night flight - Pilatus Owners and Pilots Association
Transcription
night flight - Pilatus Owners and Pilots Association
THE MOST DANGEROUS SITUATION, SLOW ONSET HYPOXIA PILATUS OWNERS AND PILOTS ASSOCIATION SPRING 2013 NIGHT FLIGHT One major difference between flying in the daytime and flying at night PLUS THE GREAT AMERICAN AIR SHOW STEPPING UP TO A PC-12 FLYING WITH A WOLF GET SMART ABOUT COCKPIT TRAFFIC Conflicting understanding of conflict situations Using General Aviation to make the world a better place W I N T E R 2 0 1 2 P OPA M AG A Z I N E 1 $500,000,000 worth of PC-12 Insurance Sold Worldwide and STILL CLIMBING It Matters Where You Buy Aviation Insurance As a PC-12 owner/operator, I share the same risk concerns as our clients with regard to their aviation insurance. All major aviation underwriters, including Global Aerospace, Phoenix Aviation Managers, Starr Aviation, Allianz Aviation, QBE Aviation and USAIG, maintain aviation underwriting facilities within minutes of our metro-Atlanta headquarters, which has allowed us to maintain close and productive working relationships with the best aviation underwriters in the business. Recognizing constant changes in the aviation insurance industry, we continue to focus on our clients’ needs today and anticipate their needs of the future. LANCE TOLAND ASSOCIATES AVIATION INSURANCE RISK MANAGEMENT WorldwideƫđƫEstablishedƫđƫEffective 770.329.7200ƫđƫwww.lancetoland.comƫđƫemail: [email protected] AIRCRAFT SALES & SERVICE Pilatus aircraft owners and pilots prefer the advantages of partnering with Tempus Aircraft Sales and Service: Unmatched industry expertise Outstanding customer service “Attention to Detail” philosophy governing everything we do Whether you’re looking for a trusted source for a new or used piston engine aircraft or turboprop, or you need a Factory Authorized Service Center to maintain your PC-12, Tempus Aircraft Sales and Service is here for you. Denver’s Centennial Airport &$POUSPM5PXFS3PBEt&OHMFXPPE$0 303.799.9999 1BMPNBS"JSQPSU3PBEt4VJUFt$BSMTCBE$" 760.931.9993 www.tempusaircraft.com CONTENTS PILATUS OWNERS AND PILOTS ASSOCIATION 4 I P OPA M AG A Z I N E I S P R I N G 2 0 1 3 • SPRING 2013 • VOLUME 16, ISSUE 1 12 18 36 50 DEPARTMENTS 6 FROM THE PRESIDENT 8 NEW & NOTABLE 11 ONBOARD LADIES CORNER 34 MIPAD This time around, we have a new app from a well-recognized name in avionics and major upgrades to a pair of popular electronic flight-bag apps for the iPad. BY JOHN D. RULEY 36 WEEKENDERS 46 ASK LANCE TOLAND Training to be the focus of 2013. BY LANCE TOLAND 48 SEND LESS TO THE IRS There are taxes to be saved and recovered BY HARRY DANIELS, CPA, CFP, PFS, CVA 54 TEST YOURSELF FEATURES 12 NIGHT IN THE FLIGHT LEVELS...AND BELOW There’s usually only one major difference between flying in the daytime and flying at night. BY BUD CORBIN 18 THE GREAT AMERICAN AIR SHOW Our unique way of enjoying aviation. BY LYN FREEMAN PHOTOGRAPHY BY PAUL BOWEN 22 STEPPING UP Transitioning to the PC-12 from a piston single. BY JOHN RULEY 28 GET SMARTER ABOUT TRAFFIC INFORMATION. “A collision at sea can ruin your day.” — Anonymous. BY PAUL K. SANCHEZ 42 SLOW- ONSET HYPOXIA A most dangerous scenario. BY DR. PAUL W. BUZA 50 FLYING WITH THE WOLVES Using an airplane to make the world a better place speaks to the heart of General Aviation. BY JACK LONG From the President D During the last quarter, Everett Clark, one of our advisers for the past three and a half years, decided to leave PlaneSense, where he served as director of operations, to follow his personal agenda. PlaneSense is the largest fractional PC-12 operator with more than 30 PC-12 aircraft. Everett has been a critical influence helping us transition from an organization tailored to the owner/pilot to one focusing equally on the professional pilot. In light of the shift of Pilatus PC-12 aircraft from owner-flown to pro pilot-flown aircraft, this transition has been important and effectively implemented. We are fortunate that Ray Torres, the new director of operations at PlaneSense, has joined POPA to replace Everett as an adviser representing the pro pilot. Ray is a retired Air Force colonel where he had extensive pilot and leadership billets including wing commander and safety officer experience. Ray has been with PlaneSense for the past four years as a PC12 captain and safety officer. POPA is very fortunate to have Ray’s experience as a pro pilot adviser. During the last week of January, Flight Safety started operating its PC-12NG level D full-motion simulator equipped with the Honeywell Primus Apex avionics suite. Joe Howley and I spent a day experiencing this new simulator and associated courseware. In a word, it’s amazing. This simulator is identical to flying an NG, as one should expect. The critical factor is that this simulator provides survival training so the pilot can experience conditions outside the normal comfortable flight envelope. Flight Safety will provide a number of training options including an 11-day initial and a five-day recurrent course. Pricing is approximately twice the alternative options with the benefit of more extensive adverse scenario training. Last quarter, POPA unveiled its new and improved website. This new website is more user friendly and contains more content focusing on the safety aspects of flying and maintaining the PC-12. 6 I P OPA M AG A Z I N E I S P R I N G 2 0 1 3 Also, Flight Safety has just announced its intention to build a second PC-12 simulator for the PC-12-47 (Series 10) aircraft that is scheduled to be operational in the second quarter of 2014. Last quarter, POPA unveiled its new and improved website. This new website is more user friendly and contains more content focusing on the safety aspects of flying and maintaining the PC-12. Also, we are instituting a Pilatus Pilot Proficiency Program which will give PC-12 pilots the opportunity to receive recognition for supplemental training. This program is intended to encourage all PC-12 pilots to strive for optimal competence throughout the year. Our agenda for POPA 17, our annual convention May 31- June 1 in Monterey, Calif., is in its final stages of completion and is shaping up to provide a plethora of appropriate and timely content. We look forward to seeing you there. “POPA … We Elevate the Pilatus Experience” SPRING 2013 VOLUME 15/ NUMBER 4 POPA BOARD EXECUTIVE DIRECTOR Laura Mason Phone: 520.299.7485 Fax: 520.844.6161 Cell: 520.907.6976 [email protected] PRESIDENT Pete Welles VICE PRESIDENT Joe Howley SECRETARY/TREASURER Brian Cleary BOARD MEMBERS Jack Long Dan Muller BOARD ADVISORS Ty Carter, Bob MacLean Ray Torres, Phil Winters Tom Aniello, Piotr “Pete” Wolak AJ PUBLICATIONS STAFF EDITOR-IN-CHIEF Lyn Freeman MANAGING EDITOR Michelle Carter SENIOR EDITOR Bill Cox ASSOCIATE EDITOR Hans Lubke EDITORIAL ASSISTANTS William Henrys CONTRIBUTING EDITORS Nina Harris, Paul Simington, Katrina Bradelaw, Paul Sanchez, Wayne Rash Jr. ART DIRECTOR Robbie Destocki PHOTOGRAPHY Paul Bowen, Mary Schwinn, James Lawrence, Lyn Freeman, Jodi Butler, Gregory L. Harris PUBLISHER Thierry Pouille ASSOCIATE PUBLISHER Sophie Pouille PRODUCTION MANAGER, U.S. Guillaume Fabry ADVERTISING SALES Thierry Pouille, +1 561.452.1225 AD SALES COORDINATOR Anais Pouille, 1+ 561.841.1551 CORPORATE OFFICES 1931 Commerce Lane, Suite 5 Jupiter, FL 33458 Telephone: 561.841.1551 Fax: 954.252.3935 FOR SUBSCRIPTIONS, REPRINTS, BACK ISSUES please log onto www.PilatusOwners.org CONTACT THE EDITOR: [email protected] CONTACT THE PUBLISHER: [email protected] ©2012 Pilatus Owners and Pilots Magazine is published quarterly. All rights reserved. Reproduction in any form without written permission from the publisher is prohibited. Please send comments to the attention of the publisher. PRINTED IN THE USA. S P R I N G 2 0 1 3 I P OPA M AG A Z I N E I 7 New Products IRIDIUM EXTREME SATELLITE PHONE Great for pilots who would like to use their Blackberry or iPhone to send email or text messages enroute, and the Iridium Extreme features clear voice calling no matter where you are on the planet! The Iridium Extreme also features a unique emergency feature — a button that when pressed sends your GPS position to emergency providers and lets you communicate with them as help arrives. The GPS position can also be sent in messages or emails, or your position can be displayed on an online map for your family and friends to track your progress. This package comes with a prepaid e-voucher for 500 minutes over a period of a year — a value of almost $750 in itself! This is state of the art for satellite communications. The short wait is back! You may have had a passing sigh of disappointment in 2008 when the Polaroid camera bit the dust and went the way of the carrier pigeon. Something was just so cool about snapping a picture and then literally watching it appear on the film. Proof positive that analog photography still has a place in the viewfinder, a company called Impossible manufactures brand new film for your Polaroid! And if you no long have your “instant” camera, these folks will happily sell you a “new” (aka refurbished) Polaroid. The new film has rich, saturated colors and frankly looks better than the old stuff we miss. For a whole bunch of info and a shot at Polaroidinvented photography, log onto The-Impossible-Project.com or call 212.219.3254. DUAL IS THE ONE The portable Dual XGPS170 ADS-B in receiver provides ADS-B weather and traffic broadcasts to a variety of compatible EFB apps (sold separately) for display on an Apple iPad, Android tablet or any other Bluetooth-enabled device. The little box receives and displays the FAA’s Traffic Information Service Broadcast, which is traffic information obtained from ATC radar and broadcast from ground radio stations. The XGPS170 can also receive ADS-B position reports directly from nearby aircraft operating on 978 MHz. Even more, that new Dual XGPS170 offers Flight Information Service-Broadcast (FIS-B) which provides information from the National Weather Service, including NEXRAD radar, as well as winds aloft, pilot reports and other valuable weather services. FIS-B also includes information on temporary flight restrictions and special use airspace. Find more at aviation retailers everywhere. 8 I P OPA M AG A Z I N E I S P R I N G 2 0 1 3 Break me if you can Grab a rugged, waterproof, shockproof, freeze-proof COOLPIX AW100 with 5x Zoom-NIKKOR ED glass lens and 16-MP CMOS sensor to record action photos and Full HD (1080p) movies. Life on the road deserves GPS + Electronic compass, so the COOLPIX AW100 has these too. Is there really any reason not to step up to his newest compact digital camera from Nikon? Find the details at NikonUSA.com. SPORTY’S BEST HANDHELD RADIO Introducing the all-new SP-400 from Sporty’s. It’s simply the most powerful portable radio you can buy — like having a complete standby radio stack in your flight bag. The SP-400 makes a reliable backup for emergency use, but it’s also perfect for listening to ATIS, getting clearances before engine start or just monitoring local traffic. The unit also has full VOR and ILS capabilities. THE POCKET PANEL WITH SOME ATTITUDE Dynon introduced one of the most talented attitude indicators in the business, the new D1 Pocket Panel portable instrument. The 3.5-inch x 3.25-inch box truly does fit in your pocket. And at a moment’s notice, the device will rely on its onboard EFIS, the same technology used in the rest of Dynon’s product inventory, to give you highly accurate attitude information. Additionally, a built-in GPS receiver offers ground speed and track (heading), GPS altitude and vertical speed, turn rate, slip/skid ball and a dimmable screen for night flight. With over four hours of lithium battery life, the D1 Pocket Panel also connects to the ship’s power via a DC electrical adaptor. Hard to beat this device’s many talents! Get all the information when you call or click on DynonAvionics.com or 425.402.0433. Get wired The new BatteryMINder can get rid of a ton of trouble for the certified airplane pilot. The new wiring-solution trailer plug is an aviation-grade polarized connector. Second, it enables a legal, certified airworthy installation of a fused-wiring harness with a mating plug to access the ship’s battery. Third, the BatteryMINder relocates the outputregulating temperature sensor, eliminating the need for its approval on the airframe. Hand the wiring kit to your A&P and, voila, you’ve got a quick disconnect/connect point that fully complements the product’s Plug-N-Play design. No FAA form 337 required. To order call 859.233.4599 or log onto AudioAuthority.com. 10 I P OPA M AG A Z I N E I S P R I N G 2 0 1 3 OnBoard LADIES CORNER GREAT READS FOR ON THE ROAD No One is Here Except All of Us by Ramona Ausubel An achingly lyrical tale of a Jewish village that chooses to reinvent its entire world to protect itself against the impending Nazi arrival. Ausubel’s novel is concerned with family history, communal memory and the power of the imagination and maintains an uncanny, sometimes troubling, aura of innocence throughout. Gone Girl by Gillian Flynn This tale of the aftermath of a woman gone missing will keep you up reading all night just so you can get to the very satisfying, very chilling ending. One of the most critically acclaimed suspense writers of our time, New York Times bestseller Gillian Flynn takes that statement to its darkest place in this can’t-put-it-down masterpiece about a marriage gone terribly, terribly wrong. The Yellow Birds by Kevin Powers A veteran of the Iraq war, Powers places that conflict at the center of his impressionistic first novel, about the connected but diverging fates of two young soldiers and the trouble one of them has readjusting to life at home. A young private and his platoon struggle through the war in Iraq but find no peace at home in this powerful and moving first novel about the frailty of man and the brutality of war. This is How You Lose Her by Junot Diaz The stories in this collection are about love, but they’re also about the undertow of family history and cultural mores, presented in Díaz’s exciting, irresistible and entertaining prose. Behind the Beautiful Forevers (Life, Death and Hope in a Mumbai Undercity) by Katherine Boo This extraordinary moral inquiry into life in an Indian slum shows the human costs exacted by a brutal social Darwinism. This National Book Award-winning study of life in Annawadi, a Mumbai slum, is marked by reporting so rigorous it recalls the muckrakers, and characters so rich they evoke Dickens. The slum dwellers have a skillful and empathetic chronicler in Boo, who depicts them in all their humanity and ruthless, resourceful glory. The Casual Vacancy by J.K. Rowling The town of Pagford appears to be an English idyll, with a cobbled market square and an ancient abbey, but what lies behind the pretty facade is a town at war. Rich at war with the poor, teenagers at war with their parents, wives at war with their husbands, teachers at war with their pupils..Pagford is not what it first seems. S P R I N G 2 0 1 3 I P OPA M AG A Z I N E I 11 F L Y I N G A T N I G H T NIGHT IN T LEVELS...AN The Cessna 425 Conquest 1 below and around me hums reassuringly in the frigid night sky above northeastern Canada. Somewhere down there, in fact, practically everywhere down there, residents of the Maritime Provinces hunker down in their houses against the onslaught of winter, minus 20 degrees C in skies as clear as Chablis. Here at FL270, OAT is a frigid minus 37 C, but I’m warm and comfortable in the cockpit of “my” Cessna twin, racing toward St. Johns, Newfoundland, at five nm a minute. This will be my first international stop on a seven-day, 10,000-nm trip from San Diego, Calif., to Johannesburg, South Africa. On the panel before me, some 35 instruments glow red, impassively informing me that I’m transiting Canada at 27,020 feet, turning 1800 rpm and pulling 920 pounds of torque from each of the Pratt & Whitney, PT-6A turbines. Fuel is flowing at 202 pounds/engine/ hr, and both ITTs are steady below 660 degrees C. According to the GPS, I’m only about an hour-and-a-half out from St. Johns, gaining on land’s end at 305 knots with help from an obliging jet stream-assisted tailwind. 12 I P OPA M AG A Z I N E I S P R I N G 2 0 1 3 HE FLIGHT ND BELOW THERE’S USUALLY ONLY ONE MAJOR DIFFERENCE BETWEEN FLYING IN THE DAYTIME AND FLYING AT NIGHT. QBy Bud Corbin S P R I N G 2 0 1 3 I P OPA M AG A Z I N E I 13 Night in the Flight Levels… and Below Night flying behind one or two turbines has always held a certain easily definable attraction not shared with piston aircraft. Not only is it smoother and quieter, there’s the psychological encouragement of turbine reliability, all the more reassuring when the airplane is wrapped in moonless black sky and it’s flying over inhospitable terrain. Like most pilots who’ve been tasked with night flying in a turbine single or a piston twin, I’ll take the turbine every time. Unfortunately, people do buy airplanes in winter as often as in summer. (“No, sir, I don’t deliver across the Atlantic in January. If you’re willing to wait for May or June…” “Click.”) One of the realities of delivering airplanes to Europe in winter is that, by definition, most of your flying is in the dark of day as well as the dark of night. I’ve been fortunate to deliver a dozen single-engine jet props across the Atlantic, and they’ve all been good rides. Flying in the dark actually has a few advantages over daytime aviating. Traffic is often easier to spot at night; radio chatter is usually limited; the alternating green and white beacons of airports are readily identifiable; and the runways are less congested. With the sun long since rolled beneath the horizon, there is no glare to worry about. The sky is usually smoother, and visibility both inside and outside the cockpit is better. Instrument scanning is easier and, though ground detail may be less visible, well-lit airports and towns tend to stand out at night rather than fading into the haze of daylight. Conversely, fatigue is more prevalent after the sun has gone to bed, and the monotonous hum of the engine is more sleep-inducing. 14 I P OPA M AG A Z I N E I S P R I N G 2 0 1 3 Clouds and generic weather most often become invisible in the dark, and judging pattern altitude and flare height is more difficult without daylight’s convenient visual cues. Since there’s less to see at night, most pilots don’t fly in the late PM on a regular basis unless they’re being paid to do it or are on business, so the majority of aviators manifest less proficiency when the sun goes down. Weather can be more often a factor at night, even if it’s usually more benign, because pilots tend not to fear what they can’t see. During the day, we’re all smarter than to fly straight into the side of a thunder-bumper, but at night, that can happen unless you receive a good weather briefing and avoid such stupid pilot tricks by finding another route or taking a bus. Perhaps surprisingly, the U.S. makes no licensing distinction between day and night flight. In apparent recognition of the heightened risk, other countries have the equivalent of night ratings. Canada is one, and many countries restrict night flying to IFR only. That’s only logical as night flying truly is instrument flight, most often relying on some form of radio navigation. Pilotage becomes difficult in the dark when you have a hard time seeing the landmarks that may be so prominent in daytime. Dead reckoning also may be ill-advised because of the invisible effects of wind drift. No matter where you fly, three reasonable accommodations at night are to fly higher, plan for greater fuel reserve and route yourself to stay closer to airports. Turboprops have a natural advantage in all three areas. By their very nature, turbine engines must fly high to realize reasonable fuel economy and perfor- mance, and the absence of daylight makes even higher altitudes reasonable. All three of the pressurized, production turboprops can reach FL300 (when properly RVSM equipped), and that provides an edge if the flame goes out. Additionally, the P&W PT-6As do their best work in the rarified air up high. Similarly, jet props typically are fitted with high aspect-ratio wings that provide excellent glide characteristics, the better to reach an airport in the unlikely event that something does fail. Most piston aircraft enjoy an L/D of about 8:1, but turboprops often score 10:1 or better. That means a glide from 5.5 miles high to near sea level would make available some 540 square miles of landing choices. Flight planning to include more airports below may not seem as important with the reliability of a turbine out front, but you’d be surprised at how little distance you add by flying a slight zig-zag course to remain within gliding distance of airports rather than just file IFR GPS-direct. ATC is less likely to have an objection to what appear to be meandering flight plans at night because traffic is so much lighter and there’s less chance of conflict. No matter what type of aircraft I’m flying at night, I always keep one of my two GPSs on the nearest airport page, providing an instant reference to landing sites in the order of their proximity. Yes, if you’re above FL180 when things become quiet, you can always ask for help from the controller, but my friendly Garmin automatically keeps me aware of the best landing sites. Traditional wisdom suggests it costs fuel to haul fuel you don’t need, but it only makes Night in the Flight Levels… and Below sense to fly with extra reserve at night to provide options you might not otherwise enjoy. Keep in mind if you’re forced to land short of your destination for any reason, you may not always be able to buy fuel at an unexpected stop late at night, so it’s only good planning to carry more than you need. By now, every pilot knows about the feud between the eye’s rods and cones. Rods are in the center of the eye and are less sensitive to light than the cones, clustered around the outer edge of the eye. The cones contribute primarily to peripheral vision at night, but since they’re more sensitive, the standard trick is to avoid looking directly at where you think a light should be, but rather look off-center and let the cones pick up the weak light. As you approach the destination, the rods will begin to register the light. It’s inconceivable that any pilot could plan a night flight without at least two flashlights, but one item some pilots forget is a camp light. This straps to your forehead and points anywhere you’re looking. I carry one on every flight, day or night, in case I need to look under a panel, inside a cowling or some other dark place. Mine is a Coleman, and it’s 16 I P OPA M AG A Z I N E I S P R I N G 2 0 1 3 cleverly fitted with white and red LEDs, as if designed specifically for a pilot. It’s always more critical to update your altimeter setting frequently at night, especially when you’re entering a pattern. Turboprops will nearly always have at least three altimeter settings; point of departure, 29.92 above 18,000 feet and destination. ATIS, ASOS or AWOS recordings can provide you with a current altimeter, or you can secure the same information from a nearby airport. If standardized patterns are important during daylight, they’re absolutely essential at night. Conventional patterns should be the rule, and straight-ins are definite no-nos. No matter how long the runway, I try to keep my patterns tight in the dark, flying slightly higher than normal. I didn’t have the benefit of Navy aircraft carrier landing training so I fly a fairly religious rectangular pattern starting at 1,000 feet or more, descending only after turning base and final. Inexplicably, some instructors teach that you should begin descent on downwind while flying AWAY from the airport. Personally, that sounds counter-intuitive, but it’s especially so at night. I don’t start the descent until after I turn base, 90 degrees from the runway. I also use the same approach speed as during daylight, trying to maintain a constant number all the way through the approach. Most pilots use a landing light for its named purpose, but some instructors recommend leaving the light off, at least some of the time. The landing light tends to focus the pilot’s attention on what is directly in front of the airplane and sometimes results in a premature flare. Just as with helicopter pilots who are instructed always to focus on the horizon during a landing, lowering the helicopter slowly to the skids, many instructors recommend night fixed-wing landings be made by focusing on the convergence of runway lights at the end of the runway rather than the overexposed pool of light directly ahead. Single-engine turbines such as the Pilatus PC-12, TBM-850 and Piper Meridian have the benefit of reliability that piston twins can’t even approach, and that gives the turbines an edge. It’s important to remember, however, that night flight in any airplane has one distinct disadvantage compared to daylight operation. It’s dark. Which of these would you prefer? Every time you use your aircraft, you are reminded that fuel is your highest variable operating cost. Do you feel you are getting the price you deserve? Don’t you deserve more than just posted rates? Working closely with POPA, we have developed a program that offers its members exclusive benefits that include guaranteed special pricing with no minimal uplifts, card fees, or admin fees on third-party charges in the U.S. As a member, you will have 24/7 access to expert assistance, fuel estimates worldwide, and discounts on other trip support services offered by Universal Weather and Aviation, Inc. It’s all part of our shared purpose: the success of your trip. Start getting more today! Call or go online to apply: uvair.com/popa. N. America (866) 864-8404 Worldwide (713) 378-2708 uvair.com AMERICAN AIRSHOW HISTORY THE GREAT AMERICAN AIR SHOW The Great American Air Show Deck: Our unique way of enjoying aviation By Lyn Freeman OUR UNIQUE WAY OF ENJOYING AVIATION. QBy Lyn Freeman QPhotography by Paul Bowen It’s hard to imagine a world in which no one had ever seen an airplane before, but that was exactly the world into which the Wright brothers launched a 12-second fewer than 100 years ago. While the event occurred on the sand dunes of Kitty Hawk, N.C., the impact of their accomplishment quickly spread around the world. In Europe. flying was immediately the domain of science, initiating classical studies of lift, aerodynamics, performance and endurance. But in the United States, the advent of powered flight was received in way that was peculiarly American. The marvel of flying raced through American culture with epidemic excitement. It was the beginning of the Great American Air Show. Almost from the outset, Americans couldn’t get enough of aviation. Black and white silent films like The Air Ship Fugitives and The Air Pilot played to standing-room-only houses. In 1910, the runaway best selling novel was Come, Josephine, in My Flying Machine. Americans were hungry to see something it had never seen before — those amazing men and their flying machines. The city of Baltimore offered $5,000 to the first “lunatic” who would fly an airplane across their city. Like believers centuries before who clung to the idea that the world was flat, it was a time when many people didn’t believe that flying was possible. So, the sight of even the simplest aircraft flying overhead was nothing short of a miracle. 18 I P OPA M AG A Z I N E I S P R I N G 2 0 1 3 S P R I N G 2 0 1 3 I P OPA M AG A Z I N E I 19 Great American Air Show ALSO IN THE LIFE OF A BARNSTORMER + Barnstormers frequently added mothballs to their gasoline, believing it would improve performance. + Airplanes used automobile gas, which was filtered through a chamois to remove water. + Barnstormers were frequently shot at as they flew. During prohibition, many people believed the “revenuers” were using airplanes to scout for moonshine. Not only was there no shortage of enthusiasm for the new phenomenon, there was also no shortage of men and women who fancied themselves as pilots. After all, there were no pilot’s licenses then, and many wanna-be’s merely taught themselves how to fly. The most daunting task was not flying itself, but getting your hands on an airplane. And once you got one, you had to find a way to make a living. The answer was barnstorming, a word which originally described traveling plays or political speeches (frequently taking place in a barn) but was quickly adapted to describe the “gypsy pilots” who traveled the country putting on shows and offering airplane rides. This was the beginning of the great American air show. This sudden onslaught of flyers was fueled by the American public’s absolute fascination with aviation. Even in the early days, it was not uncommon for 30,000 to 50,000 people to turn out to watch an exhibition of flying skills. For many, it was a first glance at powered flight, and it would change their world forever. At one such “exhibition” in Los Angeles, a young Amelia Earhart was so awestruck, she begged her father to buy her an airplane ride. Other names associated with these early aviators are surprisingly familiar. Like the Stinsons — Marjorie, Eddie, John, and Katherine, who in 1912 at age 17 became the country’s youngest female flyer. The next spring she would begin a barnstorming tour through Louisiana, Texas, North Dakota, Montana, Michigan, Missouri and Coney Island, N.Y. She took along her older brother Eddie as mechanic, a job for 20 I P OPA M AG A Z I N E I S P R I N G 2 0 1 3 which she compensated him by teaching him to fly. Katherine gave up the air show circuit when she married at age 25, but Eddie Stinson continued the family tradition, barnstorming across the country and eventually beginning to sell the airplanes which still bare his name. The greatest boost for the barnstorming phenomenon came the end of the First World War. Glenn Curtis, who had spent his time dreaming of using the new-fangled gasoline-combustion engine to build motorcycles, found himself in a front row seat to build airplanes for the United States military. His JN4-D, later nicknamed the Jenny, cost the Army $5,000. But after the war, the wood and canvas bi-planes were resold to the public for as little as $200. It was just what aviation needed to explode. By the 1920s. nearly 600 barnstormers crisscrossed America at any one time, and aviation was getting big enough to spawn the first non-cockpit jobs. After buzzing the town and turning final to land in a farmer’s field, the flyers were nearly always greeted by a host of young awestruck enthusiasts willing to do anything to be near aviation. Sound familiar? Frequently a local boy was hired to sleep near the airplanes and guard it. Small rodents looked at the aircraft as wonderful new nesting territory, and cows apparently loved the glue (dope) that held the planes together. Unattended airplanes could actually be damaged by a nighttime of serious licking. Job descriptions also included keeping the airplanes clean from the cow manure the props tossed up, and one young man is actually known to have agreed to become a wing walker and parachute jumper. When he had saved enough money, he bought his own Jenny. His name was Charles Lindbergh. Barnstorming was not the only offshoot of aviation that led to the modern American air show. Contests and challenges were established to attract these barnstorming pilots. In 1920 alone, $2 million in prize money was offered for a variety of aerial feats, among them a $25,000 reward for the first flight from New York to Paris. After a series of attempts to cross the pond ended with airplanes falling into the Atlantic, Asa Redman, a 1920s barnstormer, shrugged off the critics with a statement typical of the barnstormers laissez-faire: “The ocean isn’t half full of aviators yet.” It would be seven more years until barnstormer Charles Lindbergh would trade his Jenny for a Ryan and collect the prize. Air racing was another lucrative variation that drew in a huge number of pilots. One, the colorful Col. Roscoe Turner, who had dazzled the crowds with his Falling a Mile in Flames stunt, left barnstorming to take a shot at the unimaginable cash prizes air racing put on the table. Though a first-place finish proved illusive to many, the pure adrenaline of air racing was enough. Fred Crawford, who worked with Turner said, “It’s 10 o’clock in the morning and the process server arrives at the airport to seize Roscoe Turner’s plane for debt. The boys service his plane out of sight, and he flies the race and wins it and has the money to pay off his debts. Now that’s how we financed aviation.” One racer described the competition as saying, “Air racing may not be better than your wedding night, but it’s better than the second night.” It was in the 1920s and ‘30s that barnstorming, contests and air racing began to show the first signs of what we now consider an air show. As the novelty of flight became more commonplace, traveling barnstormers banded together to enhance the variety of showmanship. Flying circuses were now the rage. Pilots arrived in colorful flying suits or whipcord breeches, waxed mustaches and high-top riding boots, offset by leather helmets, long flowing scarves and goggles. They looked exactly like the American public thought pilots should look. In the spirit of the circus-like atmosphere, pilots often thought of themselves as “performers,” with air-show posters and handouts boasting of appearances by Diavalo, Supreme Daredevil of the Air, Upside Down Pangborn and the Flying Witch. Barkers encouraged the crowd to buy a ticket and come inside, watch the show, and take your first airplane ride. “We will take you high or low, fast or slow, any way you care to go. Fly over your house. See who’s visiting your wife! We have special flights for mother-in-laws.” The advertising delivered what it promised, airplanes and flying. In 1927, the Gates Flying Circus sold 100,000 airplanes rides to first-time flyers, and in the decade of 1920-1930, it is estimated more than 10 million people took their first airplane rides with barnstormers. As competition for the air show-audience grew, so did the complexity of the stunts. Eddie Angel of the Angels’ Flying Circus, specialized in the Dive of Death, jumping out of airplane after dark with a flash light and not opening his parachute until he could see the ground. Cliff Rose of the Cliff Rose Death Angels wore batman wings and performed loops and spirals during a parachute free fall. Gladys Ingle shot arrows at a target while standing on the top wing of a Jenny and later perfected jumping from the wing of one plane to another in the air. Walter Hunter of Oklahoma’s Hunter Brothers Flying Circus used to drop from airplanes onto haystacks, without wearing a parachute at all. LISA PARDUE, A MODERN AIR SHOW PERFORMER, OFFERS THESE TIPS ABOUT WING-WALKING: 1. Don’t. 2. If you do, use a bi-plane. 3. Make sure the pilot is capable of flying a person on a wing. If you’re not sure, refer to the first item. 4. Prepare yourself. Your next 50 wingwalks will not be like the first. You are not likely to “get used to it.” 5. Do not practice in weather below 75˚ 6. Do not expect to get rich. 7. Do expect constant and multiple bruises and to be pelted with bugs. 8. Realize that you are about to do something almost no one else wants to do — and for good reason! It’s no surprise that a fair number of these early aviators died with their boots on. Ormer Leslie Locklear’s name was nearly a household word and was universally acknowledged as the best wing-walker in the world — until he fell. Lincoln Beachey, who would touch down and take off from inside a building, was also the first aviator in the U.S. to loop an airplane, an accomplishment he repeated more than 1,000 times — until he pealed his airplane’s wings off in front of 50,000 people in San Francisco. Harriet Quimby, the first American aviatrix, was killed when she and her passenger fell out of an airplane during an exhibition over Boston. But the flying circuses were not be discouraged. Reacting to the fact that morbid curiosity would draw a crowd, promoters would sometimes hire an ambulance to race onto the field with its lights and sirens blaring. Another popular stunt was to se send an airplane up with a human dummyy in tthe cockpit. The aircraft would perform a loop, and suddenly a body would fall out and tumble all the way to earth. But as the Roaring ‘20s came to a close, the popular image of the daredevil pilots gave rise to a grumbling discontent. The airplane shifted from an “unbelievable marvel” to a “fool killer.” In 1926, Congress passed the Air Commerce Act, placing the idea of pilot licenses and aircraft under the more stringent control of the federal government. Soon to follow were regulations restricting wingwalking at or above 1500 feet (so high that nobody could see it), and participants were required to wear parachutes. Legislation also required fencing to restrain the crowd at air shows, and insurance premiums skyrocketed. While the days of the rag-tag barnstormer were coming to an end, the impact these early flyers made is alive and well. An estimated 20 million people attend air shows throughout North America each year. In fact, air shows are the second most attended spectator sport in the U.S., succumbing only to baseball. Six-time national aerobatics champion Patty Wagstaff acknowledges the tremendous debt the air show owes to its earliest performers. “Many of the maneuvers I perform at air shows were originally explored and perfected by those early pioneers of aviation. All of us, from the grandstands to the flight line, owe them all a tremendous debt.” If nothing else, the barnstormers introduced aviation to America. Their romance and infectious enthusiasm for flying undoubtedly set the stage for the public’s grassroots acceptance of the airplane, leading to any number of applications, from air mail to air transportation. When aviation pioneer Leonard Brooke Hyde-Pearson died in a plane crash, he had left a letter to be opened on the event of his death. He left these thoughts to his fellow pilots, “When we fly, we are fools, they say. When we are dead, we weren’t half-bad fellows. But every one in this aviation service is doing the world far more good than the public can appreciate. We risk our necks; we give our lives; we perfect a service for the benefit of the world at large. They, mind you, are the ones who call us fools. But stick to it, boys. I’m still very much with you.” S P R I N G 2 0 1 3 I P OPA M AG A Z I N E I 21 T E S T F L I G H T STEPPING L TRANSITIONING TO THE PC-12 FROM A PISTON SINGLE. QBy John Ruley UP Last fall, my long-time flight instructor Larry Askew asked if he could have a word with me. It’s been hard to get on his schedule lately, as he’s now spending more than half his time as a one-man corporate flight department in charge of N846PW, a PC-12/47. We stepped outside the local flight school for privacy, and Larry told me that he had an unusually long flight coming up: A hunting trip that would involve flying from Modesto, Calif., (KMOD) to Stevens Point, Wis., (KSTE), with stops at Sandpoint, Idaho, (KSZT) and Bismark, N.D., (KBIS) — total flying time about 6.5 hours each way. Add in unpredictable fall weather and he’d decided that taking along a co-pilot might be a good idea. He’d talked this over with the aircraft owner, who agreed, provided Larry could come up with a pilot willing to fly for free. I was flattered that he thought of me. As it turns out, I wasn’t able to make that long flight with him because of family medical issues. (Larry took a a former Part 135 pilot with experience in turbines and Midwest winter flying instead.) But I did prep work and have now logged several hours in N846PW on a number of shorter flights. It has been a tremendous learning experience. I should mention that Larry offered me this opportunity in part because he knew I, as an aviation writer, couldn’t resist. And because I’m an instrument-rated pilot with a fair amount of experience in a variety of airplanes, more than 1,000 hours, mainly in piston singles but also some dual in twins. I also have a lot of cross-country experience and attended high-altitude training (including time in a hypobaric chamber) at Beale Air Force Base a few years back. 22 I P OPA M AG A Z I NE I S P R I N G 2 0 1 3 S P R I N G 2 0 1 3 I P OPA M AG A Z I N E I 23 Stepping Up I assumed I’d only be able to log dual time in the PC-12 as a student under Larry’s supervision but was surprised (and delighted) to learn that I could actually log time as PIC. Since the PC-12 weighs less than 12,500 pounds and has a propeller, a type rating is not required. My instrument rating qualified me for operations in Class-A airspace, above FL180. But one catch tripped both of us up: Despite my high-altitude training, I did not have the endorsement required for operations in airplanes capable of flight above FL250. As a result, my first flights in the PC-12 were logged as student dual under instruction and, after reviewing the appropriate FARs and high-altitude operational considerations (see FAA Advisory Circular 61-107A), Larry added a high-alttitude endorsement to my log book. Since then, I’ve been able to log PIC time whenever I’ve had the controls. BIG BOOKS The PC-12 has by far the largest POH I’ve ever seen, bigger than those for the twins I’ve trained in. Larry also loaned me the books from SimCom’s initial training course. The sheer volume of material looked overwhelming, which I confessed to Larry in an email. His response is worth quoting: “I know what you’re going through — a combination of ‘lemme at it’ and ‘Lordy, what have I gotten myself into?’ Just take it slow and remember to breathe!” That was good advice. Self-study wasn’t a substitute for classroom (and simulator) training given by experts, but by the time I got in the airplane (on the ground, with external power available) I wasn’t quite so overwhelmed. Here are some things that stood out to me as different from my past experience. The idea of following the checklist has been drummed into me from my first flying lesson and, while Larry has always recommended memorizing some of the key things for emergency use, that was never an excuse for not following the printed checklist. So imagine my surprise when he started with a memorized “flow” beginning with the pilot-side circuit breakers, working his way around both sides of the panel and the center console, and eventually resulting in an engine start. I was already familiar with turbine-engine theory, but had no past experience operating one. Once started (with one hand guarding the condition lever and a wary eye watching out for runaway engine temperature) the PT-6 is actually easier to use than most 24 I P OPA M AG A Z I NE I SS PP RR II NN GG 22 00 11 33 high-performance piston engines, offering single-lever power control and the blessing of a reversible pitch prop (beta range). I had not realized that reverse can be used on the ground while taxiing. It’s an amazingly useful feature that I got used to very quickly. Cabin pressurization is something I’d learned quite a bit about during my highaltitude training course, so I understood the theory, and the PC-12’s system running in normal mode is nearly automatic, only requiring you to set your target altitude before climbing or descending. The quickly donned masks on the flight deck were, of course, a new experience. As an instrument-rated pilot who regularly operates in Class-B airspace, I was already comfortable with ATC procedures, and that made me a useful member of the flight crew on my very first flight. I handled the radios and observed Larry doing the flying from Modesto to Medford, Ore., (KMFR). The following day, I did the flying while he ran the radios for me. That’s consistent from what I’d read in a book called The Turbine Pilot’s Flight Guide, which detailed the respective roles of Pilot Flying (PF) and Pilot Not Flying (PNF), and provided some suggestions about how to use flow and checklist together effectively with a challenge-response approach. The PC-12 is, of course, a T-tail airplane. I’ve had experience in T-tail pistons, so wasn’t surprised by the need to pull a bit in order to rotate. All the extra buttons on the yoke were confusing at first, and trying to do the pusher override test from the right seat isn’t a simple exercise. Once in the air, the PC-12 feels to me like a bigger, betterclimbing version of a retractable piston single. The flight procedures are generally quite similar, at least until you hit the flight levels and reset the altimeter to 29.92. Flight planning and navigation — at least on the flights I’ve taken so far — have been simpler than I expected. Larry generally files GPS direct (either to the destination airport or to the initial approach fix for an instrument procedure) and is usually either cleared as filed or given an additional fix on departure. He selects a cruise altitude based on winds, but generally will opt to go high unless the flight is very short because performance in this class of airplane improves with altitude. Descents take some planning. Larry has the Garmin GNS 530W in N846PW set up with a VNAV profile that alerts us when a 1000 FPM descent is required. At that point, he starts preparing and, if ATC hasn’t cleared us down by the time 1500 FPM is needed, then he calls them. Fortunately, there’s no risk of shock-cooling the PT-6, so once cleared down, you can pretty much set as fast a descent rate as you want, and just pull back enough power to keep the airspeed below barber pole (or redline as you reach denser air). Barber pole is just one of several things in the panel that were new to me (and would probably be new to most single-engine piston pilots). I’ve flown other airplanes with flight directors and horizontal situation indicators (HSIs), but the PC-12 is my first with an attitude and direction indicator that adds angle-of-attack and (on a preci- ew es N ur at Fe Listen. “The Whisper Prop” 5-Bladed PC-12 Propeller Key Advantages: New Nickel Option Includes: s3IGNIlCANTNOISEREDUCTIONnINSIDEANDOUT s2EDUCEDGROUNDROLLDISTANCE s)MPROVEDCLIMBPERFORMANCE s6IBRATIONFREEPROPnREDUCESFATIGUE s3CIMITARLIGHTWEIGHTNATURALCOMPOSITEBLADE s0RECISION'ERMANDESIGNANDENGINEERING s&!!AND%!3!CERTIlCATION s.ICKELWIDECORDLEADINGEDGE s)MPROVEDBOOTSmUSHMOUNTED PROVIDINGBETTERAIRFOILEFlCIENCY s"LACKCOLORISSTANDARD s)MPROVEDCRUISEPERFORMANCE Newn3PINNERINPOLISHEDALUMINUM !VAILABLEASNOCOSTOPTION Contact Chris Finnoff at +1.303.444.0552 or chris@finnoff.com WWWMTPROPELLERCOMsWWWlNNOFFCOM American Distributor for the PC-12 MT Propeller Stepping Up sion approach) graphical runway depiction. And the electric HSI, which can be set in arc mode and can overlay the radar, goes well beyond what’s in the panel on the old Cessna Skylane that I usually fly. I’ve been impressed with Larry’s ability to pull off impossible-looking short approaches. It’s not unusual to find ourselves five miles from the airport and still 3,000 feet above ground, usually because ATC has assumed we’re going to perform an instrument approach or is vectoring us for downwind. If visibility is good and winds are light, Larry will ask the tower for a straight-in to the runway in the direction we’re headed and, most of the time, he gets cleared for it. That can require a steep turn or two with a big rate of descent, but gets us on the ground as quickly as possible without compromising safety. However steep the descent once it’s stabilized on the approach, the PC-12 is a surprisingly easy airplane to land. Before our first flight together, Larry told me that the trailing-link gear makes him look good, and I agree. My very first landing in the airplane was a greaser. Once all three wheels are down and the flaps are up, a pull on the power lever back into beta does an amazing job slowing the airplane down while saving the brakes. I am very glad that my first three flights in the airplane (all between Modesto and Medford) were long enough to provide a reasonable amount of time in cruise. After takeoff, the inevitable ATC vectors and hand-offs, getting to the flight levels and setting cruise power, it’s nice to have a break for awhile. The PC-12 was the first airplane I’ve flown with flight-into-known-icing certification. I’ve had two encounters with ice (light, fortunately) in piston singles that gave me a healthy respect for the danger this involves. The PC-12’s capabilities make winter flying a much less risky undertaking though, of course, they are not a license to fly into heavy ice and just sit there. As I write, Larry and I just completed a short flight (less than an hour in the air) from Modesto to Sacramento, Calif. (KSAC), and back. This was anything but a relaxing experience, despite unexpectedly clear weather that allowed us to cancel our IFR flight plan and proceed VFR. The short distance kept us at relatively low cruise altitudes, 12,500 feet out and 11,500 back, but we stayed at those altitudes for only a few minutes. The rest of the time was spent climbing or descending and dealing with highly congested ATC frequencies. After sending our passengers on their way, Larry told me, “I need some time to decompress!” There’s a lot more I could mention: learning to use the flight director and advanced autopilot features like airspeed hold and control-wheel steering, dealing with external power, ground handling (this certainly isn’t an airplane you can just man-handle around by yourself!) and, of course, the amazingly clever ways the Swiss designers set up the airplane to make a pre-flight walk-around both easy and thorough. I wish most of the piston airplanes I’ve flown allowed as good a routine look at the engine and critical systems! Larry’s been kind enough to tell me that I’ve been of help on some of these flights. An extra pair of eyes to look for traffic and a second experienced pilot to handle radios or give the pilot a break can be very handy. He also tells me that he’s learned quite a bit in the process of mentoring me. (We are both still trying to figure out the on-board radar.) Working out the roles of pilot and co-pilot has been a learning experience for Larry and for the various pilots who’ve flown right seat with him. If you’ve read this far and own and/or fly a PC-12, I’d like to make a suggestion: Offer the right seat to some of the pilots you know. It will be a pleasant adventure and learning experience for both of you! John D. Ruley is an instrument-rated pilot and freelance writer based in central California. He’s a volunteer pilot with www.ligainternational.org, which operates medical missions in northwest Mexico and with Angel Flight West, which provides free transport for medical patients. You can reach him by email to [email protected]. 26 I P OPA M AG A Z I N E I S P R I N G 2 0 1 3 what pilots see when they dream. Step into an entirely larger world of possibilities with the Pilatus PC-12 NG $VSLORWVZHGUHDPDERXW\LQJDQ\WLPHZHDUHDZD\IURPWKHFRFNSLW7R\IDUWKHUIDVWHUDQGSRSLQDQGRXWRIUHPRWHODQGLQJ VWULSV7REULQJIDPLO\DQGIULHQGVWRQHZGHVWLQDWLRQVKLGGHQIURPWKHPDLQVWUHDP2QHDLUFUDIWVWDQGVDORQHLQLWVDELOLW\WRPDNH WKRVHGUHDPVFRPHWUXH¢WKH3LODWXV3&1*:LWKLWVOHJHQGDU\6ZLVVFUDIWVPDQVKLSVXSUHPHO\VSDFLRXVFDELQRXWVWDQGLQJ HI¬FLHQF\DQGKDQGOLQJHDVHLW§VQRZRQGHUWKH3&1*LVWKHFKRLFHRISLORWVVWHSSLQJXSWRWXUELQHSRZHU&DOOWRGD\WR¬QG RXWKRZWKH3LODWXV3&1*FDQKHOSWXUQ\RXUGUHDPVLQWRUHDOLW\ Call 1.800.PILATUS | PC-12RightNow.com 28 I P OPA M AG A Z I N E I S P R I N G 2 0 1 3 T R A F F I CS C IN EF NO A RR M I OA T T IEOSNT GET SMARTER ABOUT TRAFFIC INFORMATION “A COLLISION AT SEA CAN RUIN YOUR DAY.” — ANONYMOUS. QBy Paul K. Sanchez Something that all of us have is a fear of conflict. The conflict, of course, is where one or more aircraft have failed to “see-and-avoid,” and we end up with a “near-mid-air” or, unfortunately, a “not-so-near-mid-air” collision. Admittedly such collisions do not happen very often, but it is not likely that many of the people involved walk away. So each time we are in the air, we have an equal responsibility to safely avoid other aircraft, but does that diminish our fears that the other pilot is keeping to his responsibilities? And can we recognize his/ her (or our) mistake before it becomes both our permanent problem? INSTRUMENT FLIGHT RULES VERSUS VISUALLY SEEING OTHERS An IFR clearance will never guarantee separation from all other aircraft. It will guarantee separation from another IFR aircraft (usually three miles horizontally or 1,000 feet in most TRACONs) but, when both IFR aircraft are in visual conditions, the responsibility for both pilots is still to “see-and-avoid.” Now what happens if one aircraft is in the clouds (on an IFR clearance) while the second aircraft is 500 feet below the clouds. Is that sufficient for “seeand-avoid” even though neither one can see the other? What happens if the IFR aircraft is instructed to descend through the clouds to a lower altitude? Will the 15 seconds of visual conditions be enough to visually acquire the conflicting situation? SECTORS OF RESPONSIBILITY Let’s start off with some understanding of right-of-way rules in aviation. Like everything else in aviation, the rules we have today were used on the water first for many hundreds of years beforehand. What is different in aviation is S P R I N G 2 0 1 3 I P OPA M AG A Z I N E I 29 Traffic the closure rate. On the port-side of an aircraft is the red navigation light which has a viewable area of 120 degrees from the nose to the rear. Inconveniently, that is where the pilot-in-command sits most of the time in airplanes. Any airplane in that is in that 120-degree red sector and can see your red navigation light has to yield to you because he literally has a red light looking at him. The pilot can’t stop in the air but he can certainly alter his track or altitude so that he can maintain a safe distance from you. In fact under FAR 91.113 (b) says: “…When a rule of this section gives another aircraft the right-of-way, the pilot shall give way to that aircraft and may not pass over, under, or ahead of it unless well clear.” So it appears that most airplane pilots are sitting on the side of the aircraft (port-side 120-degree red sector) that they do not have to yield, and unfortunately they are not sitting on the side of the aircraft to see what they should yield to. Better keep your eyes open as much as you can on the right (starboard) side. So 120 degrees to the right of your nose in the area where you have to yield to all airplanes except those overtaking you. If someone sees your green 30 I P OPA M AG A Z I N E I S P R I N G 2 0 1 3 starboard aspect, he does not have to yield and is expecting that you can see him and thus yield yourself. And of course that leaves the 120-degree sector behind you, meaning any aircraft that can see your white tail sector is overtaking you and thus has to yield to you. And you hope that the other pilot sees you because you have zero chance of seeing him overtaking you. EXPANDING YOUR HORIZONS OF OBSERVATION Now that we’ve established the concept of who is supposed to yield to whom in converging or overtaking situations, how do both pilots keep aware of what the burdened aircraft has to do? In fact, how does the pilot see what is going on with aircraft on his starboard side (his own yield-side) and even the ones behind him? Average human visual acuity is about 1.76 feet/nm. Which means on a very good day a pilot should be able to tell the contrasting difference of black/white lines 1.76 feet apart from each other at one nautical mile. If the object is not black and white (such as a white airplane against Santiago blue sky), then the visual acuity is even less. Also compounding the problem is that seeing the aircraft is not the same as being able to recognize the threat. You have to discern whether it is a port/starboard/aft aspect you are looking at, and what the relative motion is. So herein lies our unfortunately not-soobvious problem. How do we look at the right place in the sky for something we do not know is there? And how do we determine how much of a threat this aircraft is? Well, in this case, this is where technology perhaps does not deliver the day, but certainly gets us closer to the calendar. Traffic-advisory systems (TAS) have been with us in one form or the other for 25 years now. The idea is simple enough but the equipment requirements (and price) were the biggest barrier. The equipment on your aircraft simply interrogates (two times a second) other transponders within a 30 nm radius, gets replies (thus knows the range/bearing) and displays the replies on your screen. Be it your multi-function display, Garmin GNS480/GNS530/ GTN750 or whatever, the software on the TAS shows the location on your moving map or traffic page, calculates the threat if it will be <500 feet/nm within 35 seconds. That’s a lot of information. Well, information like that certainly helps in pointing out where the other aircraft are (360-degree interrogation area) but whether we have to yield or not is still our decision. How much can that help? In spite of the green/red/white lights we talked about earlier, let’s say we are flying during the daytime in clear weather (the kind that draws out the most number of aircraft). Now how far away can we see another aircraft and recognize the aspect (port/starboard/aft) to determine whether we are meeting/overtaking? With a traffic-advisory system (L-3 Avionics Skywatch, Avidyne TAS600 series, Garmin GTS800, or Honeywell KTA870), the aircraft around you (some systems offer up to 60 aircraft at <60 nm) are tracked and then displayed. Usually only the eight most threatening are displayed so the pilot is not overloaded with traffic hordes. To make things even simpler, all target positions are updated two times a second so you can see the relative motion of each aircraft. side. How much longer until it happens? Look at the distance. If the range is decreasing .1 nm/second the closure rate is 360 knots and each nautical mile separation will be gone in 10 seconds. If there is no bearing change, there will be no distance remaining between you and the other aircraft. Believe me there is not much future in that kind of conflict. EVADING THE QUESTION? No doubt we should be looking for the aircraft as much as possible, but shall we do nothing and continue on our merry way knowing that the other aircraft is converging on the port (left) side and therefore has to yield any way? Are we going to have faith that the other pilot can see us (when we can’t see him) and realize that he has to SAFETY RELATIVELY SPEAKING ABOUT MEETING OTHERS Now comes the assessment part. Your traffic-advisory system has told you about another aircraft that does not yet fit the warning profile (<500 feet/1 nm in <35 seconds) but you are concerned that it does not seem to be moving very much on the screen (little bearing change). The aircraft is more than three miles from you so you can’t see it yet nor determine aspect. Well, anytime there is a target on your TAS display that shows little bearing change but decreasing range, the only thing in doubt is how much longer before the warning is annunciated. We need to determine the relative motion (if any), and we can’t see the target outside yet. Let’s use the software to do so then. On the GNS530 or GNS430 NAV page 2, push-in the small knob on the right to bring up a cursor. Move the cursor to the target on the screen and “tag” it. On the screen, the target’s distance/altitude delta is shown. But more importantly in the upper left corner of the screen is the target’s bearing/distance and how it is changing two times a second. This is where we have to trust the “math” a bit. If the bearing is decreasing (045°M, 043°M, 040°M, etc) the closest point the aircraft will be to you is on your port (left) side. If bearing is increasing (045°M, 048°M, 050°M) then the aircraft will pass you on the starboard (right) EDUCATION SAVINGS Visit Our New Website! www.pilatusowners.org The new website makes it easy to set up your profile, sign up to receive email notifications and renew your membership. SATISFACTION To learn more, contact POPA at 520.299.7485 Sign in today to catch up on all the new topics being discussed in the Members Forum, download the latest documents and learn more about the POPA / UVAir Fuel Card. We Elevate the Pilatus Experience! www.pilatusowners.org S P R I N G 2 0 1 3 I P OPA M AG A Z I N E I 31 Traffic alter his track/altitude to pass “well clear” of us? My suggestion is that having the right-of-way does not have to mean being an NTSB report. If the separation distance is going to be gone in 60 seconds, then let’s make sure that the closest point of approach is as far way as we can. If the other aircraft is on the port (left) side converging toward you, you make a 45-degree turn (with ATC clearance if on an IFR clearance) to the left. Lo and behold, the separation distance is now getting larger. The reason is that with your 45-degree turn toward the aircraft, you changed the time for “closest-pointof-approach” to right now. Once the aircraft has crossed your nose you could turn back on course and you’d never close in on him again. This method would also hold true for converging aircraft that are on your starboard (right) side. Since you would rather not wait till at 1 nm before seeing the aircraft and then taking action to keep clear, you have the opportunity to assess the situation beforehand, using your TAS for additional information. CONTROLLING YOUR DESTINY AT UNCONTROLLED AIRPORTS Now comes the reality most of us would not like to admit. There is a greater risk of air/ground conflicts at airports (towered or non-towered) than on an airway. The reason, of course, is more aircraft are concentrated in a smaller area (less than three nm and less than 1,000 feet AGL). So what we do then is use the same tool even though we are on the ground. After leaving the FBO, we self-announce on the common frequency that we are on the taxiway. At the same time as we listen to the CTAF, we are looking on the screen for other transponder aircraft and determine what the traffic situation is. How many aircraft are on the downwind already? Which aircraft are more than three nm away but inbound? And, of course, are there any aircraft in the pattern that are not self-announcing on the CTAF (no radio or wrong frequency, etc). We can count up the number of aircraft with transponders and look for them outside when we are on the taxiway. In fact, we can even confer with the aircraft on downwind to see about leaving before they turn their to their baseleg. Remember aircraft on the ground have to yield to aircraft that are landing so it behooves us to know who is out there and what their plan of action is. Alternatively, when we are landing, we can see other aircraft on the ground (if their transponder is replying), ones on the taxiway near the runway, and those that are on final that we would have to yield to ourselves. We can be even more cautious about the ones we see on the ground who aren’t using the CTAF to announce their intentions. The same technique can be used at towered airports as runway collisions have occurred there as well. In most cases, the controller had cleared both aircraft on the same runway at the same time. The trafficadvisory system is the tool that can point out the controller’s mistake. Paul K. Sanchez is CFII-MEI based in Florida. Contact him at [email protected]. 32 I P OPA M AG A Z I N E I S P R I N G 2 0 1 3 MiPad ELECTRONICS MyWingMan Sporty’s E6B app offers a simple, forms-based interface for aviation calculations and conversions. ONE NEW APP AND TWO MAJOR UPGRADES M THIS TIME AROUND, WE HAVE A NEW APP FROM AN A WELL-RECOGNIZED NAME IN AVIONICS AND MAJOR UPGRADES TO A PAIR OF POPULAR ELECTRONIC FLIGHT-BAG APPS FOR THE IPAD. By John D. Ruley MyWingMan from Honeywell Bendix-King is an impressive electronic flight-bag (EFB) app that offers a highly customizable user interface, tap-and-drag flight planning/editing, DUATS weather briefings and much more. The app’s map interface provides the usual range of VFR sectional and IFR low- or high-altitude en route views, with transparent overlays that can include weather (radar, satellite, METAR/TAF, winds aloft) and other info including fuel prices and TFRs. A unique scrolling “function wheel” control quickly selects one of eight operating modes. The app includes predefined performance data for common piston singles, and it’s easy to set up equivalent data for turboprops, though the app only supports a simple model, using average climb/cruise/descent airspeeds and fuel flows, that doesn’t take into account temperature and other factors. Clever smart route and smart altitude functions allow you to optimize 34 I P OPA M AG A Z I NE I S P R I N G 2 0 1 3 for time en route and fuel burn. MyWingMan also offers a unique, animated G-meter, based on the iPad’s built-in accelerometer, and a synthetic vision feature that offers a “chase plane” view by default; a forward view comparable to that offered by many glass panels is available with an optional portable AHRS. For IFR users, MyWingMan offers geo-referenced approach plates with aircraft-position display. The app is also compatible with Aspen’s Connected Cockpit which should allow editing and uploading flight plans to IFR-certified GPS navigators including BendixKing’s KSN-770. MyWingMan requries an iPad 2 or better (iPad 3 recommended) and as much memory as you can buy. The terrain database is huge! As with most EFB apps, a data subscription is required: $99 per year for a VFR-only subscription or $149 for both VFR and IFR charts. Coverage includes the continental US, Hawaii and Puerto Rico. According to the web site, “Europe and other geographic areas are being evaluated” for possible future coverage. The web site also suggests that in-flight weather using “ADS-B and other data sources” and support for the iPad Mini and potentially Android platforms are planned. You can download a 30-day free trial from the iPad App Store or browse BendixKing.com for more information. iPad users who prefer Jeppesen instrument charts have a major upgrade in Mobile Flight Deck (FD) 2.0, which offers a radically revised user interface that at first looks like a complete change, but isn’t as extreme once you get used to it. Most of what used to be at the top of the display in the default en route view has been moved to a “drawer” so it doesn’t obscure the chart until needed, and icons to change views, select the chart display theme, etc., have been moved to the left-hand edge of the display. That makes room for a new set of icons covering significant new features: Weather information can now be overlayed on charts, including icing, radar with echo tops and lightning, color-coded surface observations, turbulence and winds aloft. Also new are text notes covering operational issues related to specific NavAids or airspace, regional issues for geographic areas and reference issues that apply to large areas. With those, Jeppesen says the FD app now completely duplicates the information available on paper charts. The route finder now supports SIDs and STARS, and the app can send/receive routes to/ from GPS navigators that support Aspen’s Connected Cockpit. Jeppesen FD’s Terminal Chart feature now defaults to a full-page view with a rotation option so that you can easily switch vertical charts to horizontal orientation or vice-versa to match your display. And they’ve added a highlighting function that allows you to draw with your finger, putting color future versions. (light green by default) over text you wish display remains available by For more information, to emphasize, circle an area of concern, tapping an on-screen button. etc. Kudos to Jeppesen for recognizing that look for Jepp FD on the iPad Less obvious updates include App Store. while the iPad reduces the need for paper, a runway proximity adviser ForeFlight Mobile 4.7 has it can still be essential for backups: The feature that will pop-up ontools menu now has a print icon that sends undergone a less extreme screen warnings (and provide update, but still includes a the current chart to an Apple AirPrintaudible warnings in a comcompatible printer. Jeppesen is also among facelift that will surprise users patible bluetooth headset), when they upgrade. The dethe first aviation app vendors to support on approach or entry to a fault Maps view now includes the new iPad Mini. runway threshold, integration an edit screen that provides Jeppesen FD still isn’t a complete EFB with X-Plane flight 10 flighta graphical summary of the solution: The flight-planning funcsimulation software so that ForeFlight Mobile 4.7 selected route and simplifies tion doesn’t offer time en route or fuel you can practice with Foreupdates to cruise speed, calculations and, while Flight on the ground, and minor upgrades altitude, fuel burn, selection the new weather features to the scratchpad, which remains useless of related IFR procedures are a welcome addition, in my humble opinion. A really useful new (SIDs, STARS, etc.) and they’re only available on Binders feature lets you save collections identification of ATCthe ground. There’s also no of instrument charts for quick access. For assigned routes. Tapping on built-in capability to retrieve more information, see the iPad App store the altitude pops up an altia DUATS (or equivalent) or browse ForeFlight.com/ipad/. tude adviser that works very briefing that would cover John D. Ruley is an instrument-rated pilot, freelance much like the smart altitude synoptic weather, SIGMETS writer and recent graduate of the University of North Dakota Space Studies graduate program (Space.edu). feature in MyWingMan. The / AIRMETS, NOTAMs and He’s also a volunteer pilot with LigaInternational.org, old navigation log view that TFRs, but I’m impressed with which operates medical missions in northwest Mexico, and Angel Flight West (AngelFlight.org), which offers used to appear at the top of the improvements and look free air transportation to medical patients. You can the ForeFlight Mobile map forward to more features in Jeppesen FD’s Terminal Chart reach him at [email protected]. Jeppesen FD’s Terminal Chart S P R I N G 2 0 1 3 I P OPA M AG A Z I N E I 35 Hot Spots TRAVEL { G O T T A G E T A W A Y THE BARD BECKONS! Live theatre without the pomp at Oregon Shakespeare Festival. BY MICHELLE CARTER F eeling the urge to flavor your flying with great theater? Set your GPS for Ashland, Ore., (KS03) where the 79th season of the Oregon Shakespeare Festival is set to launch in March. Over 2013’s nine-month season, three different stages will offer Shakespeare’s Taming of the Shrew and three other Bard 36 I P OPA M AG A Z I N E I S P R I N G 2 0 1 3 favorites as well the world premieres of two new works and timeless plays like A Streetcar Named Desire and My Fair Lady — 11 productions in all. Three stages are needed because the festival is a destination theatre company. Visitors come from long distances and want to see more than one play when they come. } Each stage is a “machine” for presenting plays and can be turned, in a few hours, from a balcony in Verona, Italy, to a dacha in 19th Century Russia. The festival has a college English teacher to thank for its birth. In 1935, Angus Bowmer went to Ashland businessmen with the idea of offering Shakespeare for everyone. They were skeptical but they gave him $500 with the understanding that they would schedule boxing matches before each performance “just in case.” The boxing fell away, and the plays went on and on. Now it takes a budget of $26 million to fund the 780 performances for 400,000 playgoers every year. Over the years, the small community of Ashland has built itself around the festival with a plan that practically demands that you walk. The town square is lined with great restaurants and shops, and the walk along rushing Ashland Creek has been developed with an eye to the spectacular scenery of Lithia Park, local art and good food. Because Ashland is a one-industry town, every hotelkeeper and restaurateur arranges services to enhance the festival experience. Backstage tours led by actors in the company add a special dimension to the Ashland experience, and they can be scheduled when you order tickets. The tours provide answers to all sorts of questions: What happens on the outdoor stages when it rains? “Well, you’re likely to see actors in ponchos performing for an audience in garbage bags.” Did I mention the casual attire? Leave your tie at home but do bring a jacket. It can get chilly at night. The festival web site offers pages of B&Bs and inns, most within walking distance of the stages, and its trip planner allows you to work in a bus trip to historic Jacksonville or a raft trip on the Rogue River or skiing on Mt. Ashland. Small wonder the uncontrolled Ashland Municipal Airport (with a 3,600-foot runway) offers acres of tie-down space and a web cam at AshlandOregonAirport.com so pilots can check the weather on the ground. They’re ready for a group fly-in or the solo theater enthusiast with a weekend to spare. See More. Spend Less. Aspen Avionics’ innovative Evolution Flight Display technology clears your way to an affordable EFIS solution. Avoid expensive gyro overhauls and unexpected downtime with a reliable, leading-edge Evolution glass panel. Improve situational awareness, reduce pilot workload, and get more utility out of your airplane. The Evolution Flight Display System shows more of what’s around you with capabilities like Evolution Synthetic Vision, XM weather, traffic, terrain, and obstacle displays. Aspen Avionics delivers the industry’s best value, with Class III multi-display solutions starting about $18K. Evolution 1500C3: Because You Have No Time for Downtime. aspenavionics.com/evolution1500c3 Copyright 2012-13 Aspen Avionics Inc. ”Aspen Avionics,” “Evolution Flight Display System,” “Connected Panel,” and the Aspen Avionics aircraft logo are trademarks of Aspen Avionics Inc. All rights reserved. U.S. Patent No. 8,085,168, and additional patents pending. S P R I N G 2 0 1 3 I P OPA M AG A Z I N E I 37 ECO-WHALING IN BAJA WATERS Grays come right up to the boats at Laguna San Ignacio BY MICHELLE CARTER R eady to get face-to-face with gray whales in the Laguna San Ignacio sanctuary in Baja California and then head back to four-star spa comfort for the night? Then schedule a personal fly-in to Loreto, Mexico, settle into La Mision Boutique Hotel and then fly or bus to Laguna San Ignacio for a pango (skiff ) ride out in the lagoon for a two-and-a-half hour meet-and-greet with the whales. From December through March, the once-endangered gray whales return to the warm, shallow waters of the lagoon on the west coast of the Baja Peninsula to give birth and prepare their calves for the 10,000-mile trek back to summer feeding sites in the Arctic Circle. The lagoon, which 38 I P OPA M AG A Z I N E I S P R I N G 2 0 1 3 extends 16 miles into the desert, is the jewel in the El Vizcaino Biosphere Reserve and is recognized as the last undeveloped nursery and breeding ground for these whales. The whales come up to the boats because they are as curious about us as we are of them and only then do they encourage us to touch and interact with them — not the other way around. During the heyday of whaling in the mid-19th Century, the treacherous sand bar shoals and shallow passages of the lagoon kept all but the boldest captains out and created a natural sanctuary for the gray whales which were approaching extinction. Now the benefits of eco-tourism (and a World Heritage Site designation) provide more stable protection for the whales and the community of 100 or so who co-exist comfortably with the lagoon’s winter inhabitants. “These are eco-adventures that support local fishermen and families through low impact tourism activities,” said Stephanie Rousso, a wildlife biologist and guide, at Laguna San Ignacio. “However, we don’t like to use the term ‘petting.’ Petting sounds like a circus, aquarium or Sea World. This is a natural area and we respect the whales, the mothers and their calves and the local families that provide the service. “The whales come up to the boats because they are as curious about us as we are of them and only then do they encour- age us to touch and interact with them — not the other way around. We don’t go out there to touch them unless the whales show they want it by coming up to the boat.” Come prepared with water shoes, pants that you can roll up, sunscreen, a hat and layered clothing since it can be downright cold in the morning and hot in the afternoon. And a camera, oh, yes, a camera! The photos that accompany this article were all taken by visitors on their first Laguna San Ignacio adventure. If you’re flying south of the border for the first time, be sure to acquaint yourself with ADIZ requirements and how to file for eAPIS, the Electronic Advance Passenger Information System, for international travel both into and out of the U.S. The Loreto Airport (MMLT) is a towered, international facility, but the 20-minute flight to Laguna San Ignacio will take you to a private, packed-sand airstrip 4,333 feet long that can be difficult to recognize since it blends in with the surrounding area. Call (52) 615.107.9593 to let them know you’re coming. If you’d rather not test your soft-field landing and take-off skills, buses or taxis are available. IF YOU GO... LA MISION HOTEL Phone: (52) 613.134.0350, ext. 617 LaMisionLoreto.com BAJA EXPEDITIONS DE MÉXICO La Paz, Baja California Sur, Mexico Outside Mexico Toll Free: 800.843.6967 BajaEx.com LAGUNA SAN IGNACIO AIRSTRIP 26°50°55° N 113°08°26°W (52) 615.107.9593 AridaWhaleWatchingBaja.com/airstrip.htm S P R I N G 2 0 1 3 I P OPA M AG A Z I N E I 39 FLY RIGHT IN FOR THE ROUND-UP Wyoming guest ranch’s welcome starts at its own airport. BY MICHELLE CARTER W hen Bob Kaplan and wife Laurence sold their separate (but competing!) businesses 12 years ago and launched Red Reflet Ranch resort in Wyoming as a retirement project, “we’d never actually been to a guest ranch. So we didn’t have any preconceived ideas,” Bob Kaplan said. “We just built what we knew we would want, and it’s worked out pretty well.” The Kaplans started with a working cattle ranch on more than 27,000 acres in the Big Horn Mountains and moved into the original ranch house to oversee the 25 major constructions which transformed the ranch into an upscale retreat that allows guests (usually no more than a couple dozen) to plan their personal holiday from a dizzying array of offerings — horseback riding, fly fishing, tennis, shooting, trail rides, ziplining, swimming and hiking. Early on, the Kaplans, both private pilots for more than 40 years, designed and built an airport on the ranch with a paved and lighted 5,000-foot runway and an FAA-maintained GPS. “This is very easy mountain flying at 4,600 feet. You land east and takeoff west on a sloped strip.” They keep their own Citation 501 han- 40 I P OPA M AG A Z I N E I S P R I N G 2 0 1 3 gared there, “and we’ve got a retired military pilot and mechanic, Anthony Cirincione, who’s an A&P” as the full-time airport manager. He will go up with you in your plane to pass on the secrets of mountain flying — or help you get a glider, seaplane, helicopter or jet rating if they’ve been on your bucket list. If you’ve ever wanted to build a vacation around flying, this is the place. But above all, Red Reflet (pronounced reFLAY) is a working ranch with 400 head of purebred black Angus cattle. The herd is a “mother-cow” operation, and the calves are born in April/May. When calves are shipped off in November, most of them are headed for Whole Foods Markets where they’ll become some of the store’s all-natural beef raised in an approved “kind and gentle” manner. The now-renovated ranch house and three chalets provide five-star accommodations, all designed to exploit the drop-dead gorgeous scenery with floor-to-ceiling views. Red Reflet Ranch operates in all seasons but spring and fall are the busiest on any cattle ranch. Call 866.766.2340, and you’re likely to get one of the Kaplans on the phone. Just tell Bob or Laurence what you want. “Anything you can think of doing, we will arrange it.” And if it happens on the ranch, it’s included in the price. RED REFLET RANCH 10 Lodge Road, Ten Sleep, WY 82442 866.766.2340 • RedRefletRanch.com EAGLE AVIATION contact Karen Nelson @ PH: 803-822-5586 for more information or visit our gallery at www.eagle-aviation.com located at Columbia Metro Airport CAE in West Columbia, South Carolina Because the details do matter... R Q&A By Ted Otto WINTER 2012 QUESTIONS AND ANSWERS Question #1: What is considered a flap cycle and what are the limits? Question #1 Answer: A flap-system cycle is movement from 0 degrees to 15 degrees to 0 degrees, and from 0 degrees to 15 degrees to 40 degrees to 0 degrees. Maximum number of cycles per hour, up to 25 degrees OAT, is 10; 25 degrees to 5 degrees is eight. Question #2: How does the POH describe severe icing conditions? Question #2 Answer: Severe icing may result from conditions outside of those for which the airplane is certified. Freezing rain, freezing drizzle or mixed icing conditions may result in ice build-up on protected surfaces exceeding the capability of the protected system or may result in ice forming aft of the protected surfaces. Question #3: How many ways are we able to utilize the page function in the FMS? Question #3 Answer: Page function may be accessed by pushing the page button on the MF controller or by pushing the scroll wheel to the left on the CCD. Question #4: What is “SHOT PEENED” and does your aircraft have this feature? Question #4 Answer: Shot-peening is a treatment on the inner third of the propeller blade. This treatment stops the fatigue cracks and stress corrosion that typically start at the surface of the part. The PC-12-47E has shot-peened propeller blades. SPRING 2013 QUESTIONS 1. What is required of the 47 and 47E if a landing is made with the a/c weight in excess of 9,921 pounds? 2. When is the oxygen-system shut-off valve required to be on? 3. How long does the cockpit voice recorder retain data? 4. Is there an altitude limitation on the VCCS and, if so, what is it? S P R I N G 2 0 1 3 I P OPA M AG A Z I N E I 41 42 I P OPA M AG A Z I NE I S P R I N G 2 0 1 3 SCENARIO TEST SLOWONSET HYPOXIA A MOST DANGEROUS SCENARIO. QBy Dr. Paul W. Buza Scenario-based principles which have been integrated into a high-altitude chamber program, using flight-training devices with simulated ATC, represents the “gold standard” in teaching aviation physiology for Technically Advanced Aircraft (TAA) training. Such training is particularly useful in teaching pilots about slow-onset hypoxia. In light of the Helios Airways accident in Greece in 2005, it is now certain that the crew failed to notice that the cabin of its 737 was not pressurizing on ascent. The slow onset of hypoxia (defined as oxygen deprivation that occurs over a period longer than 10 minutes) while the pilots were attempting to resolve an alarm issue soon after takeoff led to pilot incapacitation and resulted in 121 deaths. A similar event occurred in 1999 when a Lear Jet carrying golfer Paine Stewart also failed to pressurize on ascent, incapacitating the pilot within 15 minutes of takeoff. S P R I N G 2 0 1 3 I P OPA M AG A Z I N E I 43 Slow-Onset Hypoxia Further emphasis in TAA training is needed to understand the insidious nature of slow-onset hypoxia because the symptoms are difficult, if not impossible, for the crew to recognize. This represents the most dangerous hypoxia scenario in single-pilot TAA today. Traditional altitude-chamber and reduced-oxygen breathing programs emphasize rapid-onset hypoxia at 25,000 feet when the time of useful consciousness is two-four minutes. The signs and symptoms occur rapidly and are easily noticed. The protocol developed at Southern AeroMedical Institute models the slow onset of hypoxia by ascending from 5,000 feet to 25,000 feet over a 10-15 minute period. Here the signs and symptoms are more difficult to identify as the pilot multi-tasks through various ascent procedures during simulated flight. The flight profile matches the probable cabin 44 I P OPA M AG A Z I NE I SS PP RR II NN GG 22 00 11 33 ascent pattern experienced by the crew of the Helios and Paine Stewart accidents. To date, more than 1,800 pilots have flown this model for training where the primary observation is that slow-onset hypoxia, taking more than 10-15 minutes, leads to the loss of situational awareness when compared to explosive or rapid decompression. Hence, we see the need to provide realistic and scenario-based training for pilots and passengers. The integration of flight-training devices within the TBM/SAMI high-altitude chamber, with real ATC communications added, creates a more realistic cabin scenario for the pilot in a safe and controlled environment. Pilots assemble on the flight deck and check in with ATC for instructions. Simulated flight plans installed in the onboard computers closely match the chamber ascent profile to create a model that realistically matches true cabin-depressurized altitudes. As the pilot is busy with ascent-related procedures, the signs and symptoms of hypoxia as well as subtle neurocognitive impairments begin to occur. The flight deck is closely monitored by ATC (who is also trained in aviation physiology) on a computer system that displays their images and cockpit instrumentation often showing significant mistakes in the pilot’s ability to fly the aircraft. The pilot’s performance (or lack of performance) is captured on multi-screen video for post-flight analysis showing a significant array of neurological impairments including speech, memory, fine motor skills and changes in personality. When sufficient signs and symptoms have been accomplished, the crew demonstrates emergency procedures by donning masks and launching an immediate descent while communicating with ATC for new vectors. The rapid recovery provided by supplemental oxygen as they follow emergency descent procedures further emphasizes the importance of early identification of hypoxia. SOLO-BASED PHYSIOLOGICAL TRAINING (SBPT) Each flight consists of three participants and lasts about an hour. The pilots are seated inside the chamber at their flighttraining devices and orientation to the masks and flight computers is provided. Various ear-equalization techniques such as swallowing, jaw movement and the valsalva technique are reviewed and practiced while they have their masks on. Management of trapped gas phenomenon is essential to avoid debilitating distractions during flight. Next, audio checks are performed with headsets on to insure high audio quality since changes in speech patterns is an early sign of hypoxia. This also allows pilots to become accustomed to how ATC will sound and what they are expected to do once they begin their flight. At this point, the trainees learn the flight simulator instrumentation including foot and hand controls. Once the staff feels that the trainees are sufficiently acquainted with the chamber and simulator, the doors are closed and the trainees don their oxygen masks for the ear and sinus check. The chamber ascends to 5,000 feet and descends to 1,000 feet with close observation to insure there is no difficulty with middle-ear clearance. Under the guidance of the supervising flight physician, the chamber then ascends to 5,000 feet and the trainees remove their masks, put on their headsets and establish contact with ATC. This also allows the pilots’ blood-oxygen saturation to match “real world” cabin parameters where typical commercial cabin altitudes range from 5,000-8,000 feet. When ATC is ready, the pilots begin flying following ATC-guided instructions. Soon after, the chamber also begins to ascend without the pilots’ knowledge. During the ascent from 5,000 feet to 18,000 feet, the flight plan is going as expected, “a normal day in the sky,” until they pass 18,000 feet and ATC begins to change their original flight plan. Sudden traffic and unexpected weather requires complex decision-making and frequent ATC communications, which become more difficult to handle during slow-onset hypoxia. As the pilots reach higher altitudes, the numerous signs and symptoms of hypoxia as well as neurological impairments are easily captured on video. Once sufficient signs and symptoms have developed, the pilots are instructed to don masks and begin emergency procedures in which the dramatic and rapid recovery provided by supplemental oxygen is easily demonstrated. The pilots remain on oxygen during descent until 10,000 feet when the masks can be safely removed. The final 10,000 feet of descent is closely observed to insure no difficulties with middle-ear clearance. The entire chamber/simulator session including the pre-flight orientation lasts about an hour. The sessions are conducted so that all chamber-training objectives can be achieved in one day. While three pilots are flying, the remainder of the group observes ATC conducting the flight operations. On a large monitor outside of the chamber, nine different screens show a close facial view of the pilot, his or her cockpit instrumentation, aircraft position on ATC radar and true altitude readings. As the pilots fly their missions, the training staff highlights key teaching points. As soon as the pilots exit the chamber, their flight performance is immediately reviewed as a group, which often generates spirited discussion among the trainees and faculty. This process is repeated two or three more times throughout the day so that by the end of the day the key teaching points about hypoxia are firmly secured. After the last group is done, the trainers discuss actual events and present different scenarios for further discussion. During this time, individual hypoxia profiles are determined for each pilot by recording his or her signs and symptoms in the order of occurrence on a laminated wallet-sized card for easy review. Based on the profiles, it is possible to predict who is most and least likely to respond early to cabin depressurization. They also watch videos on other hypoxia situations. At the end, the pilots are issued their certificates and receive personal CDs of their flight session. Experiencing the scenario improves long-term memory and gives the pilots a greater ability to recognize the subtle onset of such a potentially dangerous situation. Even the most experienced pilots can succumb to the insidious onset of hypoxia which can result in loss of situational awareness and incapacitation. S P R I N G 2 0 1 3 I P OPA M AG A Z I N E I 45 Ask Lance Toland TRAINING TO BE THE FOCUS OF 2013. W By Lance Toland With the introduction of the new PC-12 NG full-motion simulator at Flight Safety’s Dallas facility, rave reviews have already flooded into my office. With a higher price point on initial and recurrent training, compared to SIMCOM, clients are asking about insurance discounts for full-motion training. At the present time, none of our markets is talking about premium deviations for stationary or full-motion simulation. At the end of the day, I doubt seriously if this will ever be a differential. The good news is that we have excellent training available across the country at different price points. At the January Atlanta Aero Club meeting, FSI CEO Bruce Whitman shared that a full-motion Legacy simulator is in the works. It does not get any better than this! Think about it: NG and Legacy part 135 operators will now be able train at FSI and not tie up their assets and risk additional down-time meeting their six-month check ride requirements. Training is now and always will be an annual underwriting requirement. Depending on your particular operation and experience level, you may opt to include some in-aircraft training with one of several well-recognized training gurus. This deviation will always have to be approved before the training and, 46 I P OPA M AG A Z I N E I S P R I N G 2 0 1 3 typically, your policy will need to be endorsed with several special stipulations to protect you and your training facility. I actually encourage alternating simulator and inaircraft training, especially in the Legacy machines, because so many different avionics suites are now being installed in place of the original King configuration and Honeywell EFIS. I recently installed Garmin 750s in my PC-12 serial number 381. My plan is to upgrade further to the Garmin 600 later this year. Now, with so many options at hand for training, how can you make yourself look better to the underwriters at renewal? Slipping in an extra session never hurts. A combination of simulator and in-aircraft training on an alternating eight-month basis is a good measure, and it also keeps you in step with your part 91 bi-annual flight review. Any additional non-PC-12 training helps as well. I actually do factory rotor-wing sessions in addition to my annual training, and I try to get in one or two weather seminars or winter courses if they’re available in the area. If you are participating in any similar events, make sure your underwriters get a copy of your completion certificates for your file. Trust me, it makes a difference. Now off the subject of training: Several unique situations involving both Legacy and NG operations have occurred so far this year. Both involved loss of oil. Each event could have had catastrophic results. I will explore associated coverage issues in the next publication, and I hope to have a full presentation for those of you attending POPA2013 in Monterey, Calif. On location. On budget. Exceptional training. Insurance approved. Tailored to your needs and your schedule. REGISTER TODAY! www.AviationTrainingManagement.com (772) 778-7815 GetATaxReceipt Donate Any Airplane Contact: www.BuildAPlane.org 804.843.3321 Help kids learn science, technology, engineering and math by building or restoring real airplanes. Your contributions are tax deductible. www.buildaplane.org S P R I N G 2 0 1 3 I P OPA M AG A Z I N E I 47 Send Less to the IRS FINANCE DON’T GIVE UP ON THIS TOO EARLY I THERE ARE TAXES TO BE SAVED AND RECOVERED By Harry Daniels, CPA, CFP, PFS, CVA If you have a business and you have accounts for buildings, building improvements, equipment, vehicles, depreciation, repairs, maintenance and supplies on your books, pay close attention. On Dec. 27, 2011, the IRS issued new regulations regarding capitalizing or expensing amounts spent on the above items. The effective date of the new regulations was Jan. 1, 2012. Basically, if you have any of the above accounts, you will be impacted by the new regulations sooner or later. It will be impossible to avoid them. 48 I P OPA M AG A Z I N E I S P R I N G 2 0 1 3 There are a lot of favorable taxpayer points along with many unfavorable ones, due to the complexity of the rules in the regulations. The results you get in many cases will surprise you because they will run contrary to what you have understood the rules to have been in the past. As you begin to make the conversion from the old rules to the new, it is very likely that you will need to file a special form with the IRS in order to be in compliance and make the changeover. This is Form 3115, an Application for a Change in Accounting Method. Even though this change is mandated by the IRS and the IRS will automatically grant you to right to switch to their new method, you must file Form 3115 with the IRS stating what provision you are changing in order to be compliant with the new regulations. You will need to look at every expenditure in the above-mentioned accounts to determine how they should be handled to meet the new regulations. Aviation got a big boost with the new rules. Under the “safe harbor” provisions, the periodic and recurring annual inspections and TBOs can be expensed immediately, instead of being capitalized. The new regulations allow for the expensing of annual inspections and TBOs that an aircraft must have every year or so in order to maintain the airworthiness of the airplane. If you modify or improve the airplane or other equipment while doing standard maintenance, then the cost of the modification or improvement will be capitalized while the cost associated with standard maintenance can be expensed. Airplanes generally have a five-year tax life. How many annual inspections are you currently still depreciating? How many TBOs are you now depreciating? By changing over to the new regulations, you can probably charge off in tax year 2012 all the remaining undepreciated costs associated with these annual inspections and/or TBOs. The beauty is that this can be done without amending any of the prior years’ returns, whether they are still open or not. Another positive point: If you have depreciable assets that have been replaced (a roof on a hangar or a heating system, for example), you now can go back to a previously filed return and write off the replaced items by filing for a change in possibly be changes, revisions or modifications to the newly issued regulations coming in 2013. The taxpayer now has the option of when he or she wants to shift to the new regulations as long as the changeover is made by the Jan. 1, 2014. So this creates the question: When do you want to make the change? O. H. “Harry” Daniels, Jr. is a CPA, a CFP licensee and a certified valuation analyst. He is a partner with the firm of Duggan, Joiner & Co., Certified Public Accountants, and can be reached at 334 N.W. 3rd Ave., Ocala, FL 34479, telephone 352.732.0171, fax 352.816.1370, email OHD@ DJCoCPA.COM. He has held his license as a private pilot since 1991. This article is available for reprint upon request. 888.386.3596 [[[WO]XIGLMRGGSQ WEPIW$WO]XIGLMRGGSQ (1;9>%182 As the world’s oldest PC-12 dealer, Skytech is a trusted and proven resource. Whether you are buying, selling or servicing your aircraft, our experience is your advantage. By changing over to the new regulations, you can probably charge off in tax year 2012 all the remaining undepreciated costs associated with these annual inspections and/or TBOs. accounting method. Again, no amended returns are required, only a Form 3115 for a change in accounting method. This could very easily be the case with a hangar or other building that has a 39-year life. This could go back to buildings that you built or purchased in the mid-1970s. You may be able recover tax dollars now that you can remove replaced components that have not been fully depreciated. In order to protect yourself from a very harsh provision of the new regulations, you absolutely, positively, and must have a written capitalization policy. If you already have one in your business records, that’s great. If you don’t, you need to write one immediately. These regulations were issued on Dec. 27, 2011, with an effective date of Jan. 1, 2012. They are on the books today, but to make things more complicated, the IRS announced on Nov. 21 that there would Authorized Dealer: PA, OH, MD, DC, WV,VA, NC, SC, KY, TN Factory Service Centers: Baltimore Metro Area (DMW) Charlotte Metro Area (UZA) %MVGVEJX7EPIW7IVZMGI1EREKIQIRX&VSOIVEKI%GUYMWMXMSR*&37IVZMGIW S P R I N G 2 0 1 3 I P OPA M AG A Z I N E I 49 GENERAL AVIATION TO THE RESCUE FLYING WITH THE WOLVES USING AN AIRPLANE TO MAKE THE WORLD A BETTER PLACE SPEAKS TO THE HEART OF GENERAL AVIATION. QBy Jack Long A s I recount great days spent with our General Aviation aircraft, I wanted to share a recent trip that was absolutely fantastic and uniquely possible with GA. As some regular readers may recall, I have been doing some volunteer flying organized by LightHawk, an organization a bit like Angel Flight, except they match-up pilots with conservation-oriented groups rather than medical patients. It is a match made in heaven for me since it combines two things I love — flying and conservation. Over the years, I’ve done trips to Belize and Mexico for LightHawk in addition to several domestic trips. This recent mission was to transport one Mexican gray wolf from Brookfield Zoo near Chicago and two more from the Endangered Wolf Center in St. Louis to the Sevilleta (N.M.) Wolf Management Facility south of Albuquerque. The wolves were being moved to the area where it is hoped they will be released, one as a lone male and two as a mated pair. 50 I P OPA M AG A Z I NE I S P R I N G 2 0 1 3 S P R I N G 2 0 1 3 I P OPA M AG A Z I N E I 51 Flying with the Wolves Located in the Chicago suburb of Bolingbrook, 1C5 is a small airport full of older position singles and training aircraft with a nice restaurant on the field and friendly people. It was a delightful place to visit. Its formal name is Clow International Airport. I don’t know of many other “international” airports with a single 3,600 FT runway, but they seem proud of the title. After a nice steak dinner and a good night’s sleep at a nearby motel, I was up early Saturday morning. The skies were clear and the temperature was 0 C. The Brookfield Zoo folks showed up right on time with the single female wolf. We caused quite a little hub-bub with numerous families with small children wanting a peek at this rare animal. Evidently, at least one of the local news stations had run a short story about the transfer the night before. 52 I P OPA M AG A Z I NE I S P R I N G 2 0 1 3 These wild animals do not like being in cages, even for just a few hours. This is why driving them or shipping them commercially will not work. G.A. is the only way to accomplish this mission. I had not counted on the cold temperatures and had to wait until about 9 a.m. for some frost to melt off the wings, but once the wings were clear, I taxied to the end of the runway, did a full power static run-up and a flaps 30 take-off. We were off the ground less than one-third of the way down the 3,600-foot runway and on our way. For this leg, it was just me and the wolf — a little eerie, I must admit. One hour later, we were on the ground at Spirit of St. Louis Airport (KSUS) after a smooth flight through crystal clear skies. We were met by another reception party at KSUS of about a dozen people, plus the two male wolves. The female will get her pick of the two males for mating and, it’s hoped, they will enter the wild as a pair. For the leg from KSUS to Albuquerque (Double Eagle KAEG), I would have three human passengers in addition to the three wolves, a wildlife biologist who would keep tabs on the animals enroute and a film crew of two who are making a documentary about the efforts to bring these animals back from the edge of extinction. They rigged a camera up in the cockpit (hope I did not screwup!) and filmed the loading, unloading and some enroute. The flight from KSUS to KAEG was beautiful, smooth air and clear skies the whole way. As is typical, the wind was howling out of the west, so I chose to fly lower than I normally do at FL180 to reduce the flight time, given there was no weather to top and the air was smooth. (It was actually more turbulent higher.) Enroute to KAEG, the handler took down the cargo net to check the animals. She asked that I keep the cabin as cold as possible in order to help calm the wolves. Just 3:43 later we were on the ground at KAEG after crossing the heartland of America. We were greeted by several U.S. Fish and Wildlife folks (who would be responsible for the reintro- duction of these animals into the wild) including a veterinarian who checked the condition of the animals. She said they looked in good shape, but two of them had a bit of excessive drooling which indicated some stress. These wild animals do not like being in cages, even for just a few hours. This is why driving them or shipping them commercially will not work. G.A. is the only way to accomplish this mission. After warm goodbyes and wishes of good luck, the animals, film crew and handlers were off to get the wolves out of their cages as quickly as possible. I had a nice cup of coffee and then was off the ground and on my way back to Austin with a nice tailwind. I nearly made the trip in less than two hours, but Austin was landing north, so it was 2:05 total time. All in all, it was 2,500 NM of good flying, interesting people and a feeling of mission accomplished. Nothing but GA. PC12 Training ½ Your Aircraft, your Avionics ½ You pick the time / location In your aircraft ½ You don’t travel Approved by major insurance underwriters Another Choice For Training John K. Morris Owner/Instructor 407-721-7442 www.acftservices.com ½ Training with Active, Full Time - 13 year PC12 Instructor/Pilot Providing training exclusively for all PC12’s since 2007 S P R I N G 2 0 1 3 I P OPA M AG A Z I N E I 53 Trivia Tube TRIVIA 7. The line of invading Allied aircraft on D-Day formed up to be a. A thousand aircraft wide b. Two miles long and nine planes wide c. In attack position from nine different angles 8. The first solo flight around the world was accomplished by a. Charles Lindbergh b. Will Rogers c. Wiley Post 9. The youngest person ever to solo an airplane was age TEST YOURSELF ARE YOU A REPOSITORY OF RIDICULOUS, WORTHLESS FACTS? 1. The Enola Gay, the aircraft that dropped the atomic bomb over Hiroshima, was named a. After the pilot’s mother b. After the highest ranking female officer of the time c. The bombardier’s high school sweetheart 2. One in five passengers will be 4. How many male passengers think they could land the plane if the pilot(s) became incapacitated in flight: a. 2 out of 3 b. 1 out of 10 c. 5 out of 8 5. The Bonanza that crashed and killed Buddy Holly was nicknamed a. Sick on any given flight b. Drunk on any given flight c. Snoring because of the low-cabin pressures a. Silver b. Bill Beech c. American Pie 3. Out of 10 passengers, how many will claim to be members of the Mile High Club? 6. The most visited museum in the world is a. 2 b. 4 c. 1 a. The Air & Space Museum b. The Louvre c. The Baseball Hall of Fame7. 54 I P OPA M AG A Z I NE I S P R I N G 2 0 1 3 a. 10 b. 7 c. 9 10. Thirty-two SR-71 Blackhawks were built between 1964 and 1998. a. Twelve were destroyed in accidents. b. The aircraft holds the record for fastest aircraft on the planet. c. If attacked, the SR-71 merely accelerated to outrun surface-to-air missiles. Answers: 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. (a) (b) (c) (a) (c) (a) (b) (c) (c) All answers are correct. WITHIN YOUR REACH Introducing the Garmin G600 New Perspective Glass Cockpit Retrofit for the PC-12 TM The avionics upgrade you’ll want to get your hands on. A fully certified, modern, flat-screen breakthrough that will enhance your situational awareness, reduce your workload and extend the value of the aircraft you already know and love. Contact Mike LaConto, Avionics Sales & Install Manager for your customized configuration, pricing and availability. 770-458-9851 U eppsaviation.com U PDK - Atlanta Pilatus PC-12 Sales & Service Center U New & Pre-Owned U Brokerage & Acquisition Services It takes you beyond the realm of checklists and procedures and delivers the confidence of knowing you’ve mastered the unexpected. Visit www.simulator.com to see a video describing why SIMCOM’s instructors, simulators and training locations will make your training experience special. Visit SIMCOM’s website at simulator.com VALUE. PERSONALIZED. FRIENDLY. 866.692.1994 © 2012 SIMCOM Training Centers. All rights reserved.