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-   -   Boost (Hurricane 1 and Merlin II/III) (https://www.pprune.org/aviation-history-nostalgia/477411-boost-hurricane-1-merlin-ii-iii.html)

Genghis the Engineer 16th Feb 2012 15:46

Boost (Hurricane 1 and Merlin II/III)
 
I've been wading through some old manuals as part of a private project looking at the Hurricane 1.

I understand MAP and CS props well enough on modern aeroplanes, but I'm struggling with how this maps to "Boost" as used on the Merlin engine. Can anybody explain what Boost actually is and is controlled - is it just an alternative term for MAP, or as I suspect something defined a bit differently?

At the same time, references to the early CS props on the Hurricane 1 / Merlin II combination refer to a "2 speed" prop, which suggests a CS prop with only two RPM settings - as opposed to the infinitely variable lever I'd see on a modern aeroplane. Is that correct, or is it more modern than I think, or even is it a 2-pitch (fine and coarse) prop such as is fitted on one or two modern motorgliders?

And if anybody knows the answers to those, I'm guessing that they might know the answer to my third question. At what point was the 2 blade fixed pitch prop finally withdrawn from the Hurricane fleet?

Cheers chaps.

G

Fareastdriver 16th Feb 2012 16:09

Rubbish removed

Lightning Mate 16th Feb 2012 16:21

Sorry, but boost and MAP are not the same.

MAP is the absolute pressure in the manifold, measured from zero datum ie a vacuum.

Boost is the pressure in the manifold above atmospheric.

The early systems on the Hurricane and Spifire had two blade angle settings only. The rpm in either was controlled by the throttle, unlike modern constant speed propellers.

Wander00 16th Feb 2012 16:40

From someone's book - cannot remember which - early prop was 2-speed - coarse and fine - with a lever in the cockpit - I have a feeling it was DRSB who crashed an aircraft on take-off - only to have lever point at him like an accusing finger as it was still in "coarse" whereas it should have been in "fine" for take-off

Lightning Mate 16th Feb 2012 16:46

You are correct. He put it through a fence at the end of the airfield if I remember.


a kit to convert their two pitch propeller unit to a constant speed propeller.


Fareastdriver 16th Feb 2012 17:15


Sorry, but boost and MAP are not the same.

Good enough for government work.
Those days have gone.

Lightning Mate 16th Feb 2012 17:24

No they have not.

Try flying a WW2 warbird instead of a helicopter...........

oxenos 16th Feb 2012 19:45

"take zero boost as 14 ins of MAP. "

Wrong.

Zero boost is approx 30 inches of mercury. + 8 boost is therefore 8 X 2 plus 30, i.e. 48 in MAP

Genghis the Engineer 16th Feb 2012 19:47

But basically zero boost is effectively idle power, and above that is linear-ish with increasing power presumably?

Does "boost" actually serve any real purpose then, since we seem to be talking about fixed pitch propellers - even if you have a choice of three fixed pitches?

G

3 Point 16th Feb 2012 20:08

Nope, zero boost isn't idle power, far from it. Zero boost is almost enough to tip a Spitfire or similar on it's nose while doing the run up to check mags. Zero boost would be a typical cruise power setting. Idle power would be off the scale, somewhere below -8 boost.

Zero boost is static atmospheric pressure; often referred to as "static boost" ie 29-30" MAP. They are both indications of the pressure in the inlet manifold and therefore are "the same" in a sense however, MAP uses absolute zero pressure as its datum and (usually) In Hg as the units, "boost" uses the prevailing atmospheric pressure as its datum and (usually) psi as its units.

Positive boost pressures are seen on a forced induction engine (Supercharged or turbocharged) and equate to MAP figures above 29"Hg.

Boost certainly serves a purpose as it allows you to set desired engine power at various RPMs (or with two speed VP (ie not CS) props). I have only known one aeroplane with a fixed pitch prop and a boost gauge. This was an engine which was supercharged to allow it to maintain sea level power output as the altitude increased; when you got high enough such that full throttle gave you zero boost that was effectively full throttle height; any further climb and you would start to lose power.

Fareastdriver 17th Feb 2012 09:23

I am getting old. I mixed up lbs/inch2 with inches of mercury.
LM I did train on a supercharged radial engined aircraft and also a supercharged radial engined helicopter. Same engine, different gauges.

Genghis the Engineer 17th Feb 2012 09:43

So in a nutshell - Boost, normally expressed in in.Hg, is MAP minus (MAP at a nominal cruise power setting). So idle is something like -8 Boost, and combat power was around +10 boost, expressed in in.Hg.

It was used, as MAP is, for setting power in general preference to using RPM. The Hurricane 1 did not have a constant speed prop - the earliest models had a fixed pitch prop, the later models had a variable-fixed pitch prop with a choice of two or three pitch settings. So a pitch setting was made, then the powerplant was controlled on the throttle, primarily by reference to boost pressure, rather than RPM.

Have I got that right?

G

Lightning Mate 17th Feb 2012 10:44

Just about.


Same engine. different guages.
Wossa guage please?

Genghis the Engineer 17th Feb 2012 11:11


Wossa guage please?
It's what the engine innards start to do if you don't keep the needles in the green.

G

good spark 17th Feb 2012 11:24

wossa a gauge please?

bit like a plum

gs

oxenos 17th Feb 2012 11:46

Lightening Mait got a dishunary for his birfday

Lightning Mate 17th Feb 2012 16:15

i'm like honured innit i meen like fings ere ar like good innit

fred is like well drifting like innit

Lancman 17th Feb 2012 16:16

Boost pressure and manifold air pressure are two different names for exactly the same thing. American engine manufacturers favored MAP and the British favoured boost. Only the scaling on the gauges/gages differed. If you put a boost gauge and a MAP gage next to each other at sea level on an ISA standard day the boost gauge needle would point at 0 boost on the scale and the MAP needle to a shade below 30"Hg.

The early Merlins weren't fitted with constant speed propellors, they were fixed pitch. Later propellors could be selected to either of two fixed pitches any time that the engine was running. RPM varied as a function of engine power and TAS. If a take-off was attempted in coarse pitch the RPM, and thus engine power, would initially be kept low by the very high torque load on the engine but they would increase as the aircraft accelerated. If that Hurricane had had a much longer runway it would have got airborne eventually just as the Schneider Trophy seaplanes did. Incidentally, the Schneider Trophy racers, with their very coarse fixed pitch props, used to start their take-off runs at 90 degrees to their intended take-off direction just to allow for that torque.

Lightning Mate 17th Feb 2012 16:18


Boost pressure and manifold air pressure are two different names for exactly the same thing.
.................:ugh:

3 Point 17th Feb 2012 16:52

Hi Genghis,

we are getting close but not quite there yet, re-read my second paragraph.

"Zero boost is static atmospheric pressure; often referred to as "static boost" ie 29-30" MAP. They are both indications of the pressure in the inlet manifold and therefore are "the same" in a sense however, MAP uses absolute zero pressure as its datum and (usually) In Hg as the units, "boost" uses the prevailing atmospheric pressure as its datum and (usually) psi as its units."

The usual units for boost is psi and for MAP is In Hg. Think Fahrenheit and Celsius; two systems for measuring temperature but each with a different datum point and measured in units of different increments. Two different systems of measuring the same thing.

Happy landings

3 Point


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