Sorry Lynn. My apologies those figures @ 9500, 7500,6000 and 4500 are altitude. Didn’t click that they could also be read as RPM. Sorry!
Again thanks for the expertise, those things you mention re flow make sense of the anomalies.
Please excuse my ignorance - SAE tables?
Right, so convert those numbers back to sea level. Can you explain this for me Lynn?
Much appreciated.
Steve
>
> The impossible is possible................
>
> Along the way to tuning success you will find that a specific combination of facts may appear and disappear within a few RPM. Such as induction tube length VS exhaust system harmonics/back pressure. Every RPM would suggest that a specific tuned intake length would be ideal. See the Mazda winning 4 rotor and its adjustable length intake runners. Exhaust back pressure may be high at one RPM and nonexistent at another. The whole reason for disconnecting the intake and exhaust in the Renesis among other things is to get the tuning down to some form of normal (Meet California UHC). Having no overlap is a giant step in that direction. The poor exhaust shapes help pollute the incoming charge a bit so as to reduce combustion temps and pull back Oxides of Nitrogen. I have seen movies of fuel air flowing backwards in an intake runner. When you record what appears to be faulty data do not discard it and then see it again the next day. When you make a change....make it a big one so you can see which way that one took you. Never make more than one change. Use the SAE tables to take all of the data down to sea level. Before you compare two data sets. It is a steep learning curve......but it will come to you. I had a fabulous Stuska dyno in my shop for years.
> and a flow bench. I never did learn all I should have.
>
> Fixed pitch props (In effect) reduce pitch as air speed through the disc increases. The suggestion that you turned up 9,500 RPM gives me chills. What would the tip speeds be then?
>
> You can get above 10,000 RPM with 13-B rotors but they must be very light and you must look inside after every race because the tend to crack when that light. Note that the Renesis rear main bearing is two different diameters to allow for that standing sign wave that forms in the crank. Nobody uses Fram filters or lets friends turn over 8,000 RPM
> Lynn E. Hanover
>
>
> Hi Charlie and all
>
> On the four runs - Speeds were:
> 147 KIAS 21.6” @ 9500 WOT
> 136 KIAS 18.2” @ 7500 (Not WOT)
> 160 KIAS 24.8” @ 6000 WOT
> 165 KIAS 26.2” @ 4500 WOT
>
> Prop hub is Airmaster 3 blade electric with Aerotek Blades
>
> On looking over the 4500 ft run:
> As RPM steps up from 5500-7250 (in 250rpm inc) over 9 mins (OAT 49)
> Temps gradually build from 172/154 to 198/171 (Oil/Water)
> Fuel Flow goes from 14.5 peaking at 16.2 (6750) before ending at 15.8
> KIAS 160 peaking at 168 (7000) before ending at 166
>
> We probably haven’t allowed enough time between changes for full settling of the numbers, but the trends seem consistent.
>
> Not sure I agree with your thoughts re engine rpm rising and drag constant or rising = power must be increasing.
> Torque x RPM = Power
> RPM is increasing, but if torque is decreasing faster than rpm is rising, power will be decreasing.
>
> What I was interested in discovering was the max power RPM.
> My logic is, even if power is constant after 6750rpm (ie. rpm increasing matches torque decreasing) there is no value in spinning her above that rpm.
>
> What science could I do to discover this?
> Rightly or wrongly, thats why I value this list, I was looking for the peek in Fuel Flow AND IAS (I’m relying on the wideband O2 being accurate and keeping mixture constant)
> Its not anything like dramatic, but I think I can maybe see evidence of that best power (torque peek) RPM being somewhere around the 6750rpm setting.
> We had been spinning her up 600+RPM higher, perhaps for no advantage.
>
> On another note about the Intake manifold. We shortened the OEM unit to lift peak torque from Mazda's 5000rpm documented curve, hoping for something in the low 6000’s.
> We also kept the VDI valve that opens at high RPM to provide Mazda’s Renesis intake shockwave charging, but presently I cant activate the valve in flight.
> And to be honest it seems to be producing a pleasing amount of hp at that 6750rpm.
>
> On Takeoff with a mixture at a Lambda of 0.9 / 13.2 AFR she is burning 17 Gal of our Premium Unleaded fuel using 1 Ounce / Gal of two stroke oil, whatever hp that equates too.
>
> Is my logic OK here or am I just dreaming?
>
> Cheers
>
> Steve
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> > That's curious. Are you saying that fuel flow *decreased* as rpm *increased* above 6750 rpm? And airspeed decreased, as well? The only way fuel flow should decrease as rpm increases is if the load on the engine is going down.
> >
> > Is the prop running out of pitch (or ability to absorb the HP) as you get faster? Is the airframe hitting a drag wall due to cooling drag (still shouldn't show a reduction in fuel flow; it just wouldn't go any faster)?
> >
> > What actual speeds are you achieving when this is happening?
> >
> > Refresh my memory; who's prop (what blades) is it?
> >
> > Do engine temps go up as you get above 6750 rpm?
> >
> > Think about the 'airplane as dyno' thing: If rpm continues to go up, and the drag (our substitute for torque on the engine brake in a real dyno) stays the same or increases, then power *must* be increasing, and so must fuel flow. Simple math; (torque*rpm)/5252. So, was the plane going downhill, or was the prop unable to absorb the additional power and decoupling, unloading the engine?
> >
> > Charlie
> >
> > Hi Guys.
> >
> > Today we did some engine data analysis at 9500, 7500, 6000 and 4500 feet agl.
> > WOT with constant best power mixture of 0.9 Lambda.
> > We looked at Fuel Flow and IAS at 5500,5750,6000,6250,6500,6750 & 7000rpm.
> > The data revealed a very slight peak in both IAS and Fuel Flow at the 6750rpm point at basically all altitudes.
> > I think what this is suggesting is that increasing rpm beyond 6750 is only increasing wear and has no benefit given the current intake/exhaust configuration.
> >
> > With the current Prop Fine Pitch Limit, on initial WOT at Takeoff the engine consistently hits 6900rpm within ~6 seconds and 7000rpm by liftoff at 70 KIAS.
> > It then generally builds to 7400rpm (With no pitch adjustment - We presently don't have a Constant Speed Controller) before throttling back as we turn downwind.
> >
> > I think this would suggest we ought adjust the props fine limit marginally so that takeoff WOT yields approx 6700rpm and keeping the rpm as close to 6750rpm as
> > possible when seeking maximum power by manual prop pitch adjustment.
> > A Constant Speed Controller would be nice!
> >
> > I’m now thinking we have enough data to tune the Mixture Correction Table of the EC2’s computers for climbing at 6750rpm and as Bill suggested cruising at 6000rpm.
> >
> > Next step in tuning in the Glasair Super IIRG will be playing with the cowl flaps and cooling drag. Presently the flaps are wide open and draggy.
> > I’m in the process of completing a little box of 5 differential pressure transducers (MPX10DP’s) mounted under the cowl.
> > I worked out that they interface quite nicely without any other circuitry with the Dynon Skyview's surplus EGT inputs via a new Polynomial in the sensor config settings.
> > So hoping in the next few weeks to ascertain how the inlets, diffusers and outlets are functioning or not.
> > What I like about the MPX10 interface with the Skyview EFIS is the simplicity of displaying the pressure data inflight while its all logged along with engine and flight data
> > for analysis on the ground.
> >
> > I’ve got 7 more hours of Phase #1 testing.
> > So far both aircraft and engine are really great.
> >
> > My friend and test pilot Dawie also demonstrated at the end of todays flight - a Lazy Eight, a Roll and Wingover.
> > I felt sick for the next 3 hours. I don't think aerobatics will be in my future.
> >
> > Thanks for all the help you guys.
> >
> > Steve Izett
> > Perth Western Australia
> > Glasair Super IIRG Renesis 4 port RD1C EC2 EM3
> >
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> > >
> > > Stephen,
> > > The answer to one of your questions is easy. A fast cruise RPM should be 6000. Mazda did many instrumented runs and found that 6000 rpm was a sweet spot where the dynamics balanced perfectly. At 6000 there is almost no load on the bearings. The rotary would run at that RPM indefinitely. If you have more power at higher speeds you can use that for maximum speed. Those RPMs are eshaft RPMs not propeller.
> > > Bill
> > >
> > > Hi Guys
> > >
> > > Thanks for all the feedback.
> > > I think I didn’t explain my objective clearly enough.
> > >
> > > Some questions:
> > > 1. Given I have variable pitch, what combination of MAP and RPM should I climb or cruise at? With fixed pitch I dont suppose you think in these terms.
> > > So should I be Climbings at WOT & 7000rpm OR WOT & 6300rpm Best Power Mixture.
> > >
> > > I think Lynn best understood my intention of trying to use the flight as a dyne - I didn’t realise the complexity of the relationship of mixture and timing at various settings, thanks Lynn.
> > > I thought by keeping WOT and mixture constant I might ascertain a maximum efficiency combination for MAP/RPM.
> > >
> > > I’d like a combination for max power. I’m thinking identified by higher fuel burn and IAS for the climb, and
> > > a max efficiency/ecconomy combination for cruise identified by best miles per gallon.
> > >
> > > I thought our Renesis with our modified OEM (shortened) manifold but no variable intake valves etc. would have a distinctive peak at ~6400-6600rpm.
> > >
> > > 2. I’m finding tuning the EC2 (objective being EC provides constant mixture across the flight envelope) is dependant on the combination I choose to tune it at.
> > > Eg. Tune EC2 MCT for one MAP/RPM combination, say a cruise of 18” AND 5000 rpm, then the EC will not be able to provide a constant mixture if I then choose 18” at 6000rpm.
> > > My EC2 has Tracy’s 8 table setup but fueling requirements given the extra permutations provided by the variable pitch prop (climbing that hill - which gear should I use - 3rd 4th or 5th??)
> > > appears to stretch its inherent capabilities. So I want a plan for what MAP/RPM I will use and then adjust/tune the EC MCT for that combination.
> > >
> > > Thanks again guys.
> > >
> > > Steve Izett
> > >
> > >
> > > all is nice if you fly that combination. If I then choose ab
> > >
> > > >
> > > > Your thinking is correct. Control full throttle RPM with load. Then experiment always at that particular RPM until you have whatever data point you were after. Everything affects everything so it may be that (for example) advancing ignition timing at one RPM adds power but at another RPM reduces power. A rich mixture at one RPM may increase power but reduce power at another RPM. To recover even similar data on consecutive days is difficult. The SAE has some charts that produce a multiplier to account for density temperature and so on. Required to compare results day to day. It takes a long time to collect good data..........
> > > >
> > > > Lynn E. Hanover
> > > >
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