G1000 torque gauge question.
Up until this year, I haven't had much experience flying glass cockpit aircraft. I'm now flying G1000 equiped C208B EX caravans.
The other day I dragged one up to 18,000 to clear some terrain and weather and watched the limit on the torque drop lower and lower as we got higher. Up until now, I have done, and witnessed other captains across numerous different types of turbines with steam gauges continually bump the power up as the torque drops off with altitude until they hit either the NG limit or the ITT limit. But on the climb up, I noticed that the torque limit was reducing as we climbed to a point where I had to reduce power to around 97% to stay under the torque limit. Temp was also not a factor. Why is this? I've learnt by monkey see, monkey do. I don't want to continue this bad habit if I have been operating turbines outside of their limits! |
Well,
If you are refering to the Blue bug on the torque indicator it is only a recommended setting for cruise performance. And it definetly decreases as altitude increases. You should look at your POH to get climb and cruise performance charts and notice that the higher you climb and cruise, the lower the torque setting allowed. Max Cruise at ISA and 1900rpm: (for a 675 SHP engine) 12000 Ft 1563 ft-lbs 14000 Ft 1469 ft-lbs 16000 Ft 1371 ft-lbs 18000 FT 1277 ft-lbs Same goes for climb performance |
I assume you're talking about the cyan "bug" on the torque gauge... That is the "cruise torque bug" (as per Garmin G1000 pilots guide for Cessna Caravan...
It "represents the recommended cruise torque settings (appears for certain combinations of propeller speed, outside air temperature, airspeed, and altitude)" That isn't a "limit" as such... And isn't really applicable to the climb as far as I'm aware... For climb... You set whatever you want without exceeding 765C (or your companies SOP limit. We use 740 ;) or 101.6% Ng |
No, I was actually referring to the Red line. That also decreased with altitude.
Been a bit of a long day so I may be missing something here, but why does the torque limit reduce with altitude? Although the engine is turning at the same speed (Ng), due to the air being less dense, it is producing less torque, and therefore SHP. I thought that there would be less "strain" on the engine for the same amount of work being done. Is it something to do with air pressure across the engine? Maybe I'm looking at it from the wrong angle and I'm more than happy to be re-educated. |
Does the Caravan EX have a 'Max Torque for Climb chart' like the older 'vans???
It may be the max permissible regardless of ITT |
It most certainly does have one in the PoH.
Its just a shade over 1400lbs Max tq for the climb at -4 and 18,000ft Normal van max tq at that altitude and temp would be 1180lbs. I'm actually pretty embarrassed that evidently I have been over-torquing steam gauge vans. I'm obviously not alone as one of the other van drivers has pointed out a few post before me. I would love to hear the reason for the the drop in torque limit over altitude! Thanks! |
Another example of quality training on that big cessna 172!
This really frustrates me as it's not hard to train people correctly and give them the tools to do a good job! The moving red line is called the "dynamic red line" this is the maximum tq for take off up until 16000ft and then max climb power above that. The blue bug is Maximum cruise tq as per the cruise tq table in the POH. This cannot be relied on and needs to be confirmed by the PIC using the chart in the POH. Max climb Tq is much much lower than take off tq and should be determined using the chart in the POH. Check out max tq for take off at 32'c sea level and then max climb tq at 32'c sea level and you will see what I mean. The pt6-140 is not as forgiving as the pt6-114 and operators are going to have major problems if they do not follow these limits. OCTA |
At no point was I referring to the blue bug. I totally understand what the blue bug is.
I am asking about the red line. It's interesting that I you have touched on quality training. Two different countries and a sim course at Pan Am and climb torque was never touched on. I've done a little more reading and thankfully I never hit the tq climb limits on any of the past machines due to not flying high enough for it to become a factor. Not many people take a caravan up to 18,000 I guess, hence the need to never talk about it. And my time in king airs... the things were so old and full of holes that it would could never fly higher than 18,000 anyway. I've asked a few other PT6 drivers across different machines and they all say the same thing. Keep bumping the powers up as the tq reduces and staying below ITT or Ng limits. All of them fly steam gauge aircraft. I've obviously learned from this mistake, but now rather than just continue with monkey read, monkey do.... I would like to know what causes the tq limit to reduce with altitude? |
For climb... You set whatever you want without exceeding 765C (or your companies SOP limit. We use 740 ;) or 101.6% Ng I no longer have a current copy of the C208B handbook as I don't fly them any more so this page reference may be a little out of date, but the above mentioned chart is found in Section 5 Page 18 of the C208B G1000 POH of the no longer current copy I still have (not sure on the page number for the non-G1000 version but the same chart is in section 5 somewhere). The limitations section for the engine in the POH also directs you to this chart. lilflyboy262...2, As for giving you an answer as to why this limit exists I am sorry (and disappointed) that I cannot answer that for you because I don't know myself (and would like to know). My former company had a "PT6 expert" (from an engine overhaul firm) come give us a lesson on PT6 design and operation but when a colleague of my asked him about the climb torque limit and why had it been introduced he didn't know about it, couldn't give us an answer as to why it was there, said he would contact P & W to find out and we never heard back from him. |
The climb tq limit is something that has only been introduced in the last 8 years and it seems a lot of old courses still don't teach anything about it and some instructors/check and trainers still choose to ignore it.
This is my educated guess but purely that as I am open to be corrected. The climb tq limit is there to keep you under max itt and Ng. This is the same reason as Takeoff Tq limits all they are there for is to give the pilot a Tq setting that will keep your ITT within limits. This makes it simpler for a pilot to have a figure to set instead of taking a best guess. But as I say I stand to be corrected! I am impressed you are actually reading the book and looking for answers there are too many people who just don't bother these days! |
I suspect OCTA has the idea.
On the climb torque chart it does state that the values obtained will remain within limits. To support that theory if you look at the time & dist to climb chart it fails to mention the climb trq chart and only the limits. Torque set at 1865 foot-pounds or lesser value must not exceed maximum climb ITT of 765*C or NG of 101.6% |
If the limit is there just to ensure you dont exceed Ng or ITT then can lilflyboy assume no real harm has been done if he hasnt actually exceeded those limits? Its nothing to do with the gearbox?
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I'm not endorsed on the Van, nor do I have experience with that particular PT6 (plenty with the -67 and -42).
However.... I agree with Blatant. It sounds like Cessna put that mark on the guage so that Joe Blogg's with 200hrs could fly a Van. Keep it simple maybe. If the ITT, normal engine torque and NG haven't been exceeded, then have they really had an engine exceedance by going past that 'climb torque'? morno |
So, I just happen to have a copy of the 208B EX POM infront of me, I was also intrigued by this question and did some research but couldn't find any particular reason for this limit after a bit of googling around but did notice the following Note under Maximum Engine Torque for Climb it says:
1. Torque on this chart shall be achieved without exceeding 825c ITT or 103.7 percent Ng Where as for the "Cruise Maximum Torque" it states: 1. The Highest Torque shown for each temperature and RPM corresponds to maximum allowable cruise power. Do not exceed this torque, 805c ITT, or 103.7% Ng, whichever occurs first As the Maximum Engine Torque for Climb doesn't mention the line "Do not exceed this torque" unlike the Cruise Maximum Torque section and does mention the ITT and Percent Ng not to exceed I'd say that OCTA and others are correct and it's merely a simple way to ensure you don't exceed your ITT or Ng limits with less fiddling around than simply setting whatever gives you just under the limits. |
Hey morno……. you turbine guys keep saying how wonderfully easy they are compared to pistons.
As someone who is reasonably qualified to comment on the piston ops……MYTH BUSTED buddy :} :ok: |
Is this another one of those lawyer written PoH things where someone in the States cooked an engine by staying at max continuous tq but ignored the ITT or Ng limits?
I wish I had taken a pic of the engine parameters and not just the altitude I was at! The tq limit had moved down to the book value of just a shade over 1400. Yet the Ng and ITT were at 98% and roughly 780*C. Well below either of those limits. It seems extremely an conservative number if its just a figure there for dummies. What is so hard about setting the engine power to remain under whichever of the three needles hits its limit first? The problem with this dynamic line is that if it is just a precautionary line, that you then have to ignore it, get a flashing red tq warning, and use the standby tq meter if you needed the power to continue to climb. It really is baffling me that an engine at 8,000ft in the cruise can happily make 1800ft/lbs until it runs out of fuel but is only allowed to produce 1400ft/lbs at 18,000ft (ITT and Ng considered). |
Take this with a grain of salt, but...
I believe the climb torque limits came about due to Garrett drivers setting a torque for climb without reference to itt or ng (apparently they're less forgiving), so Garrett introduced these limits so all you needed to do was look at your altitude and oat, then blindly set torque and be "certain" everything else is within limits. Cessna then adopted this practice. So, climbing generally, if your itt and ng are within limits, and your torque is below max for that rpm (208b 1865ftlbs @1900rpm) it is impossible to overtorque the engine. Now for the g1000, if you sit stationary on a runway and apply power until the prop governs at max rpm, then pull the pitch back, you will see the red torque line increase. It's purpose is the same as the torque charts, if you're lazy and dont monitor the other parameters, as long as you dont go over the red line you should be ok. It protects your engine based on current config and conditions. If I'm off the mark (very possible) please feel free to correct me, it's how I learn. Cheers, Sox |
The climb tq limit is something that has only been introduced in the last 8 years and it seems a lot of old courses still don't teach anything about it and some instructors/check and trainers still choose to ignore it. I've just spent some time looking through a 2004 POH and cannot find a reference to climb torque limitation there either, just Ng and ITT. Did something suddenly change in the engine in the last 8 years? |
As far as I am aware, in your example, the pulling the pitch back and watching the red line increase is a gearbox limit.
SHP is worked out by Tq X RPM divided by 5252. So in reducing the RPM, you can increase the torque and produce the same SHP. Hence the two red lines on the steam gauge vans and that little table that is printed on the panel in front of you. I think the first three figures all give the same amount of HP (within 1 or 2hp). I'm getting the funny feeling that this is one of those "Never operate lean of peak" PoH things..... Maybe I will take this over to the tech forum and see if I have any joy there! |
SHP is worked out by Tq X RPM divided by 5252. So in reducing the RPM, you can increase the torque and produce the same SHP. *or should I say beyond its limits. |
Hey morno……. you turbine guys keep saying how wonderfully easy they are compared to pistons. As someone who is reasonably qualified to comment on the piston ops……MYTH BUSTED buddy And now they're even easier with FADEC and no props, :ok:. |
The -10 has a perfect FADEC, and less trouble than yours :}
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Repost because I suffered from being the last person posting on page 1.
Quote: SHP is worked out by Tq X RPM divided by 5252. So in reducing the RPM, you can increase the torque and produce the same SHP. *or should I say beyond its limits. |
On a standard van, maxing both works out to be 705 SHP.
My understanding that it will put too much strain on the gearbox. Amount of power it is receiving vs the air density causes too much stress? Just my guess. |
Blatant,
You are wondering what will happen if you deliberately over torque and engine... I'll let you think about that and see if you can work it our yourself. BTW you don't have a throttle in a turbine.... |
Blatant, You are wondering what will happen if you deliberately over torque and engine... I'll let you think about that and see if you can work it our yourself. BTW you don't have a throttle in a turbine.... No need to use that tone buddy. Exactly my point, is it really over-torquing? The gear box is having no more than the maximum torque allowable go through it. The Ng is within limits. The ITT is within limits. What is the limiting factor? Is it the way the engine is mounted to the airframe? Is it purely a certification thing? |
Exactly my point, is it really over-torquing? The gear box is having no more than the maximum torque allowable go through it. The Ng is within limits. The ITT is within limits. What is the limiting factor? Is it the way the engine is mounted to the airframe? Is it purely a certification thing? Limits exist for a reason. They help engines make Full TBO.:rolleyes: |
The gear box is having no more than the maximum torque allowable go through it. NG and ITT are indicators of the gas generator. That half of the engine could very well be within limits while your trying to make your prop depart the airframe. |
A quick mental calc to keep the max climb torque under control could be to reduce the max torque by about 70ft-lbs per 1000' above sea level, then adjust by +20ft-lbs for every degree Below 29 deg C OAT and -20ft-lbs for every degree over.
Works roughly for the temp ranges and altitudes most of them are flown in Australia (<10000' and 0-40deg C).:ok: Of course you could always tape a copy of the Max Climb Torque graph to the visor and adjust every 1000-2000' ? |
Power Levers - Throttles. Who Cares?
Stick to your guns BL. Mr Lockheed has produced many fine C130 Hercules powered by turbo-prop Allison engines and they call the levers used to control engine power "Throttles". If they reckon they can be named throttles that will do me. Below an extract from a Lockheed Service Bulletin.
"The engine throttles and condition levers are mounted in a quadrant on the flight control pedestal between the pilot and co-pilot. The throttles are located to the left of the condition levers and are used to make the desired power settings. The throttle quadrant is marked for different operating conditions from maximum reverse on the ground to maximum power in flight" Push him he GO - Pull him he STOP!!!!! |
My mistake I thought we where talking about C208's not C130's please continue...
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Hi
Most interesting discussion Just another mechanic, but qualified PT6A and Cessna Caravan. FWIW, my thoughts are that the ECTM module will record the exceedance, so will need to be interegated by technician - via laptop and that god awefull serial cable interface, and then a decision made. From memory if the PRGB limit is exceeded it is a mandatory hot end inspection at minimum. maybe engine overhaul. Having said that, the PT6 series is a very robust engine, and can take a lot of punishment. |
There's a ppruner on the other caravan thread that has seen 900hp out of a -114 from a newly rated pilot going to 2500 ft/lbs, would be interesting to know what the hot section's indications were...
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Explanation
OCTA, " BTW you don't have a throttle in a turbine..." In response to your statement just wanted to let Blatant Liar know that some turbine engine powered aircraft do have power levers or thrust levers, or what ever else you wish to call them, which are labelled "Throttles". Had you specifically said C208 did not have throttles I would not have commented.
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Just re-read my post Old fella and saw that is in fact what I said - I retract my comment.
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Not a 208 pilot, but been taking to one who is considerably experienced on type, and trolled his library for 208 info.
Beginning with serial number 372 (1044 for the B) Cessna fitted an Altair ETM which will record an exceedence if the engine is operated above the "maximum cruise power" as detailed in section 5. The ETM was fitted so as to make the engine eligible for a higher TBO. I guess the engineers must interrogate the ETM to determine what the TBO times for the various components may be. That is not to say you can't exceed the max cruise power (but keeping within ITT, N1 limits), it's just that it will be logged and may impact the TBO. The G1000 has a moving marker which will indicate the max cruise power applicable at the time. Re horsepower. The first TQ red line is at 1865 and says "TO" next to it. 1865TQ X 1900RPM / 5252 = 675 horsepower The second red line is the climb 1970TQ X 1800RPM / 5252 = 675 horsepower Pull the RPM back while maintaining 1970TQ (assuming other limits are OK) 1970TQ X 1600RPM /5252 = 600 horsepower |
Power Levers - Throttles. Who Cares?
Pedantistry at its finest?
Throttles for mine, I don't care what anyone else calls them! :ok: |
Who Cares... indeed
Originally Posted by Howard Hughes
Pedantistry at its finest?
[PedantModeOff] ;-) |
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