Flight #: 070
CFI: Brian W.
Aircraft: Robinson R22 Beta II
Aircraft ID: N2223P
Duration: 1.5hrs
Cumulative Time: 83.0hrs
Well, not a total failure, but I have to retake it. Pretty big let down, and I'm pissed. I want to fly well, and today was certainly an off day. The mistakes I made were stupid, plain and simple.
Mistake 1) Made a poor weather decision.
This time of year, in Oregon, is rather odd - weather wise. You swing from perfection to total crap in an hour. It just so happened that I was on the down swing for this progress check. Morning started out nicely and it turned crappy fast.
Skies were overcast at 4000ft (more than enough for this check) and wind was 9knots. A little bit of wind is not bad, but this was about where I start to think... "eh... maybe a pain". Not anywhere near problematic, but not a calm day either. The biggest issue with wind is gusts, and changing wind direction. Radar did show a storm brewing about 12+ hours away, so I decided to go for it.
Mistake. Not that it was unsafe, but why should I shoot myself in the foot? I should have just called it off and waited for a better day. Stupid.
Mistake 2) Selection of a bad helicopter.
2223P sucks! Well, not really, but the radio is crap and it pulls a LOT of power in a normal hover.
First, the power. Since I'm still pretty heavy, and you can't pull too much power in flight (for safety reasons), you need to keep an eye on your gauge. In most helicopters a casual glance down at your manifold pressure gauge is enough... in 2223P... you have to STARE at it. It is always on the edge. I spent a lot of my brain cycles on this gauge... and I needed them elsewhere.
Next, the radio. I literally had to make 30% of my calls twice... the tower could not hear me. Again, it happens from time to time, but having to do things twice in a testing situation is rather unnerving. Time for a new radio, 2223P.
Mistake 3) Was not completely aware of wind.
The first two... luck of the draw.
This one... my real and honest errors. The wind changed on me by 180º, mid flight. It happens, but I'm supposed to be able to recognize this. Not only from the behaviors of the helicopter, but the fact that there are windsocks and other wind indicators out there.
See, a helicopter can deal with almost any wind from any direction - in flight. At takeoff and landing, wind is a very big deal. Since a helicopter generates its own down-wash turbulence, you get the best lift if you are moving in such a way where your motion moves (or if the wind blows) the down-wash out of your way. If the wind is head-on, your down-wash is blown away... a nice thing - out of your path of travel. If you have a tail wind, it blows it right into the air you need to be in a few seconds. Making your point of greatest lift farther away and, therefore, take-off harder. If you know it is there, you can deal with it... sometimes you will just have to deal with it. But it makes things difficult and potentially dangerous.
Same thing for a landing. I've talked before about settling with power - the condition where the helicopter gets caught in it's own down-wash... and loses lift quickly. This is really the most dangerous and common thing out there.
Anyway, the red/yellow/green diagram above is literally what I think of when making wind decisions.
Green, is good news. If the wind is coming from any of those directions, you are good to go. You'll get into ETL easier (get maximum lift here), and you don't have to worry about the helicopter being blown around.
Yellow is iffy. When the wind blows from this direction you can, potentially, lose some of your tail rotor effectiveness; LTE - Loss of Tail-Rotor Effectiveness. The wind blows the rotor-tip turbulence vorticies into your tail rotor. This, in turn, reduces the force generated by the tail rotor and you will yaw right. It is easy to compensate for this... you just have to be aware and ready for it. Otherwise you yaw to the right abruptly.
Red... red is bad news and should be avoided whenever possible. Couple things can happen from the different areas.
If a strong wind is blowing from 270º you are in a settling with power state in the tail rotor. The tail rotor's job is to produce thrust away from the blades and to the left... thus counteracting the torque from the main rotor. The main rotor is turning counter-clockwise, and therefore the helicopter wants to turn clockwise to counteract that. The tail rotor is pushing the opposite direction - keeping you straight. If a strong enough wind forces the turbulent air back into the tail rotor blades... it "falls" through the turbulent air it just created and you start yawing to the right.
If wind is coming from behind, pretty much at any angle between 270º and 90º your helicopter acts like a weather vane and tries to flip around and point into the wind. Makes it very hard to maintain your heading.
If you have wind from behind, and are trying to take off it is quite hard to find ETL, or the point where you have increased lift. If you happen be taking off with a tail wind... and you do get into ETL and start to climb... then a gust of wind appears out of nowhere you drop out of ETL and lose that lift. Bad.
If you are trying to land in a tailwind, you are very susceptible to settling with power. You just don't know where ETL is and not having that information is very dangerous.
During my flight, the wind literally flipped around on me... full 180º change. So, I was coming in for a landing with a headwind on one approach... all was good. Took off, went back around, and all of a sudden it was a tail wind.
My real mistake... is not checking the wind sock constantly. To my credit, I was watching a smoke plume about 1 mile north of the pattern. But, apparently the wind shift was a local phenomenon and my smoke plume had no bearing on where I was flying.
Back on the horse...
I have always been infatuated with helicopters. In flight, a helicopter is an amazing mixture of aerodynamics, physics and... well, magic. This blog acts as a record of my experiences, learning, successes and failures along this adventure. VFR 141 Private Pilot: June 17th, 2008 VFR 61 Commercial Pilot: May 26th, 2009. CFI: February 3th, 2010. Fly Safe.
Friday, May 23, 2008
Tuesday, May 20, 2008
Stage 2 Progress Check - Oral
Hillsboro overly prepares you... and do they ever mean it. I've taken so many friggin tests I'm about to go blind. I just finished my Stage 2 Progress Check Oral exam. 4 hours of hard questions. Passed it, although I do need to go back and review some areas. In particular, FAR/AIM Section NTSB830 - Accidents.
Why? Well, here is the question I was asked:
"We are flying out in west practice area. I ask you to do an off-airport-landing, and we get into a tight space. Just before touch down, the main rotor blade clips a pine-tree and disintegrates on impact. The cyclic shakes violently and breaks my pinky finger. What do we need to do?"
So, I start off explaining that this was an accident and we should begin following the rules set forth by NTSB830. Bla, bla, bla.
BZZZZZT!
Nope, wrong. Here is what it all means
An "Aircraft Accident" is an occurrence which causes "death of serious injury" and there is "substantial damage" to the aircraft.
Ok, so now we need to look up the terms there...
Fatal Injury is:
Serious injury is an injury which:
So, by this part, this would not be considered as substantial damage, nor would it be considered a serious injury. So, while it would suck, it would not be considered an accident, and it would not require immediate notification.
OK, if that is what you say.
Why? Well, here is the question I was asked:
"We are flying out in west practice area. I ask you to do an off-airport-landing, and we get into a tight space. Just before touch down, the main rotor blade clips a pine-tree and disintegrates on impact. The cyclic shakes violently and breaks my pinky finger. What do we need to do?"
So, I start off explaining that this was an accident and we should begin following the rules set forth by NTSB830. Bla, bla, bla.
BZZZZZT!
Nope, wrong. Here is what it all means
An "Aircraft Accident" is an occurrence which causes "death of serious injury" and there is "substantial damage" to the aircraft.
Ok, so now we need to look up the terms there...
Fatal Injury is:
"Fatal injury means any injury which results in death within 30 days of the accident."
Serious injury is an injury which:
"Serious injury means any injury which: (1) requires hospitalization for more than 48 hours, commencing within 7 days from the date the injury was received; (2) results in a fracture of any bone (except simple fractures of fingers, toes, or nose); (3) causes severe hemorrhages, nerve, muscle, or tendon damage; (4) involves any internal organ; or (5) involves second or third degree burns, or any burns affecting more than 5 percent of the body surface."And substantial damage means:
"Substantial damage means damage or failure which adversely affects the structural strength, performance, or flight characteristics of the aircraft, and which would normally require major repair or replacement of the affected component. Engine failure or damage limited to an engine if only one engine fails or is damaged, bent fairings or cowling, dented skin, small punctured holes in the skin or fabric, ground damage to rotor or propeller blades, and damage to landing gear, wheels, tires, flaps, engine accessories, brakes, or wingtips are not considered substantial damage for the purpose of this part."
So, by this part, this would not be considered as substantial damage, nor would it be considered a serious injury. So, while it would suck, it would not be considered an accident, and it would not require immediate notification.
OK, if that is what you say.
Monday, May 19, 2008
Stage 2 Prep-Flights
Flight #: 067, 068
CFI: Kristie H.
Aircraft: Robinson R22 Beta II
Cumulative Time: 80.1hrs
I'm circling the runway on my Private Pilot : Rotorcraft : Helicopter license... so close. I've been doing a few flight here and there to make sure I pass the FAA Check Ride. Mostly working on the "tough" maneuvers like [straight-in, hover, 180-turning] autorotations. Supposedly this is the point where everyone needs work.
No doubt, I can get safely to the ground in an engine failure condition... I just need to make them perfect. My issue now is keeping the nose level and not over-speeding the main rotor.
What is an over-speed, you ask? Well. The main rotor is rated up to a certain RPM. Go below the limit (a rotor RPM below 80% plus 1% per 1000ft of altitude) and your main rotor will stall out. Meaning that you will not have the ability to get it spinning again to generate lift. This happens, you check-out.
If you go above the limit, 104% you get in to over-speed territory. An over-speed introduces increased stress on the bearings, joints, bolts, connectors, blades, etc... and since the rotor is what keeps you in the sky, you need to be very conscious of any excess of stress.
As my dad always says... "Be good to your boat-oar, and it will be good to you." Which I've adapted to "Be good to your main rotor, and it will be good to you."
Anyway, there are really two types of rotor over-speeds. Minor and major. A minor over-speed would be a rotor RPM of 105% to 110%. This would require squawking the ship, and having it inspected by a licensed mechanic. Over 110%, you replace the blades, rotor hub, and send the engine back to Robinson for a full rebuild. BAD NEWS.
All that being said... if you are ever in a real emergency, have an engine failure at altitude and need to bring the ship in for an emergency landing... rotor RPM is really not a concern. If you get the helicopter to the ground, and you can walk away... success. An over-speed is not an issue.
CFI: Kristie H.
Aircraft: Robinson R22 Beta II
Cumulative Time: 80.1hrs
I'm circling the runway on my Private Pilot : Rotorcraft : Helicopter license... so close. I've been doing a few flight here and there to make sure I pass the FAA Check Ride. Mostly working on the "tough" maneuvers like [straight-in, hover, 180-turning] autorotations. Supposedly this is the point where everyone needs work.
No doubt, I can get safely to the ground in an engine failure condition... I just need to make them perfect. My issue now is keeping the nose level and not over-speeding the main rotor.
What is an over-speed, you ask? Well. The main rotor is rated up to a certain RPM. Go below the limit (a rotor RPM below 80% plus 1% per 1000ft of altitude) and your main rotor will stall out. Meaning that you will not have the ability to get it spinning again to generate lift. This happens, you check-out.
If you go above the limit, 104% you get in to over-speed territory. An over-speed introduces increased stress on the bearings, joints, bolts, connectors, blades, etc... and since the rotor is what keeps you in the sky, you need to be very conscious of any excess of stress.
As my dad always says... "Be good to your boat-oar, and it will be good to you." Which I've adapted to "Be good to your main rotor, and it will be good to you."
Anyway, there are really two types of rotor over-speeds. Minor and major. A minor over-speed would be a rotor RPM of 105% to 110%. This would require squawking the ship, and having it inspected by a licensed mechanic. Over 110%, you replace the blades, rotor hub, and send the engine back to Robinson for a full rebuild. BAD NEWS.
All that being said... if you are ever in a real emergency, have an engine failure at altitude and need to bring the ship in for an emergency landing... rotor RPM is really not a concern. If you get the helicopter to the ground, and you can walk away... success. An over-speed is not an issue.
Wednesday, May 7, 2008
Off for a week to Maui...
Now that the written exam is under my belt... we're off for a bit of family vacation. Where? Maui. Oh, and look at that, they have an airport with helicopter operations.
Monday, May 5, 2008
Private Pilot : Rotorcraft : Helicopter : FAA Knowledge Exam
Friday, May 2, 2008
Smoked 'em!
Finished up my two HAI written exams today.
Stage 2 Written Exam: 90%
Final Exam: 96%
FAA Written Exam is on Monday. Then, away for a bit of a vacation - Maui for a week. Then, prep for my FAA Oral and FAA Checkride.
The end of my Private Pilot training is nearing an end... I can almost taste it.
Stage 2 Written Exam: 90%
Final Exam: 96%
FAA Written Exam is on Monday. Then, away for a bit of a vacation - Maui for a week. Then, prep for my FAA Oral and FAA Checkride.
The end of my Private Pilot training is nearing an end... I can almost taste it.
Subscribe to:
Posts (Atom)