Great question Chris,
Up in the higher elevations it can definitely be a bit of a challenge. The hard part is reducing power enough to be able to descend without shock cooling the engine while still allowing you to get down without going too fast.

A few things that I have done in the past include:
- Plan your decent early if possible and start reducing your power slowly in level flight over the course of a few minutes. Let the speed decay as the power is reduced and one your speed is back then start your gentle decent. Doing it this way makes it much easier to manage your speed/decent rate because if you point the nose down and then reduce power it is too late and the thin air makes it very difficult to go down and slow down. Every 2000 feet or so level off and add a bit of power to keep the engine warm and happy, rinse and repeat.

- You could also try lowering some flaps at altitude after you have slowed down. Yes this will reduce your max speed but it may enable you to increase your rate of descent in a pinch or at the very least it will bring your deck angle right down.

- In terms of RPM setting, yes in theory moving the prop to full fine should help you slow down if you have a fat prop but is the extra noise really worth it. If found in most light singles pushing the prop in doesn't do as much to help your descent at altitude as it does close in to the runway.

- Don't forget to richen the mixture as you descent. The last thing you want to do is level off and apply modest power only for the engine to cough.

These are just a few things that do but each to their own.

John Deakin has an excellent article on this topic here: Pelican's Perch #66 The whole series is excellent, and you may want to read through the entire "Where Should I Run My Engine" series (Index). But in this article he specifically addresses the "Crowbar Descent" (how to lose a LOT of altitude quickly) near the bottom of the article, stating that you first reduce the RPM to the lower end of the green arc. Next, you lower the nose gently to maintain airspeed, then do what he terms the "big throttle pull": Reduce the throttle smoothly (over 5-8 seconds) all the way down to 15 or so inches of MP. Keeping the airspeed up should avoid the gear up "screamer" - at least that's how it worked on my Commander.

Ironically, I sold my Rockwell Commander 114 to finance the Patrol AND to purchase a 1965 Citabria 7ECA (O-200 and oleo gear) to acquire the tailwheel skills and to fly while building the Patrol. At this point, 100 knots is pretty much "max" cruise speed... Funny how quickly your perspectives change! With the Commander, I prepared for my trip to Sun-N-Fun by practicing maintaining airspeed down to 100 knots from well outside the airport area, to the pattern entry and all the way to short final, as stated in the NOTAM for the SNF arrival... Now with this plane, I'll have to do it again, but this time trying my best to keep the speed up to 100 knots (115 mph is max cruise)! Bleeding off airspeed on short final (without flaps or constant-speed prop) is a skill I need to acquire once the tailwheel is somewhat under control. (I started to say "tamed", but realized that implies that a tailwheel can ever be tamed - and one thing I've learned is that if you ever think "I've got this!" that tailwheel will decide it's a great time to teach you a lesson about over-confidence!)

Duplicate post - sorry!

If this is the case, you might have discovered the best airplane ever! This is likely not the case though, being that physics will intervene. Here's how I would do it. Next time you are in a cruise configuration, pull the black knob back until the gear horn starts going off, then push it in until the horn just goes out. Depending on how it's all rigged up and what I can remember from my Cutlass experience, that should be somewhere around 12" MAP. If yours is going off at 18", is that something that can be adjusted? 18 sounds much higher than I remember, but it has been a long time since I flew one. Ask someone like Mr. Barger, he knows I'm sure. Is the gear horn based on MAP or throttle lever position? If it is based on lever position, then that will be your setting all the way down. If it is based on MAP, then you can further decrease the throttle as MAP climbs during the descent.

Once you bring the throttle back, the airplane will likely pitch down to maintain the trim airspeed, but good technique would have you do the same with the yoke. Leave the other knobs alone, except gradually richen the mixture very slightly every thousand feet or so as you descend. See what your vertical speed is in that configuration. If it is 500 feet per minute, for example, then you'll be able to figure out your descent angle. This will be your descent configuration for the engine levers, until you do your GUMPS check and push the red and blue knobs forward for the possible go around.

Once you have your descent angle, start with the place in space you are trying to get to, such as the pattern altitude on the downwind, the crossing restriction issued by ATC, etc. Then build your desired vertical path up from that point, and find where it meets your cruise altitude. That is the point where you need to start down. So here's an example. You are at 8500 feet, and you want to arrive at 1500 feet. That's 7000 feet to lose. Your descent rate is 500 feet per minute, so that means 14 minutes of descent. You can cheat and look at your GPS. When your ETE hits 14 minutes, start down at 500 feet per minute, and you should arrive there just about in time, depending on how the winds will change. If you'd like to get all complicated you can think about how TAS is going to decrease as your altitude decreases, but metaphorically this is ax work and not scalpel work, so there's no need to get out the micrometer.

If you don't have a good GPS ETE or if you want to have more pilot dignity, you can do your own time calculation. Decide on an average ground speed during the descent. This is going to be a guess, since you don't know how the winds are going to change on the way down. You can approximately rule out the TAS change by averaging your TAS and IAS. Then guess on a speed correction due to winds, based on what you think your average headwind or tailwind will be. So if you figure your ground speed is going to be 150 knots on average during the 14 minute descent, then you know that you'll cover 35nm during the descent. This is what you use that e6b for. Put the pointer on 150 and look out from 14 on the B scale. That means you'll need to start down around 35 miles from your destination. The actual numbers will vary based on your real life numbers, and while it sounds complicated, it's kind of like weight and balance or restaurant tipping. Calculate it a few times and you'll get a feel for the right range.

One complicating issue is that your cockpit indications of airspeed and vertical speed are based on your passage through the air, but your destination and desired descent angle is based on geometry over the ground. So if you have a headwind, you can start down later. If you have a tailwind, you can start down earlier. In the case you cited, you had a pretty generous tailwind, and if that is combined with a gear switch that is set a little high, then you might just fly along forever, at least seemingly. This is the sort of thing we deal with all the time at work, being that we have long descents through lots of variable winds. Starting down early or late burns more fuel, and in the Cutlass it is likely very small, but on bigger planes the numbers really start adding up.

As for the prop question, this is something you can learn by experiment. Take the plane up to an altitude that you would use for stall practice, just to ensure that the ground is not a concern. Bring the throttle to idle (this is really important) and push the prop all the way in. Nose over to establish a fast descent, like 100 knots or more if you can. As long as your blades are on their low pitch stop, the prop will wind up like it does on a fixed pitch. The prop speed will increase to the point of the RPM that you have set on the governor (full RPM in this case), at which case the blades will leave the low pitch stop to maintain the selected setting. Now, with the engine still at idle, pull the prop control all the way back. I'll resist the temptation to spoil it unless you really want me to. While you are in the descent, you can work the blue knob back and forth to see what changes. Keep the throttle at idle you won't have to worry about hurting anything by moving the prop control.

Deja vu, I flew from NW MN to NE IL last weekend, and also had to go high to get above the smoke. We ended up at 10,500' to get above it , where it was smooth as glass with a 30kt tailwind. I had a similar issue on descent, which I solved by doing exactly what Jared described: 9000'/500fpm = 18 min. of descent. So I started my descent about 25 min out, to arrive at pattern altitude well outside the pattern. I left the prop and throttle controls in, trimmed the nose down, and let the speed go up into the yellow. Enjoy the extra speed as long as it is smooth.

I had a fixed gear C182, so I didn't have one option you didn't mention: drop your gear. As you know, it changes your descent rate dramatically.

And to take it to the extreme, for emergency descents: drop your gear, pull the power, and roll into a 45-60 deg bank.

Thanks for your thoughts. It's nice having gear that can be extended at any speed. I was bringing down in plenty of time, but there was just that one thing of how I was going to keep it from going too fast.

I'll definitely be reviewing some of those works referenced above for techniques. When I get to instrument training, I'm going to have to figure this out! :-)

This is an easy one!

Pull the RPM right back, and that keeps the MAP high while generating very little thrust. Just following engine manufacture's recommendations on maximum over-square, it's a factor of 7 for Lycoming e.g. 21" MAP and 1400 RPM is the limit.

I use this if I really need to get down in my BH, because of terrain. Usually I plan my descent properly and descent earlier to avoid running the engine too cold.

I appreciate all of the advice. Thanks to you all. Lots of different things to try! I don't know what made me keep from pulling the RPM back and trying that. After thinking about it, there was no way I was going to "outrun" the prop. One more tool in the bag o' tricks.