Zero/Zero Flight in a Douglas C124 Globemaster II


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Zero/Zero Flight in a Douglas C124 Globemaster II

Courtesy Charles Svoboda.
Edited by David Barth 29 January 2014.

Zero/Zero by Charles Svoboda

Zero/Zero Flight in a Douglas C124 Globemaster II
Douglas C124 Globemaster II.


It happened sometime in 1965, in Germany. I was a copilot, so I knew, everything there was to know about flying, and I was frustrated by pilots like my aircraft commander. He was one of those by-the-numbers types, no class, no imagination, no "feel" for flying. You have to be able to feel an airplane. So what if your altitude is a little off, or if the glideslope indicator is off a hair? If it feels okay then it is okay. That's what I believed.

Every time he let me make an approach, even in VFR conditions, he demanded perfection. Not the slightest deviation was permitted. "If you can't do it when there is no pressure, you surely can't do it when the pucker factor increases," he would say. When he shot an approach, it was as if all the instruments were frozen - perfection, but no class.

Then came that routine flight from the Azores to Germany. The weather was okay. We had 45,000 pounds of fuel and enough cargo to bring the weight of our C-124 Globemaster up to 180,000 pounds, 5,000 pounds below the max allowable. It would be an easy, routine flight all the way.

Halfway to the European mainland, the weather started getting bad. I kept getting updates by high frequency (HF) radio. Our destination, a fighter base, went zero/zero. Our two alternates followed shortly thereafter. All of France was down. We held for two hours, and the weather got worse. Somewhere I heard a fighter pilot declare an emergency because of minimum fuel. He shot two approaches and saw nothing. On the third try, he flamed out and had to eject.

We made a precision radar approach [also called a Ground Controlled Approach (GCA)]. There was nothing but fuzzy fog at minimums. The sun was setting. Now I started to sweat a little. I turned on the instrument lights. When I looked out to where the wings should be, I couldn't even see the navigation lights 85 feet from my eyes. I could barely make out a dull glow from the exhaust stacks of the closest engine, and then only on climb power.

When we reduced power to maximum endurance, that friendly glow faded. The pilot asked the engineer where we stood on fuel. The reply was, "I don't know--- we're so low [on fuel] that the book says the gauges are unreliable below this point. The navigator became a little frantic. We didn't carry parachutes on regular MAC flights, so we couldn't follow the fighter pilot's example [and bail out]. We would land or crash with the airplane.

The pilot then asked me which of the two nearby fighter bases had the widest runway. I looked it up and we declared an emergency as we headed for that field.

The pilot then began his briefing. "This will be for real. No missed approach. We'll make an ILS [approach on instruments using the Instrument Landing System] and get precision radar to keep us honest. Copilot, we'll use half flaps. That'll put the approach speed a little higher, but the pitch angle will be almost level, requiring less attitude change in the flare."

Why hadn't I thought of that? Where was my "feel" and "class" now? The briefing continued, "I'll lock on the gauges. You get ready to take over and complete the landing if you see the runway - that way there will be less room for trouble with me trying to transition from instruments to visual with only a second or two before touchdown."

Hey, he's even going to take advantage of his copilot, I thought. He's not so stupid, after all. "Until we get the runway, you call off every 100 feet above touchdown. Until we get down to 100 feet, use the pressure altimeter. Then switch to the radar altimeter for the last 100 feet, and call off every 25 feet. Keep me honest on the airspeed, also. Engineer, when we touch down, I'll cut the mixtures with the master control lever, and you cut all of the mags [magnetos that provide electricty to the spark plugs on the engine cylinders]. Are there any questions? Let's go!"

All of a sudden, this unfeeling, by the numbers robot was making a lot of sense. Maybe he really was a pilot and maybe I had something more to learn about flying. We made a short procedure turn [turn from downwind leg to the runway approach] to save gas. Radar helped us to get to the outer marker [radio beacon that is positioned a certain distance from the runway]. Half a mile away, we performed the Before Landing Checklist, gear down, flaps 20 degrees. The course deviation indicator [that shows if you are left or right of the runway center line] was locked in the middle, with the glide slope indicator (GSI) beginning its trip down from the top of the case.

[At the beginning of an approach, the GSI needle is pointing upward, showing that the plane is below the glide slope to the runway. At some point, usually the Outer Marker, the plane's horizontal flight intercepts the glide slope, and the pilot begins a descent in order to "capture" it and follow it to the runway. The glide slope is a radio signal that can be read on the GSI needle. If the needle points up, the plane is below the glide slope. If it points down, the plane is above it. The challenge is to keep the needle centered (horizontal).]

When the GSI centered, the pilot called for a small power reduction, lowered the nose slightly, and all of the instruments, except the altimeter, froze. [Keeping the needles centered and steady (i.e. "frozen") is the objective during an approach.]

My Lord, that man had a feel for that airplane! He thought something, and the airplane, all 135,000 pounds of it, did what he thought. "Five hundred feet," I called out, "400 feet. . . 300 feet. . . 200 feet, MATS minimums. . . 100 feet, Air Force minimums; I'm switching to the radar altimeter. . . 75 feet nothing in sight. . . 50 feet, still nothing. . . 25 feet, airspeed 100 knots."

The nose of the aircraft rotated just a couple of degrees, and the airspeed started down [lifting the nose slightly causes the airspeed to drop]. The pilot then casually said, "Hang on, we're landing." "Airspeed 90 knots. . . 10 feet, here we go!" The pilot reached up and cut the mixtures [levers that control the fuel to the engines] with the master control lever, without taking his eyes off the instruments. He told the engineer to cut all the mags to reduce the chance of fire.

CONTACT! I could barely feel it. As smooth a landing as I have ever known, and I couldn't even tell if we were on the runway, because we could only see the occasional blur of a light streaking by. "Copilot, verify hydraulic boost is on, I'll need it for brakes and steering." I complied. "Hydraulic boost pump is on, pressure is up." The brakes came on slowly [pilot applied the brakes gently]; we didn't want to skid this big beast now. I looked over at the pilot. He was still on the instruments, steering to keep the course deviation indicator in the center, and that is exactly where it stayed.

"Airspeed, 50 knots." We might make it yet. "Airspeed, 25 knots." We'll make it if we don't run off a cliff. Then I heard a strange sound. I could hear the whir of the gyros, the buzz of the inverters, and a low frequency thumping. Nothing else. The thumping was my pulse, and I couldn't hear anyone breathing. We had made it! We were standing still!

The aircraft commander was still all pilot. "After-landing checklist, get all those motors, radar and un-necessary radios off while we still have batteries. [The plane would need battery power to start the engines, later.] Copilot, tell them that we have arrived, to send a follow me truck out to the runway because we can't even see the edges." I left the VHF on and thanked GCA for the approach.

The guys in the tower didn't believe we were there. They had walked outside and couldn't hear or see anything. We assured them that we were there, somewhere on the localizer centerline, with about half a mile showing on the DME. We waited about 20 minutes for the truck. Not being in our customary hurry, just getting our breath back and letting our pulses diminish to a reasonable rate.

Then I felt it. The cockpit shuddered as if the nose gear had run over a bump. I told the loadmaster to go out the crew entrance to see what happened. He dropped the door (which is immediately in front of the nose gear), and it hit something with a loud, metallic bang. He came on the interphone and said "Sir, you'll never believe this. The follow-me truck couldn't see us and ran smack into our nose tire with his bumper, but he bounced off, and nothing is hurt."

The pilot then told the tower that we were parking the bird right where it was and that we would come in via the truck. It took a few minutes to get our clothing and to button up the airplane. I climbed out and saw the nose tires straddling the runway centerline. A few feet away was the truck with its embarrassed driver.

Total damage: one dent in the hood of the follow-me truck where the hatch had opened onto it. Then I remembered the story from Fate Is the Hunter. When Gann was an airline copilot making a simple night range approach, his captain kept lighting matches in front of his eyes. It scarred and infuriated Gann. When they landed, the captain said that Gann was ready to upgrade to captain. If he could handle a night-range approach with all of that harassment, then he could handle anything.

At last I understood what true professionalism is. Being a pilot isn't all seat-of-the-pants flying and glory. It's self-discipline, practice, study, analysis and preparation. It's precision. If you can't keep the gauges where you want them with everything free and easy, how can you keep them there when everything goes wrong?