Review - Inadvertent Encounter with Freezing Rain

Procedures for Encounter with Freezing Rain

During this time of year, if you are a pilot in the Northern Hemisphere there is a possibility that you will fly into freezing rain. So we thought that now would be a good time for us Caravan Pilots to review procedures in the icing environment.

Please remember that the procedures found below are for the Cessna Model 208B (675 SHP) and no others. If you are flying a different model Caravan, please review your aircraft's FAA approved Abbreviated Checklist or Airplane Flight Manual for that specific model. 

Cessna's procedures for Inadvertent encounter with freezing rain or freezing drizzle:

Enroute

1.  Power - INCREASE to takeoff power (not to exceed 805 degrees ITT or 101.6% Ng).
2.  Airspeed - MAINTAIN 120 KIAS or greater (110 KIAS if climbing to exit icing).
3.  De-Ice boots - CYCLE to obtain best possible clearing.
4.  ATC - NOTIFY and request priority handling to exit condition.

Approach

1.  Approach - PLAN straight in approach if possible.
2.  ATC - NOTIFY and request priority handling to exit condition.
3.  Power - INCREASE to hold airspeed and glidepath (not to exceed 805 degrees ITT or 101.6% Ng).
4.  Airspeed - 120 KIAS (or greater).
5.  Flaps 10 degrees
6.  Airspeed - Maintain 120 KIAS if possible (minimum speed for flight in icing with 10 degrees flaps of 105 KIAS)

Minimum Speed in Icing Conditions (for all phases of flight including approach, except take-off and landing):

• Flaps Up: 120 KIAS
• Flaps 10: 105 KIAS
• Flaps 20: 95 KIAS

When climbing to exit icing conditions the following airspeeds may be used only for the duration of the climb to exit operation: (Maneuvering should be limited to 30 degrees of bank)

• Flaps Up: 110 KIAS
• Flaps 10: 95 KIAS

Landing

1. Recommended airspeed with ice on the airplane:

• Flaps 10: 120 KIAS

2. If 120 KIAS can not be maintained or other airfield constraints dictate use of other flaps or speeds, the following speeds can be used at the discretion of the pilot.

• Flaps Up: 110 - 120 KIAS
• Flaps 10: 105 - 110 KIAS
• Flaps 20: 95 - 100 KIAS

If you are a Caravan pilot, I highly recommend that you complete some of Cessna's E-Learning courses on this topic. Courses such as "Caravan Cold Weather Ops" and "Caravan Vodcast Ground Icing Conditions". There are many other interesting courses available, most of which are free and are all available at cessnaelearning.com.

Fellow Caravan Pilots, please remember to Review Often and Fly Safe so that you can continue to Love What You Do!

- CaravanNation.com

Gallery - Even Captains have to get dirty sometimes!

Even Captains gotta get dirty sometimes! MAF pilot Ryan Unger had to work hard to dig the Caravan free. #caravanpilot #aviation #avgeek #cessnacaravan #c208 #airplane #missionaviation #maf Photo by @mafyouth

A photo posted by Chris (@caravanpilot) on Jan 27, 2016 at 11:02am PST

Barter - Your transition from Piston to Turbine Aircraft

Below is my answer to an email that I received from a Jump Pilot that is looking to transition from a piston to a turbine powered aircraft. After writing it, I felt that I should post it because I thought that it might help other pilots. It is an answer to a question that I get frequently.

Hi David,

Thank you for the compliment. I had people help me while I was learning to fly, so I'm just trying to pay it forward.

As far as your situation, keep in mind that all pilots get caught in that dilemma of: How to get hired into a turbine or twin when I don't have any turbine or twin time and yet ALL of the companies are asking for at least "25hrs in type" (a number dictated by the insurance companies).

For me personally, when I was looking to transition to the Caravan and was getting frustrated with the above mentioned dilemma, an idea came to me. 

I had recently read an ad for a drop zone that was looking to hire a Caravan pilot. That particular DZ also owned a Cessna 206, a model that I had a few hundred hours of experience flying skydivers in. So I called the owner of the DZ and ran my idea by him hoping that he would agree. I asked him if he would agree to train me to fly his Caravan in exchange for me flying his C206 for his skydiving company for 1 month. 

He agreed, trained me and actually only made me fly 3 weeks instead of 4. Also, that company smartly maximizes the use of their Caravan via scheduling so I ended up only having to fly the C206 about twenty or so loads.

I have friends that have been hired by DZs that own a piston and a turbine and they received paid training in their turbines. Obviously, that is the best type of situation to get into, but it is not always practical for all of us. 

I am still very happy with my bartering idea to get trained in a larger aircraft and I always recommend it to Jump Pilots that are looking to transition. Although it is a proposition that is more easily accomplished in the Jump Pilot world, I have heard of pilots in other industries using that method. 

As far as the Flight Safety route, I would not encourage a Jump Pilot that is looking to transition from a piston to a Caravan to pay that $4000 fee. Most of the pilots that utilize those programs are not paying for it with their own money. The companies that hired them are paying for it. Flight Safety is a first class company with great programs but their fees are usually too steep for the average piston Jump Pilot.

I hope that I answered your questions but if you have any more, please feel free to ask! I love helping my fellow pilots.

~Chris Rosenfelt

CaravanPilot.com

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Too Cold for Ice by Bob Tilden

A Night Express Caravan being de-iced with heated propylene glycol.

Too Cold for Ice 

by Bob Tilden

"I would enjoy this kind of weather from now until April" was a common expression during the last two winters. We had many mild spells, and few snow storms. Expressing a sentiment towards the sort of winter that meets your own personal preferences is probably a selfish thought, but since we have no control over the weather, its probably forgivable too. Us normal folks should respect the fact that some people spend their summers hoping for a cold and snowy winter.

The last few weeks seem to show a trend for a cold winter in the northeast, and it suits me just fine. In fact, I'd enjoy this kind of weather until April. If the temperature is going to be cold, I'd prefer it to be very cold, because colder temperatures mean less trouble with icing.

Icing, the accumulation of ice on the airplane during flight, is a bigger problem than thunderstorms are. Thunderstorms are not as frequent in summer as icing is in winter, and thunderstorms are loud and boisterous, not stealthy like icing is. It is never a mystery where thunderstorms are, but icing problems can exist in a wide range of winter clouds. Most winter flight planning must consider altitude and routing which minimizes exposure to icing conditions.

Ice will form on the forward face of every part of the airplane's exterior almost any time that it flies through a cloud that is below 32 degrees. It collects on the leading edges of the wings and tail, on the propeller blades and around the engine air intake, and on the antennas, the landing gear, the windshield, and every little doo-dad that is protrudes from the plane. It cuts the efficiency of the wings, engine, and propeller while at the same time, adding weight and aerodynamic drag. It is 100% bad news because the aircraft requires more power when it is crusted with ice, but the ice reduces the power that the engine and propeller can deliver.

The good news is that all clouds are not created equal, and the sky is seldom filled with clouds at all levels. Clouds with a strong moisture feed, such as the ocean, the great lakes, or a strong south wind ahead of a cold front that stretches to the Gulf of Mexico can be a problem. Weather arriving directly from the west such as we have had for the last few weeks is little threat because it is colder and dryer than storms which swing up from the southwest.

Ice that remained on the wing of the Caravan after climbing through a layer of lake- effect clouds.

The problem of aircraft icing lays in the fact that the water within a cloud does not automatically freeze when the temperature drops below 32 degrees. It needs a bit of a nudge. Clouds at a temperature of 30 degrees will typically be composed of tiny drops of water, which are not inclined to freeze unless something like an airplane bumps into them. At this temperature, the water in a particularly moist cloud will strike the airplane and stream backwards on the wings and tail before it finally freezes. Ice such as this will build quickly, and will overwhelm the airplane's de-icing devices.

The atmosphere's ability to hold moisture decreases with temperature. As the temperature decreases, the cloud's moisture content drops, and the water droplets begin to freeze spontaneously. As more of the cloud's moisture freezes it becomes less of a threat. Any remaining water droplets freeze on contact with the plane and remain on the very leading edge of the wings and tail, where the accumulation can be managed with the deice systems. Somewhere between 15 and 5 degrees, the clouds become so dry, and the moisture so frozen that they can almost be ignored, just as though they were above 32 degrees.

The Cessna Caravan that I fly has been called an "ice magnet" because it is simple, boxy, and utilitarian rather than sleek and fast. It has landing gear, wing struts, and a large external baggage pod which are exposed to the slipstream and provide so many "extra" places for ice to collect. Adding insult to injury, the airplane is under powered compared to the multi-engine planes that are more typical of commercial service.

The plane had a full complement of deice devices however. There is a "hot plate" over part of the windshield which maintains a small area of ice- free viewing, there are heating pads at the roots of each propeller blade, and there are inflatable deice boots on the leading edges of the wings, tail, struts, and parts of the landing gear.

The windshield and propeller anti- ice systems are electrical resistance heaters, but the rubber deice boots are pneumatic. Air is bled from the engine compressor section and sent to chambers within the boots, causing them to puff up rapidly, and break the ice that has stuck to them.

Too cold for ice? Yes, there is such a thing. Once you are aware that clouds do not freeze until 10 degrees or so, and that cooler air can hold less moisture than warmer air, the concept is not hard to understand. It is closely related to the more familiar concept that it is "too cold for much snow to fall".


The author Bob Tilden flew a Caravan for a Night Express cargo company for 10 years and has also written a book, Gone Flyin', to order it, visit goneflyin.com or search Gone Flyin' on ebay.com

- CaravanPilot.com