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#141
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"C J Campbell" wrote in message ... "Vaughn Simon" wrote in message ... "Michael" wrote in message om... "C J Campbell" wrote Therefore, the Cirrus cannot recover from a spin when below 900' AGL. Many other aircraft can. Name one aircraft that can cruise better than 170 kts, carry four people, and can recover from a spin at 900 AGL. The occupants of a Cirrus can hope to "survive" a spin from 900 AGL How so, if the Cirrus cannot recover from a spin and the parachute needs more than 900 feet to deploy? Not to mention reaction time which would add hundreds of feet to the equation. |
#142
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"Greg Copeland" wrote in message news On Tue, 27 Apr 2004 18:58:11 -0700, C J Campbell wrote: "Vaughn Simon" wrote in message The occupants of a Cirrus can hope to "survive" a spin from 900 AGL How so, if the Cirrus cannot recover from a spin and the parachute needs more than 900 feet to deploy? Ya, that's the point I brought up in another subthread here, which went unanswered. Maybe you can help. If the deployment requires 920, does that mean after 920 you can safely touchdown or does that mean it requires 920 + however long it takes to slow your velocity to proper touchdown velocity? I ask because, I don't think a chute opening 10 AGL is going to help much. I believe the POH says that is the altitude necessary to safely touch down. Whether it could be of any help before that I don't know. Even partially opened the parachute is going to add some drag, but what happens is that the parachute is pulled out by a rocket. Instead of opening instantly (which would destroy the chute) a Teflon coated ring slides down the shroud lines to allow the chute to open in a controlled manner. The airplane continues moving forward during all this process. Once the chute is opened, the airplane swings down under the canopy. So dropping that last few feet just as the parachute opens the airplane's rate of descent might not be slowed at all. All of that assumes that the airplane is in normal forward flight. The Cirrus spins in a flat attitude and it might not have all that much forward motion. I guess the actual altitude needed would vary some depending on just what the airplane is doing at the time the CAPS system is deployed. |
#143
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"C J Campbell" wrote in message ... The occupants of a Cirrus can hope to "survive" a spin from 900 AGL How so, if the Cirrus cannot recover from a spin and the parachute needs more than 900 feet to deploy? OK, perhaps it is 920 feet; my point was that use of the BRS to "survive" a spin is hardly the same as "recovering" from a spin as we have always understood it. After a normal spin recovery in a normal airplane, there is typically no reason to ring up the insurance company. To respond to another point, the minimum BRS recovery altitude would also depend somewhat on density altitude. For example; given the same low AGL, you might not get the same happy results in Denver that you previously got in Miami. Vaughn |
#144
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On Wed, 28 Apr 2004 03:39:20 +0000, Dave Stadt wrote:
Not to mention reaction time which would add hundreds of feet to the equation. And that assumes you didn't waste time trying to recover in the first place. |
#145
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So now we come back to some of the points I made early on in this thread...
One of the problems is getting the pilot to absolutely ignore both human nature and his training and immediately deploy the BRS with no attempt at recovery from the spin. Because if the pilot doesn't follow this procedure, no questions asked, the delay resulting from going through a recovery process and the associated thought processes may well put the pilot below the effective altitude of the BRS. You're working against both existing training and instincts, and Cirrus-specific training that simply tells a pilot about the specific characteristics of the airplane is useless. The training needs to absolutely pound these differences into the pilot's head. And until that type of training is done the Cirrus will continue to have a less-than-stellar accident record... "Greg Copeland" wrote in message news On Wed, 28 Apr 2004 03:39:20 +0000, Dave Stadt wrote: Not to mention reaction time which would add hundreds of feet to the equation. And that assumes you didn't waste time trying to recover in the first place. |
#146
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I will look for the dates for you.
I do not recall the words "cylinder failure" anywhere, just that there was major engine work, top overhauls, and fears of needing rebuilds in the near future. I see someone "Mike Murdock" wrote in message ... Dude, I am a COPA member, and I read the members forum regularly, and I don't remember seeing anything about premature cylinder failure. However, since there are over 50,000 posts there, I'm willing to admit that I might have missed one or two Do you still have the COPA posts you were forwarded? If you can give me the date they were posted, or the name of the person who posted them, or any unique keywords from the post, I'd be happy to look them up and post a synopsis here. I've already searched for "shock cooling" without finding the posts you mentioned. I'm sincerely interested since I own an SR22, and if the engine is going to go Tango Uniform at 700 hours, I'd like to know. I do know that several have flown past that mark with no problem, although the sample size is still small since the fleet is still young. Thanks, -Mike "Dude" wrote in message ... Are you a COPA member Peter? I was forwarded some rather ugly COPA posts (I think its funny that all the bad news is in the "members only" section as if it won't get out, and then you let anyone buy a membership). The root of the problem is suspected to be that pilots are killing the throttle to descend. They give the reason for having to kill the throttle as not having the option to reduce power sufficiently because of the limited settings available to them. I am not trying to claim that anyone has been advertising the Cirrus prop controls as FADEC or even FADEC like. However, they have commented on how "simple" the operation of this system is for the pilot. The unintended consequence of this system is that the pilots are not able to let the engine and prop combo run in its sweet spot, and vertical planning becomes more problematic. Of course, no one forwards me notes from happy Cirrus customers. If your level of positive thinking and optimism is bothered by the subject, you should not log on. Even I quit watching the local news, and I suggest you do the same. "Peter Duniho" wrote in message ... "Dude" wrote in message ... I reduce throttle in my plane, and I can increase rpm. The combination will slow my plane Reducing throttle in a Cirrus slows the plane down too. without over cooling the engine. I DO NOT want to get into an argument about shock cooling. Then stop making statements that rely on the assumption that shock cooling exists. Whether shock cooling occurs or not does not change the fact that many pilots fly in ways to avoid it. So what? First of all, your assumption that high RPM, low throttle power settings avoid shock cooling is simply wrong. If there is such a thing as shock cooling, then reducing power will cause shock cooling, regardless of what mix of RPM and MP you use. Additionally, at low throttle, high RPM settings, the engine is windmilling, being driven by the airflow through the prop, and is considered by many to be at least as damaging to an engine as shock cooling, if not more so. Secondly, the fact that "many pilots" fly in a way to try to avoid something that does not happen isn't relevant to any rational discussion. Why would an aircraft designer install speed brakes just to address some psychological need for a pilot to use them, even if there is no practical advantage to doing so? In other words, if you want to play the "avoid shock cooling card", you'd better darn well be prepared to argue that "shock cooling" is real. The Cirrus does not allow full control over prop and throttle (aka phony fadec) It's not a FADEC. It's not advertised as a FADEC. It cannot possibly be a "phony fadec [sic]", since no one's called it a FADEC in the first place. Well, the ones that have engines dying at 700 hours are a lot frigging louder than the ones that think it works just fine. I haven't seen any evidence to even buttress that statement. But even if it's true, how's that anything other than basic human nature? Why would someone for whom everything's going fine invest a huge effort complaining about that? Who do you expect to hear from, if not from the few folks who have had engine problems? Pete |
#147
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"Bill Denton" wrote in message ... So now we come back to some of the points I made early on in this thread... One of the problems is getting the pilot to absolutely ignore both human nature and his training and immediately deploy the BRS with no attempt at recovery from the spin. snip...And until that type of training is done the Cirrus will continue to have a less-than-stellar accident record... And to come back to a point I made earlier in the thread, the result of pulling the BRS *is* an accident. You will end up with bent metal and possibly injuries every time you deploy the rescue system, and this reality will be reflected in the Cirrus's insurance rates. Hopefully, the Cirrus will some day have a low fatality rate, but I doubt if it will ever be known for a low accident rate. Vaughn |
#148
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"Aaron Coolidge" wrote in message ... I would say that the two airplanes are very comparable in terms of power, speed, range, price, payload flexability, etc. A huge difference is that the Mooney can be equipped to be known-ice certified. For anyone spending $300K on a serious IFR airplane, it is hard for me to imagine how/why this is not a dealbreaker for Cirrus. -------------------- Richard Kaplan, CFII www.flyimc.com |
#149
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"Bill Denton" wrote in message ... So now we come back to some of the points I made early on in this thread... One of the problems is getting the pilot to absolutely ignore both human nature and his training and immediately deploy the BRS with no attempt at recovery from the spin. Because if the pilot doesn't follow this procedure, no questions asked, the delay resulting from going through a recovery process and the associated thought processes may well put the pilot below the effective altitude of the BRS. You're working against both existing training and instincts, and Cirrus-specific training that simply tells a pilot about the specific characteristics of the airplane is useless. The training needs to absolutely pound these differences into the pilot's head. And until that type of training is done the Cirrus will continue to have a less-than-stellar accident record... Can you imagine what a pilot that flies a Cirrus and other planes would do in a crisis situation. Two totally different emergency procedures would vie for top priority. Scary. |
#150
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"Dude" person,
I have really been reluctant to add a post to this thread because I don't think I have seen so much misinformation in my life, but I feel an obligation to correct patently false statements which I can refute from a position of knowledge. I have been flying an SR22 for 2 1/2 years and have been a COPA member for 3 years. You said that there are problems with the engines needing work at 700 hours. This is absolutely false. If this were happening, it would be all over the COPA forums and I read them almost everyday. I have not read the first report of an engine needing major work at 700 hours and your statement about the interconnection between the prop and throttle being problematic to the engine is so ridiculous as to be humorous. I also have a very good relationship with my Service Center and we have had a lot of conversations about various Cirrus issues, major engine work at 700 hours has never been mentioned. And shock cooling problems??!! Huh? I have never had this problem even once. As far as slowing the plane down, I have never had a problem with THAT either. I have had to start slowing down a little sooner BECAUSE I WAS GOING FASTER TO START WITH! I have flown an ILS down to the middle marker at 120kts (faster than the cruise speed of a 172) and dropped flaps to land in the normal touchdown zone. It's just not a problem and I have never wished I had speed brakes. By the way, THAT is the correct way to spell "speed brakes". And ANOTHER thing, if anybody thinks they are going to recover from an inadvertent spin in less than 1,000' in any common four place or six place airplane without hitting terra firma first, they are living a fantasy. You just might barely make it if you are well practiced in spins in the aircraft you are flying and perform spins on a regular basis and you are at a very light weight. However, it will not happen like that. It will happen unexpectedly, probably when you are heavy with an aft CG, while you are doing something else like changing to departure control frequency. You look up from the radio to see the world spinning. You have less than five seconds to figure out what happened and determine the correct control inputs. You must execute them perfectly, or you die. Depending on the plane, loading, and pilot proficiency in spin recovery, I would not expect many scenarios like this to end favorably with less than 2,000' for an average pilot. Geez, this thread has the worst signal to noise ratio I have seen in a long time. You know, it started out with just some guy asking for a little information, I don't think he wanted an earful of crap from someone with an agenda. Until you fly a Cirrus for more than a demonstration flight, you would do well to stick to verifiable facts. Greg "Dude" wrote in message ... "Thomas Borchert" wrote in message ... Dude, This could reduce the stalls, at least on approach. Oh? So how many have stalled on approach again? Right, none. Yet. Don't get so frigging defensive. My point is that the Cirrus can be hard to slow to approach speed. It takes more care than many other planes because it is slick, and you cannot control the pitch of the prop to add drag. If you had speed breaks you would allow the pilot more options to control descent given that right now the system that governs the RPM/MP has limited ability to slow the plane without cutting the throttle. Bottom line is that if a person has speed breaks, he is less likely to fly slow because he can shed speed whenever needed. It would also reduce the severe shock cooling they are seeing due to their engine control system. So you can prove damage through shock cooling? Wow! I know no one else who can. And where is the connection to the "engine control system"? Presently, according to some COPA members, there are many people having excessive engine wear and needing lots of cylinder work early. One suspected reason is shock cooling due to pilots cutting throttle to get the plane down without gaining too much speed. The cirrus design simply adds more penalty to poor vertical planning than most planes, and so the engine is often asked to pay the price. Another theory is that the engines are constanlty being run at set rpm's that may not be the best rpm's or the smoothest. The pilot cannot control it. Bottom line, the phony Fadec system isn't really all that good. -- Thomas Borchert (EDDH) |
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