Daily Archives: October 30, 2023

30 October 1991

Aviation, , , , , , , , , , , , ,
Sikorsky HH-60G Pave Hawk 88-26118 of the 12th Rescue Wing—a sister ship of Jolly 110—recovers pararescue jumpers during a training mission outside of San Francisco's Golden Gate. (TSGT Lance Cheung, U.S. Air Force)
Sikorsky HH-60G Pave Hawk 88-26118 of the 129th Rescue Wing, California Air National Guard, recovers pararescue jumpers during a training mission outside of San Francisco’s Golden Gate. (Technical Sergeant Lance Cheung, U.S. Air Force)

30 October 1991: United States Air Force Sikorsky HH-60G Pave Hawk, 88-26110, call sign “Jolly 110,” assigned to the 106th Rescue Wing, New York Air National Guard, headed out into a hurricane that would become known as “The Perfect Storm.” Aboard were Major C. David Ruvola, pilot; Captain Graham Buschor, co-pilot; Staff Sergeant James R. Mioli, flight engineer; and pararescue jumpers Technical Sergeant John Spillane and Technical Sergeant Arden Rick Smith. Their mission was to attempt a rescue 250 miles (400 kilometers) out to sea.

Due to the severity of the storm—a weather buoy located 264 miles (425 kilometers) south of Halifax, Nova Scotia, reported a wave height of 100.7 feet (30.7 meters) on 30 October, the highest ever recorded in that part of the Atlantic Ocean—the Pave Hawk crew was unable to make the rescue and had to return to their base.

Having already refueled from the Lockheed HC-130 Hercules tanker three times during the mission, and with low fuel, a fourth refueling was needed for the helicopter to make it back to the mainland. Because of the the extreme turbulence and lack of visibility, Jolly 110 could not make contact with the refueling drogue trailing behind the airplane.

Major Ruvola made more than 30 attempts, but finally both drogues had been damaged by the severe conditions. With just twenty minutes of fuel remaining, Jolly 110 would have to ditch in the middle of “The Perfect Storm.”

Sikorsky HH-60G Pave Hawk 88-26109, sistership of "Jolly 110", ready for refueling from a C-130. (U.S. Air Force)
Sikorsky HH-60G Pave Hawk 88-26109, a sistership of “Jolly 110,” ready for refueling from a Lockheed MC-130P Combat Shadow, 69-5828. This helicopter was destroyed 7 January 2014, when it crashed off the coast of England following multiple bird strikes at 130 knots. The four-man crew was killed. (TSGT Justin D. Pyle, U.S. Air Force)
Technical Sergeant Arden R. Smith, Pararescue Jumper, 106th Rescue Wing, New York Air National Guard. (U.S. Air Force)
Technical Sergeant Arden R. Smith, Pararescue Jumper, 106th Rescue Wing, New York Air National Guard. (U.S. Air Force)

Unable to refuel, Major Ruvola made the decision to ditch the helicopter into the sea while the engines were still running. At 9:30 p.m., the Sikorsky’s number one engine flamed out from fuel starvation. With one engine still operating, Ruvola held the Pave Hawk in a hover over the raging ocean while Buschor, Mioli, Spillane and Smith jumped.

When the number two engine flamed out, Ruvola put the Pave Hawk into a hovering autorotation. Its blades came to a sudden stop when they hit the face of an oncoming wave. Ruvola was about 15 feet (4.6 meters) under water by the time he was able to escape from the sinking helicopter.

The Pave Hawk had gone down 90 miles (145 kilometers) south of Montauk Point in 100-knot (185 kilometers per hour) winds and 80-foot (25 meter) waves. After five hours in the water, four airmen were rescued by USCGC Tamaroa (WMEC-166), a 48-year-old former U.S. Navy fleet tug, operated by the Coast Guard since the end of World War II as a medium endurance cutter.

The search for Rick Smith continued for a week. He was never found.

USCGC Tamaroa (WMEC-166). (U.S. Coast Guard)
USCGC Tamaroa (WMEC-166). (U.S. Coast Guard)
USCGC Tamaroa (WHEC-166) pitches and rolls in heavy seas during the rescue of Satori, during "The Perfect Storm". (U.S. Coast Guard)
USCGC Tamaroa (WMEC-166) pitches and rolls in heavy seas during the rescue of Satori, a 32-foot sail boat, 29 October 1991. (U.S. Coast Guard)

The U.S. Air Force HH-60G Pave Hawk is medium-sized twin-engine combat search-and-rescue (CSAR) helicopter, developed from the Army UH-60A Black Hawk transport. These helicopters were upgraded with an extendable probe for air-to-air refueling and additional fuel tanks in the cabin. They were given the project name Credible Hawk.

The Credible Hawks were further upgraded to the MH-60G Pave Hawk standard, which incorporated an inertial navigation system, GPS, and Doppler radar for precision navigation. Low-light television, infrared cameras and night vision systems allowed the MH-60G to operate at night and very low altitude. The Pave Hawk is equipped with an Automatic Flight Control System (AFCS), a very sophisticated autopilot which incorporates automatic hover capability.

Some of the MH-60G Pave Hawks received further upgrades for the special operations mission. Helicopters dedicated to CSAR were redesignated HH-60G. A rescue hoist capable of lifting 600 pounds (272 kilograms) from a 200-foot (60.7 meter) hover is incorporated on the upper right side of the fuselage.

Sikorsky HH-60G Pave Hawk, 88-26107, sister ship of 88-26110, which was lost in "The Perfect Storm".
Sikorsky HH-60G Pave Hawk, 88-26107, sister ship of 88-26110, which was lost in “The Perfect Storm.” (U.S. Air Force)

The HH-60G is operated by a crew of two pilots, a flight engineer and gunner. For rescue operations, pararescue jumpers, the famous “P.J.s,” are added to the crew. The helicopter has an overall length of 64 feet, 11 inches (19.787 meters) with rotors turning. The fuselage is 49 feet, 10 inches (15.189 meters) long and 7 feet, 9 inches (2.362 meters) wide. Overall height (rotors turning) is 16 feet, 11 inches (5.156 meters).

The HH-60G has a four-bladed fully-articulated main rotor with elastomeric bearings. It has a diameter of  53 feet, 8 inches (16.358 meters) and turns counterclockwise as seen from above. (The advancing blade is on the helicopter’s right.) The main rotor turns 258 r.p.m., resulting in a blade tip speed of 728 feet per second (222 meters per second). The blades were built with titanium spars and used two different airfoils and a non-linear twist (resulting in a net -16.4°). The outer 20 inches (0.508 meters) were swept aft 20°.

The four-blade bearingless tail rotor assembly is mounted on the right side of a pylon in a tractor configuration. The tail rotor turns clockwise as seen from the helicopter’s left side. (The advancing blade is below the axis of rotation.) The tail rotor has a diameter of 11 feet (3.353 meters) and each blade has a chord of 0.81 feet (0.247 meters) and -18° twist. The tail rotor turns 1,214 r.p.m. and has a tip speed of 699 feet per second (213 meters per second). Because the Black Hawk’s engines are behind the transmission, the aircraft’s center of gravity (c.g.) is also aft. The tail rotor plane is inclined 20° to the left to provide approximately 400 pounds of lift (1.78 kilonewtons) to offset the rearward c.g.

Sikorsky HH-60G Pave Hawk 88-26106, sister ship of Jolly 110, at William J. Fox Field, Lancaster, California. (Alan Radecki)
Sikorsky HH-60G Pave Hawk 88-26106 at William J. Fox Field, Lancaster, California. (Alan Radecki)

Power is supplied by two General Electric T700-GE-701C turboshaft engines which are mounted on top of the fuselage on either side of the transmission and main rotor mast. They have a Maximum Continuous Power rating of 1,662 shaft horsepower, each, at Sea Level on a Standard Day. Maximum Power (10 minute limit) is 1,890 shaft horsepower, and the One Engine Inoperative (OEI) rating is 1,940 shaft horsepower (2½ minute limit.) The -701C is 3 feet, 10 inches (1.684 meters) long), 1 foot, 3.6 inches (0.396 meters) in diameter and weighs 458 pounds (208 kilograms). The helicopter’s main transmission is rated for a maximum 3,400 horsepower.

Sikorsky HH-60G Pave Hawk 91-26403, 33rd Rescue Squadron, Kadena Air Base, Japan, 2001. (MSgt Val Gempis, United States Air Force)

The HH-60G has a cruise speed of 184 miles per hour (296 kilometers per hour) and its maximum speed is 224 miles per hour (361 kilometers per hour). The service ceiling is 14,000 feet (4,267 meters) and maximum range is 373 miles (600 kilometers). The hover ceiling, in ground effect (HIGE) is approximately 10,000 feet (3,048 meters), and out of ground effect (HOGE) is about 6,000 feet (1,830 meters).

Defensive armament consists of two GAU-18A .50-caliber machine guns.

Sikorsky HH-60G Pave Hawk 89-26212. (U.S. Air Force)
Captain Marisa Catlin, 83rd Expeditionary Rescue Squadron, flies a Sikorsky HH-60G Pave Hawk, 89-26212, over the Kunar Province, Afghanistan, 9 February 2011. (Captain Erick Saks, U.S. Air Force)

The U.S. Air Force initially purchased 112 HH-60G Pave Hawk helicopters, though as of May 2016, 96 remain in service. Most of these are approaching their design airframe lifetime limit of 7,000 flight hours. Several have passed 10,000 hours. The Air Force will replace them with a new HH-60W, a combat rescue helicopter based on the Sikorsky UH-60M Black Hawk. 21 U.S. Army UH-60Ls were modified to replace HH-60G losses.

Sikorsky HH-60W 14-4483. (Sikorsky, a Lockheed Martin Company)

The next CSAR helicopter, the HH-60W, based on the Sikorsky UH-60M, made its first flight 17 May 2019. Low-rate production of 10 new Combat Rescue Helicopters was authorized 24 September 2019. The Air Force plans to purchase 113 “Whiskeys.”

On 5 November 2020, the first two HH-60Ws were delivered to Moody AFB, near Valdosta, Georgia.

A Sikorsky HH-60W, 14-1482, at the Sikorsky Development Flight Test Center, Jupiter, Florida, 7 October 2019. (Sikorsky, a Lockheed Martin Company)

© 2019, Bryan R. Swopes

30 October 1961

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Tupolev Tu 95 carrying Tsar Bomba
Tupolev Tu-95V No. 5800302 carrying the RDS-220 bomb.

30 October 1961: At 9:30 a.m., specially modified Tupolev Tu-95V “Bear A” bomber, No. 5800302, under the command of Major Andrey Ergorovich Durnovtsev of the 409th Heavy Bomber Air Regiment, departed Olenegorsk Air Base, 92 kilometers (57 miles) south of Murmansk, at 9:30 a.m. The bomber carried a nine-man crew, including navigator Major Ivan Nikoforovich Mite.

The Tu-95 was accompanied by a Tupolev Tu-16 instrumentation ship (No. 3709), under the command of Colonel Vladimir Fedorovich Martynenko. Some sources say that the two bombers were escorted by a flight of fully-armed fighters.

Major Durnovtsev’s mission was to carry out the Soviet Union’s 130th nuclear weapons test. The Tu-95 carried a single RDS-220, a three-stage radiation-implosion thermonuclear bomb. It was 8 meters (26.25 feet) long, with a diameter of 2.1 meters (6.89 feet), and weighed approximately 27,000 kilograms (59,525 pounds). The bomb was variously known as “Big Ivan” or “Tsar Bomba” (King of Bombs).

Fully assembled RDS-220 three-stage radiation implosion thermonuclear bomb, with retarding parachute in place, at Arzamas-16 .

The Tu-95 dropped the RDS-220 from an altitude of 10,500 meters (34,449 feet) over the D-II test range, 15 kilometers (9 miles) north of the Mityushikha Strait on Novaya Zemlya. The bomb was retarded by parachute to allow the Bear time to escape the blast effects. After falling for 3 minutes, 8 seconds, at 11:33 a.m., the bomb detonated 4,000 meters (13,123 feet) above the surface of Novaya Zemlya. A bright flash of light lasted for 30 seconds and finally faded away after 70 seconds.

45 seconds after detonation, the nuclear cloud reached a height of 30 kilometers (19 miles), then spread outward, reaching a maximum diameter of 95 kilometers (59 miles).

Major Durnovtsev's Tupolev Tu-95N Bear A, carrying the RDS-220 bomb to the target. A Tu-16 instrumentation aircraft is just behind, on the bomber's left quarter.
Major Durnovtsev’s Tupolev Tu-95V “Bear A,” carrying the RDS-220 bomb to the target. A Tu-16 instrumentation aircraft is just behind, on the bomber’s left quarter.
The RDS-220 bomb just after drop. The retarding parachute is beginning to deploy.
“Big Ivan” with first stage parachute deployed.

Major Durnovtsev’s Tu-95 was approximately 39 kilometers (24 miles) away for “ground zero” at the time of the explosion. As it continued to fly away from the blast, the shock waves finally caught up to bomber at a distance of 115 kilometers (71 miles), 8 minutes, 20 seconds after they had released the bomb.

At the same time, a secret United States Air Force Boeing JKC-135A Stratotanker instrumentation aircraft, Speed Light Bravo, 55-3127, had flown closer to ground zero to gather data about the air burst. It was so close that its special anti-radiation paint was scorched. (55-3127 was later converted to the NKC-135A airborne laboratory configuration to support the Limited Test Ban Treaty of 1963. It was returned to tanker configuration in the 1980s. Later, 55-3127 served as a test bed aircraft for the Aeronautical Systems Division at Wright-Patterson  It was retired to Davis-Monthan Air Force Base in 1992.)

Speed Light Bravo, Boeing JKC-135A Stratotanker 55-3127.

After the nuclear explosion data was analyzed by the Foreign Weapons Evaluation Panel (the “Bethe Panel”) the RDS-220 yield was estimated at 57 megatons. This was the largest nuclear weapon detonation in history. It was also the “cleanest,” with 97% of the energy yield produced by fusion. Relative to the size of the explosion, very little fallout was produced.

Tsar Bomba fireball over Novaya Zemlya, 11:32 a.m., 30 October 1961. The fireball has reached a diameter of 5 miles (8 kilometers). Shock waves reflecting off of the ground caused the slight flattening of the bottom of the fireball.

All buildings in the town of Severny, 55 kilometers (34.2 miles) from Ground Zero, were destroyed. Wooden buildings as far as 200 kilometers (124 miles) were destroyed or heavily damaged.

A visible shock wave in the air was seen at a distance of 700 kilometers (435 miles). The shock wave from the explosion traveled around the world three times.

The mushroom cloud of Tsar Bomba climbs into the stratosphere.

Following the test, Major Durnovtsev was promoted to the rank of Lieutenant Colonel and named Hero of the Soviet Union.

The crater created by the Tsar Bomba test, 30 October 1961.

Bear No. 5800302 was ordered in 1955 and completed in 1956. The Tupolev Tu-95 is a long range strategic bomber. It is 151 feet, 6 inches (46.2 meters) long with a wingspan of 164 feet, 5 inches (50.10 meters). The wings are swept at a 35° angle. The bomber is powered by four Kuznetsov NK-12M turboprop engines, producing 14,800 shaft horsepower, each, and turning 8-bladed counter-rotating propellers. It weighs 90,000 kilograms (198,416 pounds) empty, with a maximum takeoff weight of 188,000 kilograms (414,469 pounds). The Bear has a maximum speed of 920 kilometers per hour (572 miles per hour) and an unrefueled range of 15,000 kilometers (9,321 miles). (The Bear A is capable of inflight refueling.) Service ceiling is 13,716 meters (45,000 feet).

Approximately 72 of these aircraft remain in service with the Russian Federation. The current variant is the Tupolev Tu-95MS “Bear H.” Recently, individual bombers have been taken out of service to be modernized by the Beriev Aircraft Company at Taganrog, Russia. The modernized Bear is designated Tu-95MSM. It is expected that 20 Tu-95s will be upgraded.

A current production Tupolev Tu-95 Bear-H strategic bomber. (U.S. Air Force)
A current production Tupolev Tu-95MS Bear H strategic bomber. (Royal Air Force)

Андрей Егорович Дурновцев (Andrey Ergorovich Durnovtsev) was born 14 January 1923 at Verkhney, a village in the Krasnoyarsk Krai of Siberia. He graduated from high school in 1940.

Durnovtsev was inducted into the Red Army 19 July 1942 and sent to the Irkutsk Military School of Aviation Mechanics, graduating in November 1943. He was promoted to sergeant. Sergeant Durnovtsev request assignment for pilot training, and was sent to the 8th Military Aviation School for initial flight training. In August 1945, he was sent to complete training in long-range bombers at the Engels Military Aviation Pilot School (VAUL). He graduated in 1948.

Lieutenant Durnovtsev next attended the Ryazan Higher Officers’ School, studying the combat application of long-ranger bombers. He was assigned as a pilot with the 330th Bomber Aviation Regiment. Durnovtsev served as an aircraft commander, detachment commnder, then deputy squadron commander.

Lieutenant Colonel Durnovtsev was named Hero of the Soviet Union by decree of the Presidium of the Supreme Soviet, 7 March 1962, “for courage and bravery shown in the development of new military equipment.”

Lieutenant Colonel Drnovtsev retired in 1965. During his military career, he had been awarded the Gold Star Medal, the Order of Lenin, the Order of the Red Star, and the Medal for Military Merit.

Lieutenant Colonel Andrey Ergorovich Durnovtsev, Hero of the Soviet Union, died in Kiev, 24 October 1976, at the age of 53 years.

Майор Андрей Дурновцев

A recently declassified 40-minute video of the test can be viewed on YouTube at:

© 2020, Bryan R. Swopes

30 October 1935

Aviation, , , , , , , , , , , , , , , ,
The Boeing Model 299 X13372 (XB-17), prototype four-engine heavy bomber. (U.S. Air Force)
Major Ployer P. Hill, U.S. Army Air Corps (1894–1935)
Major Ployer P. Hill, U.S. Army Air Corps (1894–1935)

30 October 1935: While undergoing evaluation by the U.S. Army Air Corps at Wright Field, northeast of Dayton, Ohio, the Boeing Model 299 Flying Fortress, X13372 ¹—the most technologically sophisticated airplane of its time—took off with Major Ployer P. Hill as pilot.

The largest land airplane built up to that time, the XB-17 “seemed to have defensive machine guns aimed in every direction.” A Seattle Times newspaper reporter, Roland Smith, wrote that it was a “flying fortress.” Boeing copyrighted the name.

Major Hill was the Chief of the Flying Branch, Material Division, at Wright Field. This was his first flight in the airplane. The co-pilot was the Air Corps’ project pilot, Lieutenant Donald Leander Putt. Boeing’s Chief Test Pilot Leslie R. Tower and company mechanic C.W. Benton were also on board, as was Henry Igo of the Pratt & Whitney Aircraft Company.

Immediately after takeoff, the 299 suddenly pitched up, stalled and crashed, then caught fire. Three men, Igo, Benton and Putt, were able to escape from the wreck despite injuries.

The wreck of the Boeing Model 299, NX13372, burns after the fatal crash at Wright Field, 30 October 1935. (U.S. Air Force)
The wreck of the Boeing Model 299, NX13372, burns after the fatal crash at Wright Field, 30 October 1935. (U.S. Air Force)

First Lieutenant Robert K. Giovannoli, a test pilot assigned to the Material Division at Wright Field, saw the crash and immediately went to help. He made two trips into the burning wreck to rescue Hill and Tower, though later they both died of their injuries.

On October 30, 1935, a Boeing plane known as the “flying fortress” crashed during a military demonstration in Ohio — shocking the aviation industry and prompting questions about the future of flight
Lt. R.K. Giovannoli
Lt. Robert K. Giovannoli

Lieutenant Giovannoli was awarded the Soldier’s Medal and the Cheney Award for his heroic rescue of two men from the burning wreck of the Boeing Model 299. His citation reads:

The President of the United States of America, authorized by Act of Congress, July 2, 1926, takes pleasure in presenting the Soldier’s Medal to First Lieutenant Robert K. Giovannoli, United States Army Air Corps, for heroism, not involving actual conflict with an enemy, displayed at Wright Field, Dayton, Ohio, 30 October 1935. When a Boeing experimental bomber crashed and burst into flames, Lieutenant Giovannoli, who was an onlooker, forced his way upon the fuselage and into the front cockpit of the burning plane and extricated one of the passengers. Then upon learning that the pilot was still in the cockpit, Lieutenant Giovannoli, realizing that his own life was in constant peril from fire, smoke, and fuel explosions, rushed back into the flames and after repeated and determined efforts, being badly burned in the attempt, succeeded in extricating the pilot from an entrapped position and assisted him to a place of safety.

General Orders: War Department, General Orders No. 4 (1936)

Burned-out wreck of the Boeing Model 299, NX13372, still smoldering after the crash at Wright Field, Ohio, 30 October 1935. (U.S. Air Force)

The Cheney Award is a bronze medal awarded annually to honor acts of valor, extreme fortitude or self-sacrifice in a humanitarian interest performed in connection with aircraft (not necessarily military). It memorializes U.S. Army Air Service Lieutenant Bill Cheney, who was killed in action on 20 January 1918. The award was initiated by his family. It has been called the “Peacetime Medal of Honor.”

The official investigation of the crash determined that the prototype bomber’s flight crew had neglected to release the flight control gust locks which are intended to prevent damage to the control surfaces while on the ground. Test Pilot Tower recognized the mistake and tried to release the control locks, but could not reach them from his position in the cockpit.

Cockpit of the Boeing Model 299. (U.S. Air Force)
Cockpit of the Boeing Model 299. (Boeing)

Experts wondered if the Flying Fortress was too complex an airplane to fly safely. As a direct result of this accident, the “check list” was developed, now required in all aircraft.

Only one page of the Model 299’s logbook was filled in. (Museum of Flight)

After several years of testing, the Model 299 went into production as the B-17 Flying Fortress. By the end of World War II, 12,731 B-17s had been built by Boeing, Douglas and Lockheed Vega.

Hill Air Force Base, north of Salt Lake City, Utah, was named in honor of Major Ployer Peter Hill, U.S. Army Air Corps. The co-pilot, Lieutenant Putt, remained in the service and eventually achieved the rank of Lieutenant General, U.S. Air Force. He died in 1988.

Robert Giovannoli, 1925. (The Kentuckian)

Robert Kinnaird Giovannoli was born at Washington, D.C., 13 March 1904, the second of two sons of Harry Giovannoli, a newspaper editor, and Carrie Kinnaird Giovanolli. His mother died when he was six years old.

Giovannoli graduated from Lexington High School at Lexington, Kentucky, in 1920 and then attended the University of Kentucky, where, in 1925, he earned a Bachelor of Science degree in Mechanical Engineering (B.S.M.E.). He was a member of the Phi Delta Theta (ΦΔΘ) and Tau Beta Phi (ΤΒΦ) fraternities, treasurer of the sophomore class, and president of the American Institute of Electrical Engineers. He was employed by the General Electric Company at Schenectady, New York.

Giovannoli enlisted in the United States Army in 1927. After completing the Air Corps Primary Flying School at Brooks Field, and the Advanced Flying School at Kelly Field, both in San Antonio, Texas, he was commissioned as a second lieutenant in the Air Corps Reserve, 20 October 1928. Lieutenant Giovannoli was called to active duty 8 May 1930. In 1933, he was assigned to a one year Engineering School at Wright Field. He then was assigned to observe naval aircraft operations aboard USS Ranger (CV-4) in the Pacific Ocean.

On 8 March 1936, just a few days after returning from his temporary assignment with the Navy, Lieutenant Giovannoli was killed when the right wing of his Boeing P-26 pursuit, serial number 32-414, came off in flight over Logan Field, near Baltimore, Maryland.

At the time of his death, Lieutenant Giovannoli had not yet been presented his medals.

First Lieutenant Robert Kinnaird Giovannoli, Air Corps, United States Army, was buried at the Bellevue Cemetery, Danville, Kentucky. In 1985, the Robert Kinnaird Giovannoli Scholarship was established to provide scholarships for students in mechanical engineering at the University of Kentucky College of Engineering.

A formation of Boeing B-17 Flying Fortresses during World War II. (U.S. Air Force)

¹ At that time, experimental and restricted category aircraft were prohibited from displaying the letter “N” at the beginning of their registration mark.

© 2018, Bryan R. Swopes

30 October 1909

Aviation, , , , , ,
“Mr. Moore-Brabazon flying at Shellbeach on the short biplane on which he won the “Daily Mail” £1,000 Prize on Saturday last.” (Flight, Vol. I, No. 45, 6 November 1909, at Page 703)

“The Daily Mail offers a prize of £1,000 to the aviator covering in a heavier-than-air machine the greatest total distance across country, either in England or in France, officially recorded by either the French or English Aero Club, in the twelve months dating from the morning of August 15th, 1909, to the evening of August 14th, 1910.”

30 October 1909: John Theodore Cuthbert Moore-Brabazon, (later, 1st Baron Brabazon of Tara, G.B.E., M.C., P.C.) won a £1,000 prize sponsored by the Daily Mail when he flew his Short Biplane No. 2 on a circular flight of one mile (1.609 kilometers).

Flight, Vol. I, No. 33, 14 August 1909, Page 493.

At the Royal Aero Club flying field at Shellbeach, Isle of Sheppey (on the northern coast of Kent, in the Thames Estuary), Moore-Brabazon took off, turned around a post that had been set at a distance of one-half mile (0.804 kilometers), and returned to land next to the airplane’s launching rail. The duration of Brabazon’s flight was 2 minutes, 36½ seconds.

(Flight, Vol. I, No. 45, 6 November 1909, at Page 701)

Short Brothers Ltd., founded in 1897 as a balloon manufacturer, began building airplanes in 1908. It was the first company to build production airplanes. The Short Biplane No. 2 was designed by Horace Leonard Short. It was similar to the Wright Brothers Model A Flyer, which Short Brothers had been building under license in the United Kingdom. Rather than the Wright’s system of wing-warping, the Biplane No. 2 used ailerons. The first production batch consisted of six airplanes.

Front view of Moore-Brabazon’s Short No. 2. “Mr. J. T. C. Moore-Brabazon’s new biplane, designed and constructed by Messrs. Short Bros., with which he has been making flights at Shellbeach, being brought up to the starting rail after a flight.” Cropped image. (Flight)
ront quarter view of Moore-Brabazon’s Short No. 2. “Getting Mr. Moore-Brabazon’s Short biplane in place on to the starting rail.” Cropped image. (Flight)
“Side view, on the starting rail, of Mr. Moore Brabazon’s biplane, just constructed by Messrs. Short Bros.” (Flight)
“Three-quarter view, from the back, of the Short biplane, constructed for Mr. Moore-Brabazon.” Cropped image. (Flight)

The Biplane No. 2 was 32 feet, 0 inches in length (9.754 meters) with a wingspan of 48 feet, 8 inches (14.834 meters). Its gross weight was 1,485 pounds (674 kilograms).

The Short Biplane No. 2 was powered by a water-cooled, normally-aspirated 8.990 liter (548.602-cubic-inch) Green Engine Co., Ltd., D.4 single overhead camshaft inline 4-cylinder engine, which produced 61.6 horsepower at 1,150 r.p.m., and turned two wooden 2-bladed propellers in a pusher configuration, by means of chain drive. The Green engine produced 67.8 horsepower at 1,210 r.p.m. during a 7 minute maximum power test. The Green D.4 was 44 inches (1.118 meters) long, 33½ inches (0.851 meters) high and 17 inches (0.432 meters) wide. It weighed 287 pounds (130.2 kilograms) with the flywheel.

The Short Biplane No. 2 had a maximum speed of approximately 45 miles per hour (72 kilometers per hour).

Green D.4 gasoline engine, designed by Gustavus Green, 1909. (Wikipedia)
Green D.4 gasoline engine, designed by Gustavus Green, 1909. Copper waterjackets encase the individual cast steel cylinders which are bolted to the aluminum crankcase. (Wikipedia)

The Royal Aero Club began issuing pilot certificates in 1910. The first, Certificate No.1, went to J.T.C. Moore-Brabazon.

J.T.C. Moore-Brabazon's pilot license, RAeC Certifcate No. 1. (RAF Museum)
J.T.C. Moore-Brabazon’s pilot license, R.Ae.C. Aviator’s Certificate No. 1. (RAF Museum)

© 2018, Bryan R. Swopes