission dependent restrictions (e.g. MLW at destination).
EXAMPLES1. Fuel price ratio = 0.930Cruising Altitude = FL310 Planned TOW = 200 000 kg (mission weight without fuel tanking) Air Distance = 2500 NM Enter graph For the given air distance, the optimum fuel tanking weight is 187 000 kg, which is lower than the planned takeoff weight d no fuel tanking recommended.2. fuel price ratio = 0.890Cruising Altitude = FL 350 Planned TOW = 190 000 kg (mission weight without fuel tanking) Air Distance = 3250 NM Enter graph For the given air distance, the optimum fuel tanking weight is 198 000 kg, which is 8 000 kg higher than the planned takeoff weight d optimum quantity of extra fuel is 8 000 kg. Check :
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a) new TOW less or equal MTOW from departure airport. b) total fuel to be loaded less or equal maximum fuel capacity. c) MLW at destination
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03311239 B DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING FUEL TANKING
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03311240 A DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING FUEL TANKING
FUEL TANKING
GENERALFuel tanking graphs allow to determine the Optimum fuel quantity to be tanked as a function of the fuel price ratio between departure and destination airports. The following pages present for one flight level per page the Optimum aircraft takeoff weight depending on the fuel price ratio (departure fuel price divided by destination fuel price) and on the air distance to fly.The computed optimum takeoff weight is based on the additional fuel consumption needed for the transport of the extra (tanked) fuel and it is the weight at which the maximum profit can be achieved. The quantity of extra fuel that can be loaded is calculated as the difference between the Optimum takeoff weight (including extra fuel) and the planned takeoff weight {without fuel tanking). The graphs are established for: FL 290, 310, 330, 350, 370, 390 Air distances from 500 to 5000 NM Flight profile :Climb 250kt/300kt/M.80Cruise M.80Descent M.80/300kt/250ktNote:
3. ff necessary, step climbs are performed to reach the indicated flight levels.4. The crew/operator has to verify that the found aircraft weight complies with basic aircraft
limitations (e.g. max fuel capacity) as well as with mission dependent restrictions (e.g. MLW at destination).
EXAMPLES1. Fuel price ratio = 0.930Cruising Altitude = FL310 Planned TOW = 200 000 kg (mission weight without fuel tanking) Air Distance = 2500 NM Enter graph For the given air distance, the optimum fuel tanking weight is 187 000 kg, which is lower than the planned takeoff weight d no fuel tanking recommended.2. fuel price ratio = 0.890Cruising Altitude = FL 350 Planned TOW = 190 000 kg (mission weight without fuel tanking) Air Distance = 3250 NM Enter graph For the given air distance, the optimum fuel tanking weight is 198 000 kg, which is 8 000 kg higher than the planned takeoff weight d optimum quantity of extra fuel is 8 000 kg. Check :
JAA Appendices, Subject: 010 Page Edition:122002 194
a) new TOW less or equal MTOW from departure airport. b) total fuel to be loaded less or equal maximum fuel capacity. c) MLW at destination
03311240 B DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING FUEL TANKING
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03311241 A DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING INTERGRATED CRUISE
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03311243 A DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING FUEL TANKING
FUEL TANKING
GENERALFuel tanking graphs allow to determine the Optimum fuel quantity to be tanked as a function of the fuel price ratio between departure and destination airports. The following pages present for one flight level per page the Optimum aircraft takeoff weight depending on the fuel price ratio (departure fuel price divided by destination fuel price) and on the air distance to fly.The computed optimum takeoff weight is based on the additional fuel consumption needed for the transport of the extra (tanked) fuel and it is the weight at which the maximum profit can be achieved. The quantity of extra fuel that can be loaded is calculated as the difference between the Optimum takeoff weight (including extra fuel) and the planned takeoff weight {without fuel tanking). The graphs are established for: FL 290, 310, 330, 350, 370, 390 Air distances from 500 to 5000 NM Flight profile :Climb 250kt/300kt/M.80Cruise M.80Descent M.80/300kt/250ktNote:
5. ff necessary, step climbs are performed to reach the indicated flight levels.6. The crew/operator has to verify that the found aircraft weight complies with basic aircraft
limitations (e.g. max fuel capacity) as well as with mission dependent restrictions (e.g. MLW at destination).
EXAMPLES1. Fuel price ratio = 0.930Cruising Altitude = FL310 Planned TOW = 200 000 kg (mission weight without fuel tanking) Air Distance = 2500 NM Enter graph For the given air distance, the optimum fuel tanking weight is 187 000 kg, which is lower than the planned takeoff weight d no fuel tanking recommended.2. fuel price ratio = 0.890Cruising Altitude = FL 350 Planned TOW = 190 000 kg (mission weight without fuel tanking) Air Distance = 3250 NM Enter graph For the given air distance, the optimum fuel tanking weight is 198 000 kg, which is 8 000 kg higher than the planned takeoff weight d optimum quantity of extra fuel is 8 000 kg. Check :
JAA Appendices, Subject: 010 Page Edition:122002 197
a) new TOW less or equal MTOW from departure airport. b) total fuel to be loaded less or equal maximum fuel capacity. c) MLW at destination
03311243 B DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING FUEL TANKING
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03311244 A DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING FUEL TANKING
FUEL TANKING
GENERALFuel tanking graphs allow to determine the Optimum fuel quantity to be tanked as a function of the fuel price ratio between departure and destination airports. The following pages present for one flight level per page the Optimum aircraft takeoff weight depending on the fuel price ratio (departure fuel price divided by destination fuel price) and on the air distance to fly.The computed optimum takeoff weight is based on the additional fuel consumption needed for the transport of the extra (tanked) fuel and it is the weight at which the maximum profit can be achieved. The quantity of extra fuel that can be loaded is calculated as the difference between the Optimum takeoff weight (including extra fuel) and the planned takeoff weight {without fuel tanking). The graphs are established for: FL 290, 310, 330, 350, 370, 390 Air distances from 500 to 5000 NM Flight profile :Climb 250kt/300kt/M.80Cruise M.80Descent M.80/300kt/250ktNote:
7. ff necessary, step climbs are performed to reach the indicated flight levels.8. The crew/operator has to verify that the found aircraft weight complies with basic aircraft
limitations (e.g. max fuel capacity) as well as with mission dependent restrictions (e.g. MLW at destination).
EXAMPLES1. Fuel price ratio = 0.930Cruising Altitude = FL310 Planned TOW = 200 000 kg (mission weight without fuel tanking) Air Distance = 2500 NM Enter graph For the given air distance, the optimum fuel tanking weight is 187 000 kg, which is lower than the planned takeoff weight d no fuel tanking recommended.2. fuel price ratio = 0.890Cruising Altitude = FL 350 Planned TOW = 190 000 kg (mission weight without fuel tanking) Air Distance = 3250 NM Enter graph For the given air distance, the optimum fuel tanking weight is 198 000 kg, which is 8 000 kg higher than the planned takeoff weight d optimum quantity of extra fuel is 8 000 kg. Check :
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a) new TOW less or equal MTOW from departure airport. b) total fuel to be loaded less or equal maximum fuel capacity. c) MLW at destination
03311244 B
DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING FUEL TANKING
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03311245 A DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING FUEL TANKING
FUEL TANKING
GENERALFuel tanking graphs allow to determine the Optimum fuel quantity to be tanked as a function of the fuel price ratio between departure and destination airports. The following pages present for one flight level per page the Optimum aircraft takeoff weight depending on the fuel price ratio (departure fuel price divided by destination fuel price) and on the air distance to fly.The computed optimum takeoff weight is based on the additional fuel consumption needed for the transport of the extra (tanked) fuel and it is the weight at which the maximum profit can be achieved. The quantity of extra fuel that can be loaded is calculated as the difference between the Optimum takeoff weight (including extra fuel) and the planned takeoff weight {without fuel tanking). The graphs are established for: FL 290, 310, 330, 350, 370, 390 Air distances from 500 to 5000 NM Flight profile :Climb 250kt/300kt/M.80Cruise M.80Descent M.80/300kt/250ktNote:
9. ff necessary, step climbs are performed to reach the indicated flight levels.10. The crew/operator has to verify that the found aircraft weight complies with basic aircraft
limitations (e.g. max fuel capacity) as well as with mission dependent restrictions (e.g. MLW at destination).
EXAMPLES1. Fuel price ratio = 0.930Cruising Altitude = FL310 Planned TOW = 200 000 kg (mission weight without fuel tanking) Air Distance = 2500 NM Enter graph For the given air distance, the optimum fuel tanking weight is 187 000 kg, which is lower than the planned takeoff weight d no fuel tanking recommended.2. fuel price ratio = 0.890Cruising Altitude = FL 350 Planned TOW = 190 000 kg (mission weight without fuel tanking) Air Distance = 3250 NM Enter graph For the given air distance, the optimum fuel tanking weight is 198 000 kg, which is 8 000 kg higher than the planned takeoff weight d optimum quantity of extra fuel is 8 000 kg. Check :
JAA Appendices, Subject: 010 Page Edition:122002 202
a) new TOW less or equal MTOW from departure airport. b) total fuel to be loaded less or equal maximum fuel capacity. c) MLW at destination
03311245 B
DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING FUEL TANKING
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03311252 A DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING INTERGRATED CRUISE
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03311252 B
DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING INTEGRATED CRUISE
CLIMB CORRECTION
The planner must correct the values for the fuel and the time obtained from the integrated cruise tables with the numbers given in the following tables. The tables which are established for M.80, M.82, M.84 and long range speed take into account climbing from the brake release point at 250KT/300KT/M.80.
LONG RANGE SPEED
CLIMB TO OPTIMUM FL
STEP CLIMB CORRECTION
When the flight includes one or more step climbs (2000 feet below FL290, 4000 feet above), apply a correction of 160 kg per step climb to the fuel consumption.
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03311252 C DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING INTEGRATED CRUISE
DESCENT CORRECTION
Correct the fuel and the time values determined in the integrated cruise tables äs follows to take into account the descent down to 1500 feet followed by 6 min IFR approach and landing.
LONG RANGE CRUISE
IRC, M.80, M.82. M.84 FROM OPTIMUM FL
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03311253 A DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING INTERGRATED CRUISE
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03311253 B DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING INTERGRATED CRUISE
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03311253 CDATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING INTEGRATED CRUISE
CLIMB CORRECTION
The planner must correct the values for the fuel and the time obtained from the integrated cruise tables with the numbers given in the following tables. The tables which are established for M.80, M.82, M.84 and long range speed take into account climbing from the brake release point at 250KT/300KT/M.80.
LONG RANGE SPEED
CLIMB TO OPTIMUM FL
STEP CLIMB CORRECTION
When the flight includes one or more step climbs (2000 feet below FL290, 4000 feet above), apply a correction of 160 kg per step climb to the fuel consumption.
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03311253 D DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING INTEGRATED CRUISE
DESCENT CORRECTION
Correct the fuel and the time values determined in the integrated cruise tables äs follows to take into account the descent down to 1500 feet followed by 6 min IFR approach and landing.
LONG RANGE CRUISE
IRC, M.80, M.82. M.84 FROM OPTIMUM FL
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03311254 A DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING INTERGRATED CRUISE
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03311254 B DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING INTERGRATED CRUISE
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03311254 C DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING INTEGRATED CRUISE
CLIMB CORRECTION
The planner must correct the values for the fuel and the time obtained from the integrated cruise tables with the numbers given in the following tables. The tables which are established for M.80, M.82, M.84 and long range speed take into account climbing from the brake release point at 250KT/300KT/M.80.
LONG RANGE SPEED
CLIMB TO OPTIMUM FL
STEP CLIMB CORRECTION
When the flight includes one or more step climbs (2000 feet below FL290, 4000 feet above), apply a
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correction of 160 kg per step climb to the fuel consumption.
03311254 D DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING INTEGRATED CRUISE
DESCENT CORRECTION
Correct the fuel and the time values determined in the integrated cruise tables äs follows to take into account the descent down to 1500 feet followed by 6 min IFR approach and landing.
LONG RANGE CRUISE
IRC, M.80, M.82. M.84 FROM OPTIMUM FL
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03311255 A
DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING INTERGRATED CRUISE
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03311255 B DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING INTEGRATED CRUISE
CLIMB CORRECTION
The planner must correct the values for the fuel and the time obtained from the integrated cruise tables with the numbers given in the following tables. The tables which are established for M.80, M.82, M.84 and long range speed take into account climbing from the brake release point at 250KT/300KT/M.80.
LONG RANGE SPEED
CLIMB TO OPTIMUM FL
STEP CLIMB CORRECTION
When the flight includes one or more step climbs (2000 feet below FL290, 4000 feet above), apply a
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correction of 160 kg per step climb to the fuel consumption.
03311255 C DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING INTEGRATED CRUISE
DESCENT CORRECTION
Correct the fuel and the time values determined in the integrated cruise tables as follows to take into account the descent down to 1500 feet followed by 6 min IFR approach and landing.
LONG RANGE CRUISE
IRC, M.80, M.82. M.84 FROM OPTIMUM FL
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03311259 A
DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING FUEL TANKING
FUEL TANKING
GENERALFuel tanking graphs allow to determine the Optimum fuel quantity to be tanked as a function of the fuel price ratio between departure and destination airports. The following pages present for one flight level per page the Optimum aircraft takeoff weight depending on the fuel price ratio (departure fuel price divided by destination fuel price) and on the air distance to fly.The computed optimum takeoff weight is based on the additional fuel consumption needed for the transport of the extra (tanked) fuel and it is the weight at which the maximum profit can be achieved. The quantity of extra fuel that can be loaded is calculated as the difference between the Optimum takeoff weight (including extra fuel) and the planned takeoff weight {without fuel tanking). The graphs are established for: FL 290, 310, 330, 350, 370, 390 Air distances from 500 to 5000 NM Flight profile :Climb 250kt/300kt/M.80Cruise M.80Descent M.80/300kt/250ktNote:
1. ff necessary, step climbs are performed to reach the indicated flight levels.2. The crew/operator has to verify that the found aircraft weight complies with basic aircraft
limitations (e.g. max fuel capacity) as well as with mission dependent restrictions (e.g. MLW at destination).
EXAMPLES1. Fuel price ratio = 0.930Cruising Altitude = FL310 Planned TOW = 200 000 kg (mission weight without fuel tanking) Air Distance = 2500 NM Enter graph For the given air distance, the optimum fuel tanking weight is 187 000 kg, which is lower than the planned takeoff weight d no fuel tanking recommended.2. fuel price ratio = 0.890Cruising Altitude = FL 350Planned TOW = 190 000 kg (mission weight without fuel tanking) Air Distance = 3250 NM Enter graphFor the given air distance, the optimum fuel tanking weight is 198 000 kg, which is 8 000 kg higher than the planned takeoff weight d optimum quantity of extra fuel is 8 000 kg.
JAA Appendices, Subject: 010 Page Edition:122002 220
Check :a) new TOW less or equal MTOW from departure airport.b) total fuel to be loaded less or equal maximum fuel capacity.c) MLW at destination
03311259 B DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING FUEL TANKING
JAA Appendices, Subject: 010 Page Edition:122002 221
03311260 A
DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING FUEL TANKING
FUEL TANKING
GENERALFuel tanking graphs allow to determine the Optimum fuel quantity to be tanked as a function of the fuel price ratio between departure and destination airports. The following pages present for one flight level per page the Optimum aircraft takeoff weight depending on the fuel price ratio (departure fuel price divided by destination fuel price) and on the air distance to fly.The computed optimum takeoff weight is based on the additional fuel consumption needed for the transport of the extra (tanked) fuel and it is the weight at which the maximum profit can be achieved. The quantity of extra fuel that can be loaded is calculated as the difference between the Optimum takeoff weight (including extra fuel) and the planned takeoff weight {without fuel tanking). The graphs are established for: FL 290, 310, 330, 350, 370, 390 Air distances from 500 to 5000 NM Flight profile :Climb 250kt/300kt/M.80Cruise M.80Descent M.80/300kt/250ktNote:
1. ff necessary, step climbs are performed to reach the indicated flight levels.2. The crew/operator has to verify that the found aircraft weight complies with basic aircraft
limitations (e.g. max fuel capacity) as well as with mission dependent restrictions (e.g. MLW at destination).
EXAMPLES1. Fuel price ratio = 0.930Cruising Altitude = FL310 Planned TOW = 200 000 kg (mission weight without fuel tanking) Air Distance = 2500 NM Enter graph For the given air distance, the optimum fuel tanking weight is 187 000 kg, which is lower than the planned takeoff weight d no fuel tanking recommended.2. fuel price ratio = 0.890Cruising Altitude = FL 350 Planned TOW = 190 000 kg (mission weight without fuel tanking) Air Distance = 3250 NM Enter graph For the given air distance, the optimum fuel tanking weight is 198 000 kg, which is 8 000 kg higher than the planned takeoff weight d optimum quantity of extra fuel is 8 000 kg.
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Check : a) new TOW less or equal MTOW from departure airport. b) total fuel to be loaded less or equal maximum fuel capacity. c) MLW at destination
03311260 B DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING FUEL TANKING
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03311261 A
JAR FCL FLIGHT PLANNING ICAO MODEL FLIGHT PLAN FORM
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03311262 A
JAR FCL FLIGHT PLANNING ICAO MODEL FLIGHT PLAN FORM
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03311270 A
DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING ICAO MODEL FLIGHT PLAN FORM
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03311271 A
DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING INTERGRATED CRUISE
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03311272 A DATA SHEETLRJT 1
JAR FCL FLIGHT PLANNING INTERGRATED CRUISE
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03312275 A
JAR FCL FLIGHT PLANNING ICAO MODEL FLIGHT PLAN FORM
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03312276 A
JAR FCL FLIGHT PLANNING ICAO MODEL FLIGHT PLAN FORM
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03312277 A
JAR FCL FLIGHT PLANNING ICAO MODEL FLIGHT PLAN FORM
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03312280 A
JAR FCL FLIGHT PLANNING ICAO MODEL FLIGHT PLAN FORM
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03312281 A
JAR FCL FLIGHT PLANNING ICAO MODEL FLIGHT PLAN FORM
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03312285 A
JAR FCL FLIGHT PLANNING ICAO MODEL FLIGHT PLAN FORM
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03312289 A
JAR FCL FLIGHT PLANNING ICAO MODEL FLIGHT PLAN FORM
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03312302 A
CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
5.2 Wind Range Correction (Fig. 4.5.2)
This graph is used for conversion of nautical ground miles to nautical air miles. (This is intended for use in conjunction with the 'integrated range' tables). Enter graph with average TAS. Correct for wind component. Move to ground distance at the right then vertically down to read corresponding air distance. For longer distances than shown on the graph apply a factor of 10 to the tabulated values.
Figure 4.5.2 WIND RANGE CORRECTION GRAPH
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03312302 B CIVIL AVIATION AUTHORITY FUEL PLANNING
DATA SHEET MRJT 1
Figure 4.5.3.1 Long Range CruiseAll Engines Maximum Cruise Thrust Limits A/C Auto
PRESSURE ALTITUDE 34000 Ft.
NOTE OPTIMUM WEIGHT FOR PRESSURE ALTITUDE IS55500 KGTHRUST LIMITED WEIGHT FOR ISA + 10 AND COLDER IS 67100 KG
THRUST LIMITED WEIGHT FOR ISA + 15 THRUST LIMITED WEIGHT FOR ISA + 20
IS 65700 KG IS 64000 KG
ADJUSTMENTS FOR OPERATION AT NONSTANDARD TEMPERATURES INCREASE FUEL REQUIRED BY
DECREASE FUEL REQUIRED BY 0.6 PERCENT PER 10 DEGREES C ABOVE ISA
0.6 PERCENT PER 10 DEGREES C BELOW ISA
JAA Appendices, Subject: 010 Page Edition:122002 241
INCREASE TAS BY 1 KNOT PER DEGREE C ABOVE ISADECREASE TAS BY 1 KNOT PER DEGREE C BELOW ISA
03312303 A CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
5.2 Wind Range Correction (Fig. 4.5.2)
This graph is used for conversion of nautical ground miles to nautical air miles. (This is intended for use in conjunction with the 'integrated range' tables). Enter graph with average TAS. Correct for wind component. Move to ground distance at the right then vertically down to read corresponding air distance. For longer distances than shown on the graph apply a factor of 10 to the tabulated values.
Figure 4.5.2 WIND RANGE CORRECTION GRAPH
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03312303 B CIVIL AVIATION AUTHORITY FUEL PLANNING
DATA SHEET MRJT 1
Figure 4.5.3.1 Long Range CruiseAll Engines Maximum Cruise Thrust Limits A/C Auto
PRESSURE ALTITUDE 34000 Ft.
NOTE OPTIMUM WEIGHT FOR PRESSURE ALTITUDE IS55500 KGTHRUST LIMITED WEIGHT FOR ISA + 10 AND COLDER IS 67100 KG
THRUST LIMITED WEIGHT FOR ISA + 15 IS 65700 KG
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THRUST LIMITED WEIGHT FOR ISA + 20 IS 64000 KG ADJUSTMENTS FOR OPERATION AT NONSTANDARD TEMPERATURES INCREASE FUEL REQUIRED BY
DECREASE FUEL REQUIRED BY 0.6 PERCENT PER 10 DEGREES C ABOVE ISA
0.6 PERCENT PER 10 DEGREES C BELOW ISA
INCREASE TAS BY 1 KNOT PER DEGREE C ABOVE ISADECREASE TAS BY 1 KNOT PER DEGREE C BELOW ISA
03312304 A
CIVIL AVIATION AUTHORITY FUEL PLANNING
DATA SHEET MRJT 1
Figure 4.5.1 EN ROUTE CLIMB 280/.74 ISA +6° C TO +15° C
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03312305 A CIVIL AVIATION AUTHORITY FUEL PLANNING
DATA SHEET MRJT 1
Figure 4.5.1 EN ROUTE CLIMB 280/.74 ISA +6° C TO +15° C
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03312306 A CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
5.2 Wind Range Correction (Fig. 4.5.2)
This graph is used for conversion of nautical ground miles to nautical air miles. (This is intended for use in conjunction with the 'integrated range' tables). Enter graph with average TAS. Correct for wind component. Move to ground distance at the right then vertically down to read corresponding air distance. For longer distances than shown on the graph apply a factor of 10 to the tabulated values.
Figure 4.5.2 WIND RANGE CORRECTION GRAPH
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03312306 B
CIVIL AVIATION AUTHORITY FUEL PLANNING
DATA SHEET MRJT 1
Figure 4.5.3.3 Mach 0.78 Cruise All Engines Maximum Cruise Thrust Limits A/C Auto
PRESSURE ALTITUDE 30000Ft TAS 460 Kts
NOTE OPTIMUM WEIGHT FOR PRESSURE ALTITUDE IS 64200 KGTHRUST LIMITED WEIGHT FOR ISA + 10 AND COLDER EXCEEDS STRUCTURAL LIMIT
THRUST LIMITED WEIGHT FOR ISA + 15 THRUST LIMITED WEIGHT FOR ISA + 20
EXCEEDS STRUCTURAL LIMITEXCEEDS STRUCTURAL LIMIT
ADJUSTMENTS FOR OPERATION AT NONSTANDARD TEMPERATURES
INCREASE FUEL REQUIRED BYDECREASE FUEL REQUIRED BY
0.6 PERCENT PER 10 DEGREES C ABOVE ISA0.6 PERCENT PER 10 DEGREES C BELOW ISA
INCREASE TAS BY 1 KNOT PER DEGREE C ABOVE ISADECREASE TAS BY 1 KNOT PER DEGREE C BELOW ISA
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03312307 A CIVIL AVIATION AUTHORITYFUEL PLANNING
DATA SHEET MRJT 1
5.2 Wind Range Correction (Fig. 4.5.2)
This graph is used for conversion of nautical ground miles to nautical air miles. (This is intended for use in conjunction with the 'integrated range' tables). Enter graph with average TAS. Correct for wind component. Move to ground distance at the right then vertically down to read corresponding air distance. For longer distances than shown on the graph apply a factor of 10 to the tabulated values.
Figure 4.5.2 WIND RANGE CORRECTION GRAPH
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03312307 B CIVIL AVIATION AUTHORITY FUEL PLANNING
DATA SHEET MRJT 1
Figure 4.5.3.3 Mach 0.78 Cruise All Engines Maximum Cruise Thrust Limits A/C Auto
PRESSURE ALTITUDE 30000Ft TAS 460 Kts
NOTE OPTIMUM WEIGHT FOR PRESSURE ALTITUDE IS 64200 KGTHRUST LIMITED WEIGHT FOR ISA + 10 AND COLDER EXCEEDS STRUCTURAL LIMIT
THRUST LIMITED WEIGHT FOR ISA + 15 THRUST LIMITED WEIGHT FOR ISA + 20
EXCEEDS STRUCTURAL LIMITEXCEEDS STRUCTURAL LIMIT
ADJUSTMENTS FOR OPERATION AT NONSTANDARD TEMPERATURES
INCREASE FUEL REQUIRED BYDECREASE FUEL REQUIRED BY
0.6 PERCENT PER 10 DEGREES C ABOVE ISA0.6 PERCENT PER 10 DEGREES C BELOW ISA
INCREASE TAS BY 1 KNOT PER DEGREE C ABOVE ISADECREASE TAS BY 1 KNOT PER DEGREE C BELOW ISA
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5.2 Wind Range Correction (Fig. 4.5.2)
This graph is used for conversion of nautical ground miles to nautical air miles. (This is intended for use in conjunction with the 'integrated range' tables). Enter graph with average TAS. Correct for wind component. Move to ground distance at the right then vertically down to read corresponding air distance. For longer distances than shown on the graph apply a factor of 10 to the tabulated values.
Figure 4.5.2 WIND RANGE CORRECTION GRAPH
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Figure 4.5.3.4 LOW LEVEL CRUISE 300KIAS All Engines Maximum Cruise Thrust Limits A/C Auto
PRESSURE ALTITUDE 21000Ft TAS 406 Kts
NOTE OPTIMUM WEIGHT FOR PRESSURE ALTITUDE IS 64200 KGTHRUST LIMITED WEIGHT FOR ISA + 10 AND COLDER EXCEEDS STRUCTURAL LIMIT
THRUST LIMITED WEIGHT FOR ISA + 15THRUST LIMITED WEIGHT FOR ISA + 20
EXCEEDS STRUCTURAL LIMITEXCEEDS STRUCTURAL LIMIT
ADJUSTMENTS FOR OPERATION AT NONSTANDARD TEMPERATURES
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INCREASE FUEL REQUIRED BYDECREASE FUEL REQUIRED BY
0.5 PERCENT PER 10 DEGREES C ABOVE ISA0.5 PERCENT PER 10 DEGREES C BELOW ISA
INCREASE TAS BY 1 KNOT PER DEGREE C ABOVE ISADECREASE TAS BY 1 KNOT PER DEGREE C BELOW ISA
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5.2 Wind Range Correction (Fig. 4.5.2)This graph is used for conversion of nautical ground miles to nautical air miles. (This is intended for use in conjunction with the 'integrated range' tables). Enter graph with average TAS. Correct for wind component. Move to ground distance at the right then vertically down to read corresponding air distance. For longer distances than shown on the graph apply a factor of 10 to the tabulated values.
Figure 4.5.2 WIND RANGE CORRECTION GRAPH
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Figure 4.5.3.4 LOW LEVEL CRUISE 300KIAS All Engines Maximum Cruise Thrust Limits A/C Auto
PRESSURE ALTITUDE 21000Ft TAS 406 Kts
NOTE OPTIMUM WEIGHT FOR PRESSURE ALTITUDE IS 64200 KGTHRUST LIMITED WEIGHT FOR ISA + 10 AND COLDER EXCEEDS STRUCTURAL LIMIT
THRUST LIMITED WEIGHT FOR ISA + 15THRUST LIMITED WEIGHT FOR ISA + 20
EXCEEDS STRUCTURAL LIMITEXCEEDS STRUCTURAL LIMIT
ADJUSTMENTS FOR OPERATION AT NONSTANDARD TEMPERATURES INCREASE FUEL REQUIRED BY
DECREASE FUEL REQUIRED BY 0.5 PERCENT PER 10 DEGREES C ABOVE ISA
0.5 PERCENT PER 10 DEGREES C BELOW ISA
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INCREASE TAS BY 1 KNOT PER DEGREE C ABOVE ISADECREASE TAS BY 1 KNOT PER DEGREE C BELOW ISA
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4. HOLDING FUEL PLANNING
The table below provides fuel flow Information necessary for planning holding reserve fuel requirements.Chart is based on racetrack pattern at minimum drag airspeed minimum speed 210KIAS.For holding in straight and level reduce table values by 5%
Figure 4.4
FLAPS UP
Fuel flow is based on a racetrack pattern.For holding in straight and level flight reduce fuel values by 5%
5. DETAILED FUEL PLANNING 5.1 Enroute Climb (Figures 4.5.1)Tables are provided for a range of temperature deviations from ISA 15°C to ISA +25°CFuel and time given in these tables are from brake release and distance from 1500 ft. with a climb airspeed schedule 280 KIAS/0.74 Mach. The stated TAS is the average for the climb and should be used to correct the still air distance shown.
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4. HOLDING FUEL PLANNING
The table below provides fuel flow Information necessary for planning holding reserve fuel requirements.Chart is based on racetrack pattern at minimum drag airspeed minimum speed 210KIAS.For holding in straight and level reduce table values by 5%
Figure 4.4
FLAPS UP
Fuel flow is based on a racetrack pattern.For holding in straight and level flight reduce fuel values by 5%
5. DETAILED FUEL PLANNING 5.1 Enroute Climb (Figures 4.5.1)Tables are provided for a range of temperature deviations from ISA 15°C to ISA +25°CFuel and time given in these tables are from brake release and distance from 1500 ft. with a climb airspeed schedule 280 KIAS/0.74 Mach. The stated TAS is the average for the climb and should be used to correct the still air distance shown.
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3.3 Alternate Planning (Fig. 4.3.6)The fuel and time figures extracted from this chart include the following:
Ÿ Missed approach
Ÿ Climb to cruise altitude
Ÿ Cruise at LRC
Ÿ Descent and straight on approach.Method of use is similar to previous graphs.For distances greater than 500 NM use the LRC Simplified Flight Planning Charts.
Figure 4.3.6 SIMPLIFIED FLIGHT PLANNING ALTERNATE PLANNING LONG RANGE CRUISE
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3.3 Alternate Planning (Fig. 4.3.6)The fuel and time figures extracted from this chart include the following:
Ÿ Missed approach
Ÿ Climb to cruise altitude
Ÿ Cruise at LRC
Ÿ Descent and straight on approach.Method of use is similar to previous graphs.For distances greater than 500 NM use the LRC Simplified Flight Planning Charts.
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Figure 4.3.6 SIMPLIFIED FLIGHT PLANNING ALTERNATE PLANNING LONG RANGE CRUISE
03312314 A
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Figure 4.3.1 C SIMPLIFIED FLIGHT PLANNING
LONG RANGE CRUISE
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3.2 Step Climb Simplified Fuel Planning (Fig. 4.3.5)This chart allows the planner to optimize aeroplane performance by increasing the cruise altitude in 4000 ft. steps in order to allow for the increase in optimum altitude as aeroplane weight decreases.The graph is valid for altitudes with 'Step Climb' of 4000 ft. to 2000 ft above optimum altitude. The graph provides trip fuel and time, at LRC or 0.74M, from brake release to touchdown. The method of use is the same as that for the constant altitude charts except that the argument of 'brake release weight is used in place of cruise 'pressure altitude' see example on chart
Figure 4.3.5 SIMPLIFIED FLIGHT PLANNING
STEPPED CLIMB CRUISEVALID FOR ALL PRESSURE ALTITUDES WITH 4000 FT STEP CLIMB TO 2000 FT
ABOVE OPTIMUM ALTITUDE
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Figure 4.3.1 C SIMPLIFIED FLIGHT PLANNING
LONG RANGE CRUISE
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3.2 Step Climb Simplified Fuel Planning (Fig. 4.3.5)This chart allows the planner to optimize aeroplane performance by increasing the cruise altitude in 4000 ft. steps in order to allow for the increase in optimum altitude as aeroplane weight decreases.The graph is valid for altitudes with 'Step Climb' of 4000 ft. to 2000 ft above optimum altitude. The graph provides trip fuel and time, at LRC or 0.74M, from brake release to touchdown. The method of use is the same as that for the constant altitude charts except that the argument of 'brake release weight is used in place of cruise 'pressure altitude' see example on chart
Figure 4.3.5 SIMPLIFIED FLIGHT PLANNING
STEPPED CLIMB CRUISEVALID FOR ALL PRESSURE ALTITUDES WITH 4000 FT STEP CLIMB TO 2000 FT
ABOVE OPTIMUM ALTITUDE
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Figure 4.3.1 C SIMPLIFIED FLIGHT PLANNING
LONG RANGE CRUISE
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Figure 4.3.1 C SIMPLIFIED FLIGHT PLANNING
LONG RANGE CRUISE
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3.2 Step Climb Simplified Fuel Planning (Fig. 4.3.5)This chart allows the planner to optimize aeroplane performance by increasing the cruise altitude in 4000 ft. steps in order to allow for the increase in optimum altitude as aeroplane weight decreases.The graph is valid for altitudes with 'Step Climb' of 4000 ft. to 2000 ft above optimum altitude. The graph provides trip fuel and time, at LRC or 0.74M, from brake release to touchdown. The method of use is the same as that for the constant altitude charts except that the argument of 'brake release weight is used in place of cruise 'pressure altitude' see example on chart
Figure 4.3.5 SIMPLIFIED FLIGHT PLANNING
STEPPED CLIMB CRUISEVALID FOR ALL PRESSURE ALTITUDES WITH 4000 FT STEP CLIMB TO 2000 FT
ABOVE OPTIMUM ALTITUDE
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Figure 4.3.1 C SIMPLIFIED FLIGHT PLANNING
LONG RANGE CRUISE
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3.2 Step Climb Simplified Fuel Planning (Fig. 4.3.5)This chart allows the planner to optimize aeroplane performance by increasing the cruise altitude in 4000 ft. steps in order to allow for the increase in optimum altitude as aeroplane weight decreases.The graph is valid for altitudes with 'Step Climb' of 4000 ft. to 2000 ft above optimum altitude. The graph provides trip fuel and time, at LRC or 0.74M, from brake release to touchdown. The method of use is the same as that for the constant altitude charts except that the argument of 'brake release weight is used in place of cruise 'pressure altitude' see example on chart
Figure 4.3.5 SIMPLIFIED FLIGHT PLANNING
STEPPED CLIMB CRUISEVALID FOR ALL PRESSURE ALTITUDES WITH 4000 FT STEP CLIMB TO 2000 FT
ABOVE OPTIMUM ALTITUDE
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Figure 4.3.1 C SIMPLIFIED FLIGHT PLANNING
LONG RANGE CRUISE
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3.2 Step Climb Simplified Fuel Planning (Fig. 4.3.5)This chart allows the planner to optimize aeroplane performance by increasing the cruise altitude in 4000 ft. steps in order to allow for the increase in optimum altitude as aeroplane weight decreases.The graph is valid for altitudes with 'Step Climb' of 4000 ft. to 2000 ft above optimum altitude. The graph provides trip fuel and time, at LRC or 0.74M, from brake release to touchdown. The method of use is the same as that for the constant altitude charts except that the argument of 'brake release weight is used in place of cruise 'pressure altitude' see example on chart
Figure 4.3.5 SIMPLIFIED FLIGHT PLANNING
STEPPED CLIMB CRUISEVALID FOR ALL PRESSURE ALTITUDES WITH 4000 FT STEP CLIMB TO 2000 FT
ABOVE OPTIMUM ALTITUDE
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Figure 4.7.3 In Flight Diversion (LRC) ONE ENGINE INOPERATIVE
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Figure 4.7.2 Area of Operation Diversion DistanceONE ENGINE INOPERATIVE
ISABASED ON DRIFTDOWN STARTING AT OR NEAR OPTIMUM ALTITUDE
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5.4 DescentThese tables (Fig. 4.5.4) provide tabulations of time, fuel and distance for "flight idle" thrust at 0.74 mach/250 KIAS (economy) and 0.70 Mach/280 KIAS (turbulence penetration)Allowances are made for a straight in approach with gear down. Figure 4.5.4 Descent
.74M/250 KIAS
.70M/280/250 KIAS
BASED ON IDLE THRUST.ALLOWANCES FOR A STRAIGHTIN APPROACH ARE INCLUDED.
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