Daily Archives: May 9, 2017

9 May 1962

Sikorsky S-64 Skycrane N325Y, s/n 64001. (John Daniel)

9 May 1962: The Sikorsky S-64 Skycrane, N325Y, prototype of a heavy-lift helicopter, made its first flight at Stratford, Connecticut. The Skycrane was a turbine-powered evolution of the piston-engined S-60. The United States Army bought six S-64s for evaluation, and then ordered 54 production aircraft, designated CH-54A Tarhe, and 35 CH-54Bs. Sikorsky produced 12 S-64E and Fs for the commercial helicopter market.

The Sikorsky CH-54A Tarhe is a large single-main-rotor/tail rotor helicopter, specifically designed to carry large external loads. In U.S. Army service, it had a crew of five: pilot, co-pilot, third pilot and two mechanics. The third pilot was in a rear-facing cockpit position and flew the helicopter while it was hovering to pick up or position an external load.

The CH-54A is 88 feet, 5.9 inches (26.972 meters) long and 25 feet, 4.7 inches (7.739 meters) high. The main rotor has six blades and turns counter-clockwise, seen from above. (The advancing blade is on the helicopter’s right side.) The main rotor has a diameter of 72 feet (21.946 meters). The main rotor blades have a chord of 1.97 feet (0.601 meters) and incorporate a twist of -13°. The tail rotor has four blades and is placed on the left side of a vertical pylon in a pusher configuration. The tail rotor turns clockwise, as seen from the helicopter’s left side. (The advancing blade is below the axis of rotation.) The diameter of the tail rotor is 16 feet (4.877 meters). The chord of the tail rotor blade is 1.28 feet (0.390 meters).

The helicopter has an empty weight of 19,120 pounds (8,673 kilograms) a design gross weight of 38,000 pounds (17,237 kilograms) and overload gross weight of 42,000 pounds (19,051 kilograms).

The CH-54A is powered by two Pratt & Whitney JFTD12A-4A (T73-P-1) turboshaft engines, each rated at 4,000 shaft horsepower at 9,000 r.p.m. (N2) maximum continuous power at Sea Level, and 4,500 shaft horsepower at 9,500 r.p.m. (N2) for takeoff, 5-minute limit, or 30 minutes, with one engine inoperative (OEI). The maximum gas generator speed (N1) is 16,700 r.p.m. The T73-P-1 is an axial-flow free-turbine turboshaft engine with a 9-stage compressor section, 8 combustion chambers and a 4-stage turbine section (2-stage gas generator and 2-stage free turbine). It is 107.0 inches (2.718 meters) long, 30.0 inches (0.762 meters) in diameter, and weighs 966 pounds (438 kilograms). The helicopter’s main transmission is limited to a maximum 6,600 horsepower.

It has a useful load of 22,880 pounds (10,342 kilograms) and can carry a payload of 20,000 pounds (9,072 kilograms) from a single point cargo hoist.

The CH-54A has a maximum cruise speed of 115 knots (132 miles per hour, 213 kilometers per hour). It’s range is 217 nautical miles (250 miles,  402 kilometers). The CH-54A has a hover ceiling in ground effect (HIGE) of 10,600 feet (3,231 meters) and its service ceiling is 13,000 feet (3,962 meters).

The United States Army has a tradition of using Native American names for its aircraft. Tarhe (pronounced tar-HAY) was a famous chief, or sachem, of the Wyandot People of North America, who lived from 1742–1818. He was very tall and the French settlers called him “The Crane.”

Sikorsky CH-54A Tarhe 68-18448, Nevada National Guard, 16 November 1989. (Mike Freer/Wikipedia)

N325Y, the prototype Sikorsky S-64, was damaged beyond repair in an accident near Arboles, California, 19 August 1968. The FAA registration was cancelled.

© 2017, Bryan R. Swopes

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9 May 1932

Captain Albert Francis Hegenberger, Air Corps, United States Army. (NASM)

9 May 1932: At McCook Field, Ohio, Captain Albert Francis Hegenberger, Air Corps, United States Army, flew the very first solo instrument approach and landing, using a system which he had developed. The Hegenberger system, which was adopted by both civil and military aviation authorities, used a series of non-directional beacons (NDB) and marker beacons on the ground, along with a radio-compass and other gyroscopic instruments and radio receivers aboard the aircraft, a Consolidated NY-2 biplane.

Hegenberger had located one NDB 1,500 feet from the airfield boundary, and another at 1½ miles. They were aligned with the runway centerline. Both had marker beacons which would signal that the airplane was directly overhead. The radio compass aboard the airplane would indicate the direction of the NDB relative to the airplane and lights would illuminate when it passed over the marker beacons. When the airplane was heading directly toward the NDB, the needle pointed to zero.

A Consolidated NY-2 in flight. A hood covers the rear cockpit, preventing the pilot from seeing outside. (San Diego Air and Space Museum)

Captain Hegenberger turned toward the inner NDB from a distance of 50 miles. He passed over it at a pre-planned altitude. When the lights on the instrument panel came on indicating that he was directly over the inner marker beacon, he turned toward the outer NDB. Crossing the outer marker, Hegenberger made a 180° turn back toward the inner NDB and began his descent. As he passed over the inner NDB again, he reduced engine power and placed the airplane in a landing attitude and waited for it to touch down on the runway.

This flight was the first solo blind instrument flight, approach and landing. (Lt. James H. Doolittle had made a blind instrument flight in 1929, but he carried a safety pilot aboard.) For his accomplishment, Captain Hegenberger was awarded an oak leaf cluster (a second award) for his Distinguished Flying Cross, and received the Collier Trophy, an annual award for the greatest achievement in aeronautics in America.

Captain Albert F. Hegenberger, USAAC, receiving the Collier Trophy from President Roosevelt.

Within one week, the Civil Aeronautics Board created a new pilot rating and required that all commercial pilots demonstrate proficiency in instrument flight. In 1935, the CAB adopted Hegenberger’s system and ordered equipment installed at all major airports between New York and Los Angeles.

Albert F. Hegenberger rose to the rank of Major General. He retired from the Air Force in 1949.

© 2017, Bryan R. Swopes

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9 May 1926

The Byrd Arctic Expedition Fokker F.VIIa/3m at Spitzbergen, Svalbard, 9 May 1927. (Ohio State University Archives)

9 May 1926: Lieutenant Commander Richard Evelyn Byrd, Jr., and Chief Aviation Pilot Floyd Bennett, United States Navy, departed Spitzbergen in the Svalbard Archipelago, Norway, on a round-trip flight to the North Pole.

Lieutenant Commander Richard E. Byrd, Jr., U.S. Navy
Lieutenant Commander Richard E. Byrd, Jr., U.S. Navy (Library of Congress)
Chief Aviation Pilot Floyd Bennett, U.S. Navy (Photo NH 50611)
Chief Aviation Pilot Floyd Bennett, U.S. Navy. (U.S. Navy)

Their aircraft was a Fokker F.VIIa/3m three-engine, high-wing monoplane, construction number 4900. It was purchased for the Byrd Arctic Expedition by Edsel Ford, and named Josephine Ford in honor of his 3-year-old daughter, Josephine Clay Ford.

Fokker F.VIIa/3m c/n 4900, Josephine Ford. (Getty Images/Hulton Archive)
Fokker F.VIIa/3m, Josephine Ford. (Getty Images/Hulton Archive)

With Chief Bennett as the expedition’s pilot and Lieutenant Commander Byrd navigating, they flew approximately 1,600 miles (2,575 kilometers) to the Pole and returned the same day. The total duration of the flight was 15 hours, 44 minutes.

Commander Byrd, President Coolidge, Warrant Officer Bennett.
Secretary of the Navy Curtis Dwight Wilbur, Commander Richard Evelyn Byrd, Jr., President John Calvin Coolidge, Jr., Warrant Officer Floyd Bennett and Admiral Edward Walter Eberle, at the White House, 5 March 1927.
Medal of Honor, U.S. Navy, 1919–1942.

For this accomplishment, Lieutenant Commander Byrd was promoted to Commander, and Chief Bennett to Warrant Officer. Both aviators were awarded the Medal of Honor by President Coolidge.

In the years since this event, there has been speculation that the airplane may not have actually reached the North Pole. Professor Gerald Newsom of Ohio State University, an astronomer who taught celestial navigation, analyzed Byrd’s handwritten notes and estimated that because of the inadequacies of the equipment then available to Byrd, Josephine Ford may have flown 21 miles (33.8 kilometers) beyond the North Pole, or fallen 78 miles (125.5 kilometers) short. Professor Newsom pointed out, though, that the fact the Byrd was able to return to Svalbard after nearly 16 hours proves that he knew how to navigate using that equipment under those conditions. (See https://web.archive.org/web/20161216185546/http://researchnews.osu.edu/archive/byrdnorth.htm for additional information.)

Richard E. Byrd holding a Bumstead Sun Compass used for celestial navigation at very high latitudes, 1925. (Maynard Owen Williams/National Geographic Society, Image ID 612617)
Richard E. Byrd holding a Bumstead Sun Compass used for celestial navigation at very high latitudes, 1925. (Maynard Owen Williams/National Geographic Society, Image ID 612617)
Fokker F.VIIa/3m c/n 4900, Josephine Ford (David Horn Collection)
Fokker F.VIIa/3 Josephine Ford (David Horn Collection)

Josephine Ford is the first Fokker F.VIIa/3m monoplane, c/n 4900. It was built by Anton H.G. Fokker’s Nederlandse Vliegtuigenfabriek at Veere, Netherlands in 1925, and made its first flight at Schipol, 4 September 1925. The airplane was disassembled and shipped to the United States. 4900 was flown in the First Annual Aerial Reliability Tour, 28 September–3 October 1925, by Egbert P. Lott.

The United States did not register aircraft prior to 1927. However, various sources attribute several different registration marks to Josephine Ford, e.g., NC267, NC297, NX4204. Though its serial number is generally accepted to be 4900, there are some sources that give the c/n as 600.

And again, sources vary as to the actual dimensions of the Fokker F.VIIa/3m. The Henry Ford, the museum which owns the airplane, gives its dimensions as 49.167 feet (14.986 meters) in length, with a wingspan of 63.5 feet (19.355 meters) and height of 12.75 feet (3.886 meters). Another source says that the airplane is 47 feet, 11 inches (14.605 meters) long with a wingspan of 63 feet, 4 inches (19.304 meters) and height of 12 feet, 8 inches (3.861 meters). Its empty weight is variously given as 4,630 pounds, 5,060 pounds or 6,724 pounds and maximum takeoff weight is 7,950 pounds, 8,800 pounds or 11,464 pounds. It has a cruise speed of 81 knots. Or 90. . . .

Josephine Ford was powered by three 787¼-cubic-inch-displacement (12.901 liter) air-cooled Wright Aeronautical Corporation Model J-4 Whirlwind nine-cylinder radial engines, rated at 215 horsepower at 1,800 r.p.m. The J-4 weighed 475 pounds.

Josephine Ford is in the collection of The Henry Ford Museum, Dearborn, Michigan.

Fokker F.VII/3m Josephine Ford, flown by the Byrd Arctic Expedition, in the collection of The Henry Ford Museum.
Fokker F.VIIa/3m Josephine Ford, flown by the Byrd Arctic Expedition, in the collection of The Henry Ford, Dearborn, Michigan. (The Henry Ford Museum)

© 2017, Bryan R. Swopes

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