en route performance cpl performance. aim to introduce the performance aspects associated with the...
TRANSCRIPT
![Page 1: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/1.jpg)
En Route PerformanceCPL Performance
![Page 2: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/2.jpg)
Aim
To introduce the performance aspects associated with the climb, cruise and descent segments of flight
![Page 3: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/3.jpg)
Objectives1. State the factors effecting climb performance2. Calculate the Climb Gradient3. Calculate the maximum Rate of Climb (or descent)
required to avoid controlled airspace 4. State the factors effecting cruise performance5. Define Range and state how to fly for maximum
range6. Define Endurance and state how to fly for maximum
endurance
![Page 4: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/4.jpg)
1. Climb Performance
We can describe climb performance as either Rate of Climb or Angle of Climb
Rate of Climb (RoC):
Altitude gained over time. Expressed in feet per minute (fpm).
![Page 5: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/5.jpg)
Angle of Climb (AoC):
Altitude gained over distance. Expressed as an angle.
1. Climb Performance
![Page 6: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/6.jpg)
Types of Climbs
Whenever we fly we generally aim for a particular performance
For the climb we can choose from:• Best Rate of Climb (Vy)• Best Angle of Climb (Vx)• Cruise Climb
1. Climb Performance
![Page 7: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/7.jpg)
Cruise Climb
Best Rate of Climb (Vy)Best Angle of Climb (Vx)Cruise Climb
1. Climb Performance
![Page 8: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/8.jpg)
Factor Effect on RoC Effect on AoC
Power
Altitude
Weight
Flap
Wind
(Headwind)N/A
(Extended)
(Tailwind)
During your BAK studies we discussed factors effecting climb performance. A summary can be found below.
1. Climb Performance
![Page 9: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/9.jpg)
Climb Planning
In the POH for each aircraft you will find details about climb performance.This will include the time fuel and distance required to climb to each altitude It may be in the form or a table or a graph
1. Climb Performance
![Page 10: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/10.jpg)
A measure of climb performance is the climb gradient which can be achieved
Climb gradient is a measure of the height gained per distance travelled expressed as a percentage
ie, Climb Gradient = %
2. Climb Gradient
![Page 11: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/11.jpg)
Height Gained500 ft
Distance Travelled 8000 ft
The climb gradient can be calculated as follows:
Climb Gradient = = 0.063
That is, for each 1 ft travelled we climb 0.063ft
To Convert to percentage multiply by 1000.063 x 100 = 6.3%
For example, you climb 500ft while covering a distance of 8,000ft. What is your climb gradient?
2. Climb Gradient
![Page 12: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/12.jpg)
We can also work out our climb gradient based on our current Rate of Climb and Groundspeed
Climb Gradient =
2. Climb Gradient
![Page 13: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/13.jpg)
Climb Gradient =
= = 6.5 %
650fpm
TAS +- Wind = Groundspeed110-10=100kts
For example, you are climbing at 650fpm with a TAS of 110kts and a 10kt tailwind. What is your climb gradient?
2. Climb Gradient
![Page 14: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/14.jpg)
When climbing (or descending) you may have a requirement to remain in a certain class of airspaceDue to the structure of controlled airspace there are “steps” which you must be aware of
CLASS C
25nm
35nm
50nm
3000
4000
6000
CLASS G
3. Avoiding CTA
![Page 15: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/15.jpg)
When calculating a climb to remain outside of CTA the first thing to do is check if there is a limiting step A limiting step has the shallowest profile; least height gain for a given distanceThis is important as you may have to lower your climb rate or delay the climb.
CTA
25nm
35nm
50nm
Critical
Non critical
3000
4000
6000
3. Avoiding CTA
![Page 16: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/16.jpg)
CTA
25nm
35nm
50nm
Critical
Non critical
10nm/1000 step 15nm/2000 step3000
4000
6000
Limiting Steps: we can see that the 10/1000 step profile is has a shallower profile than 15/2000, therefore if you wish to climb at a constant RoC you will need to determine a RoC which will not infringe this limiting step
Required RoC = x
3. Avoiding CTA
![Page 17: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/17.jpg)
CTA
25nm
35nm
50nm
Critical
Non critical
10nm/1000 step 15nm/2000 step3000
4000
6000
3. Avoiding CTA
Required RoC = x
= x = 200fpm
For example, the steps are as pictured below and you have a groundspeed of 120kts. What is the maximum rate of climb you can maintain without entering CTA?
![Page 18: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/18.jpg)
The method is the same for calculating a descent profile to remain inside or outside of airspaceWhen planning our descent we must also calculate where we will be starting the descentThe formula we use for this is:
Distance on Descent = x
3. Avoiding CTA
![Page 19: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/19.jpg)
CTA35nm
50nm
Critical Non critical
15nm/2000 step
3000
4000
6000
8000
25nm
10nm/1000 step
For example, the steps are as pictured above, you are cruising at 5500ft and you have a groundspeed of 130kts. You are planning to descent to 2000ft. What is the minimum rate of descent you require without entering CTA?
Required RoD = x
= x = 216fpm
3. Avoiding CTA
![Page 20: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/20.jpg)
Cruise performance data is presented in either tabular or graphical format. Both show fuel flow and TAS for conditions of engine RPM and percentage power, against cruise level and temperatureCruise performance assumes correct leaning of the mixture
PRESSURE ALTITUDE(FT) RPM
20C - STANDARD TEMPERATURE STANDARD TEMPERATURE 20C + STANDARD TEMPERATURE
%BHP KTAS GPH %BHP KTAS GPH %BHP KTAS GPH6000 2600 --- --- --- 77 119 8.6 72 118 8.1
2500 73 114 8.2 69 113 7.8 66 112 7.4 2400 66 108 7.4 63 107 7 60 106 6.7 2300 60 103 6.7 57 101 6.4 55 99 6.2 2200 54 96 6.1 52 95 5.9 50 92 5.8 2100 49 90 5.7 47 88 5.5 46 86 5.5
8000 2650 --- --- --- 77 121 8.6 73 120 8.1 2600 77 119 8.7 73 118 8.2 69 117 7.8 2500 70 113 7.8 66 112 7.4 63 111 7.1 2400 63 108 7.1 60 106 6.7 58 104 6.5 2300 57 101 6.4 55 100 6.2 53 97 6 2200 52 95 6 50 93 5.8 49 91 5.7
4. Cruise Performance
![Page 21: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/21.jpg)
PRESSURE ALTITUDE(FT) RPM
-20C STANDARD TEMPERATURE STANDARD TEMPERATURE 20C +STANDARD TEMPERATURE
%BHP KTAS GPH %BHP KTAS GPH %BHP KTAS GPH6000 2600 --- --- --- 77 119 8.6 72 118 8.1
2500 73 114 8.2 69 113 7.8 66 112 7.4 2400 66 108 7.4 63 107 7 60 106 6.7 2300 60 103 6.7 57 101 6.4 55 99 6.2 2200 54 96 6.1 52 95 5.9 50 92 5.8 2100 49 90 5.7 47 88 5.5 46 86 5.5
8000 2650 --- --- --- 77 121 8.6 73 120 8.1 2600 77 119 8.7 73 118 8.2 69 117 7.8 2500 70 113 7.8 66 112 7.4 63 111 7.1 2400 63 108 7.1 60 106 6.7 58 104 6.5 2300 57 101 6.4 55 100 6.2 53 97 6 2200 52 95 6 50 93 5.8 49 91 5.7
To use the tables find the desired % power for the intended cruise level then read off the TAS, fuel flow and RPM
For example, if the planned altitude is 6000ft on an ISA day. What RPM should we use and what TAS and fuel flow should we expect if we want 65% power?
4. Cruise Performance
![Page 22: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/22.jpg)
When considering cruise performance we can elect to cruise in a number of different configurations based on our specific requirementsThese requirements may be:• Travel the furthest distance for the fuel on board• Stay in the air for the longest possible time• Operate the aircraft at the lowest cost• Get to the destination at in the minimum amount of time
4. Cruise Performance
![Page 23: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/23.jpg)
Range
We may be given the requirement to “travel the furthest distance for a given amount of fuel”This is known as flying for Maximum Range
Flying for maximum range is often a requirement if we need to carry the maximum amount of payload
5. Range
![Page 24: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/24.jpg)
Range
To fly for Maximum range we require the best ratio of TAS to fuel flowFor our aircraft the fuel flow relates directly to the PWR required
Pow
er
Velocity (TAS)
Pwr Reqd.
5. Range
![Page 25: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/25.jpg)
Range
To find the best ratio of TAS to fuel flow (in nil wind) we plot a tangent to the PWR required graph which intersects at the origin
Pow
er
Velocity (TAS)
Pwr Reqd.
5. Range
![Page 26: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/26.jpg)
Range
If we have any wind we must take this into accountTo do this we move the point where we draw the tangent from to a location on the graph where the groundspeed is 0Eg, if we have a 20kt headwind:
Pow
er
Velocity (TAS)
Pwr Reqd.
20kt
5. Range
![Page 27: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/27.jpg)
Range
Eg, if we have a 20kt tailwind:P
ow
er
Velocity (TAS)
Pwr Reqd.
20kt
5. Range
![Page 28: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/28.jpg)
Range
Comparison of wind conditions on rangeP
ow
er
Velocity (TAS)
Pwr Reqd.
20kt 20kt
5. Range
Nil Wind
HeadwindTailwind
![Page 29: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/29.jpg)
Ground Nautical Miles per gallon =
RangeIn practice we do not have a PWR required graph for our aeroplane so we must derive this information from the cruise performance tablesWe need to determine the maximum distance we can travel for the minimum fuelIf we divide the groundspeed by fuel flow we can determine our Ground Nautical Miles per gallon of fuel
5. Range
![Page 30: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/30.jpg)
PRESSURE ALTITUDE(FT) RPM
-20C STANDARD TEMPERATURE STANDARD TEMPERATURE
%BHP KTAS GPH %BHP KTAS GPH GNMPG6000 2600 --- --- --- 77 119 8.6 13.83721
2500 73 114 8.2 69 113 7.8 14.48718 2400 66 108 7.4 63 107 7 15.28571 2300 60 103 6.7 57 101 6.4 15.78125 2200 54 96 6.1 52 95 5.9 16.10169 2100 49 90 5.7 47 88 5.5 16
8000 2650 --- --- --- 77 121 8.6 14.06977 2600 77 119 8.7 73 118 8.2 14.39024 2500 70 113 7.8 66 112 7.4 15.13514 2400 63 108 7.1 60 106 6.7 15.8209 2300 57 101 6.4 55 100 6.2 16.12903 2200 52 95 6 50 93 5.8 16.03448
Green Line shows best range in nil wind in ISA conditionsOccurs at higher altitude and 2300 RPM for 8000ft
5. RangeRangeHere is a cruise performance chart for a typical C172For nil wind conditions the GNMPG has been calculated
![Page 31: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/31.jpg)
Endurance
If we have a requirement to “stay in the air for the longest time”This is known as flying for Maximum Endurance
Flying for maximum endurance is often a requirement if we need to hold for weather
6. Endurance
![Page 32: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/32.jpg)
Endurance
To fly for Maximum Endurance we require the minimum fuel flowFor our aircraft the fuel flow relates directly to the PWR required
Pow
er
Velocity (TAS)
Pwr Reqd.
6. Endurance
![Page 33: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/33.jpg)
Endurance
When PWR required is at a minimum fuel flow is at a minimum therefore that is the PWR required for maximum range
Pow
er
Velocity (TAS)
Pwr Reqd.
6. Endurance
![Page 34: En Route Performance CPL Performance. Aim To introduce the performance aspects associated with the climb, cruise and descent segments of flight](https://reader034.vdocuments.us/reader034/viewer/2022042703/56649e0c5503460f94af5307/html5/thumbnails/34.jpg)
Endurance
Wind has no significant effect on endurance as the distanced covered is not important
When flying for maximum endurance you should fly at the minimum altitude (safely!) as PWR required increases with an increase in altitude
The speed for maximum range corresponds to Vy
6. Endurance