This shows you the differences between two versions of the page.
Both sides previous revision Previous revision Next revision | Previous revision | ||
spitfire_mk_i [2013/03/18 13:11] ATAG_Slipstream |
spitfire_mk_i [2013/04/27 23:38] (current) Ivank [COARSE PITCH] |
||
---|---|---|---|
Line 43: | Line 43: | ||
Pilots may use this slower pitch change mechanism in the same way as the real RAF pilots did, as a means to mimic a variable pitch system and gain a bit of acceleration when Coarse Pitch rpms are very low. When the prop is in Coarse Pitch and the rpms are low, the pilot can engage the lever to change to Fine Pitch. The rpms will then rise as the blade angles change giving more bite to the prop and a brief burst of acceleration. Before the rpms reach 3000 and the engine over-revs, the Pilot should change the lever position back to Coarse Pitch, so that the Prop pitch reverses, and the engine goes back to lower RPM's. This technique is only recommended for use between 0- 10,000ft, or when at altitudes over 20,000ft. Extreme caution should be used to avoid over-revving the engine. | Pilots may use this slower pitch change mechanism in the same way as the real RAF pilots did, as a means to mimic a variable pitch system and gain a bit of acceleration when Coarse Pitch rpms are very low. When the prop is in Coarse Pitch and the rpms are low, the pilot can engage the lever to change to Fine Pitch. The rpms will then rise as the blade angles change giving more bite to the prop and a brief burst of acceleration. Before the rpms reach 3000 and the engine over-revs, the Pilot should change the lever position back to Coarse Pitch, so that the Prop pitch reverses, and the engine goes back to lower RPM's. This technique is only recommended for use between 0- 10,000ft, or when at altitudes over 20,000ft. Extreme caution should be used to avoid over-revving the engine. | ||
+ | //===__Temporary description to cover TF ver 3.01 with use of VP system. Detailed Re write to be added later__.=== | ||
+ | The Spitfire MKI 2 pitch system could in fact be used with limitations as a Variable Pitch system. Though not exactly designed with this in mind it was found by pilots that careful use of the Prop pitch control allowed them to set any desired RPM rather than just Coarse or Fine pitch setting. This did not provide the complete flexibility of a dedicated VP system but did allow intermediate RPM control.This was good for certain flight phases like climb and Cruise. Due to limitations in the Pitch plunger design it does not really lend itself to combat flying. In this patch we have enabled the pilot to select a desired RPM. Blade angle change rates are still the same as was used in the original 2 Pitch system. We have not changed the 3d modelling of the Pitch lever, this will be done at a later stage. In the real aircraft the Pitch Change control was of a plunger or Push Pull type control.// | ||
====ENGINE TEMPERATURE MANAGEMENT==== | ====ENGINE TEMPERATURE MANAGEMENT==== | ||
Line 57: | Line 59: | ||
===Oil Recommended Temperatures:=== | ===Oil Recommended Temperatures:=== | ||
- | * Minimum: 30c | + | * Minimum: 40c |
* Normal: 90-95c | * Normal: 90-95c | ||
Line 79: | Line 81: | ||
- Radiator Temperature gauge should read 60c prior to takeoff | - Radiator Temperature gauge should read 60c prior to takeoff | ||
- | - Oil Temperature must be 30c prior to takeoff. | + | - Oil Temperature must be 40c prior to takeoff. |
====TAXIING==== | ====TAXIING==== | ||
Line 132: | Line 134: | ||
Pilots should exercise caution when pulling out of a high speed dive, they should be cautious about using full elevator, especially with nose up elevator trim, and should be especially cautious when they have taken damage to their wings. | Pilots should exercise caution when pulling out of a high speed dive, they should be cautious about using full elevator, especially with nose up elevator trim, and should be especially cautious when they have taken damage to their wings. | ||
- | LANDING | + | ====LANDING==== |
- | 1) Descend below 1000 ft and reduce throttle to slow aircraft to 160 mph | + | |
- | 2) Select Fine pitch | + | - Descend below 1000 ft and reduce throttle to slow aircraft to 160 mph |
- | 3) Select Down Flaps | + | - Select Fine pitch |
- | 4) Select Undercarriage down | + | - Select Down Flaps |
- | 5) Trim aircraft for level flight, reduce speed to 130 mph, very gentle turns | + | - Select Undercarriage down |
- | 5) On Runway glide approach, reduce speed to 120 mph, then to 100mph over threshold, cutting throttle. Holding the nose level, allow the aircraft to sink gently at 100 mph, touching at 90mph. | + | - Trim aircraft for level flight, reduce speed to 130 mph, very gentle turns |
- | 6) Make sure the aircraft is settled on all three wheels before beginning to brake, pump brakes extremely gently and do not hold them. The Spitfire has a tendency to tip over onto its nose if anything other than very gentle braking is used. | + | - On Runway glide approach, reduce speed to 120 mph, then to 100mph over threshold, cutting throttle. Holding the nose level, allow the aircraft to sink gently at 100 mph, touching at 90mph. |
+ | - Make sure the aircraft is settled on all three wheels before beginning to brake, pump brakes extremely gently and do not hold them. The Spitfire has a tendency to tip over onto its nose if anything other than very gentle braking is used. | ||