1983: Goldwing Ltd., P.O. Box 1123, Jackson, CA 95642, USA.
UL builder
Manufacturer
Gold Marque Sports
Amongst the early birds, Ben.Ashman later went on to become manufacturers as Gold Marque.
Hang glider manufacturer
Golden Eagle Aircraft Corp
USA
Incorporated in 1929 at Inglewood, California, with F. M. Smith as chief engineer. Built Golden Eagle Chief high-wing two-seat training monoplane at that time. Three versions built with engines from 60-100 hp.
Golden Circle Air
1995-7: 10 Ellison Dr, DeSoto, IA 50069, USA.
UL builder
Golden Age Aircraft
1983: Golden Age Aircraft Company Inc., P.O. Box 846, Worthington, OH 43085, USA.
Built replica Waco aircraft
Goetze, Richard
Germany
Commandit Gesellschaft Richard Goetze founded in First World War with four factories in the Berlin area. Reputed to have built Otto biplanes.
Goedecker, Jacob
Small company at Niederwalluf-on-Rhine, built several Taube-type monoplanes prewar and Goedecker B trainer prototype in 1915. Also ran flying school. Closed at time of Versailles Peace Treaty.
Gnome-Rhône
Société des Moteurs Gnôme was founded in 1905 by Louis Seguin. In 1915, this firm merged with the Société des Moteurs Le Rhône, founded three years earlier by Louis Verdet, to form Gnôme & Rhône. While Gnôme had continued to produce rotary engines in the 50 to 100 horsepower range, Rhône had refined its fixed-cylinder engines to produce 200 horsepower. However, both these lines of engines were being outclassed in terms of reliability, economy, or power by several contemporary engine manufacturers.
Seguin brothers of Gnome-Rhone Article
Nevertheless, the two merged companies were quite successful commercially, thanks to licensed production in Great Britain, Russia, the United States, Sweden, Germany, and Japan, as well as joint ventures in Italy and elsewhere.
A number of factors hit Gnôme & Rhône (G&R) hard after the war. A huge tax burden was levied based on the firm’s previous international success. At the same time, a mass of war surplus engines glutted the market.
Unlike its other domestic rivals, Gnôme & Rhône lacked experience in areas apart from aero engines, a market now glutted by thousands of surplus motors. A variety of schemes, from making sewing machines to engines for farm tractors or cars, all failed. In constant francs, the company’s sales in 1921 were almost half those of 1913, though the factories were five times larger, notes one scholar in the journal Entreprise et Histoire. In that year, the already legendary company reduced its employment from 6500 workers to 1200.
Production of motorcycles under the Gnôme & Rhône was one area that produced quite satisfactory results in the marketplace; in fact these machines gained a devoted following. In 1922 the English firm Bristol licensed to G&R the right to produce its powerful air-cooled radial engines producing up to 450 horsepower, as well as the freedom to sell them anywhere in the world except for the United States and the territories of the British Empire. With the support of its banks, G&R was able to retool its workshops to build engines, including the new Jupiter introduced in 1923. At the time, G&R had also taken a significant holding in a French-Romanian airline, which helped establish its engines in Eastern Europe.
Between 1924 and 1928, sales increased more than sixfold. At the same time, the air, sea, and land branches of the French military were deciding their outdated equipment was in need of replacement, hence, another blossoming market at home. Expanding commercial fleets produced still more demand. The radial Jupiter engines earned a reputation for being simple to run and easy to fix, even if in-line and V-8 engines made by Hispano-Suiza and Lorraine-Dietrich were more powerful. A novel program, instituted in 1924, allowed for the lease of the engines for a given number of flight-hours, which relieved designers and manufacturers some of the financial strain associated with bringing out new models of aircraft. The popular Jupiter engine was subsequently licensed for production in several European countries as well as the Soviet Union and Japan.
G&R introduced its K family of engines in 1928. In terms of power, this series culminated in the 750 horsepower 14K licensed to a Soviet factory for eventual use in Antonov transports. G&R’s designers evolved L, M, and N families of engines by 1939; one of the latter achieved 1150 horsepower.
Air power played a determining role World War II, and G&R engines had a significant part to play. The Soviet Union’s Molotov factory was producing 300 licensed G&R engines a month in 1940 for use in biplanes and Sukhoi fighters. In Japan, Mitsui illegally copied the 850 h.p. 14K engine, producing the “Suizei” powerplant found in the Mitsubishi Zeroes that attacked Pearl Harbor. During the Nazi occupation of France, G&R became a subsidiary of BMW. Emmanuel Chadeau writes in Entreprises et Histoire that G&R thereby influenced 16 manufacturers in 14 countries during the war; this off-shore production nearly equalled G&R’s own output of 8,000 motors a year, together accounting for a quarter of the worldwide market.
The high share price that G&R commanded prevented it from being nationalized before the war. However, this did come to pass after the Liberation. SNECMA, la Société nationale d’étude et de construction de moteurs d’aviation, was thus created on May 29, 1945. The company was an amalgamation of diverse design bureaus and workshops; it inherited a work force of 10,000 mostly part-time employees. Along with G&R, Snecma was given some of the factories of the Société des moteurs et automobiles Lorraine, formerly Lorraine-Dietrich, which had been nationalized as la Société nationale des moteurs and had been relegated to making parts for tanks. Some of Snecma’s other facilities had been devoted to the production of German Junkers engines by the thousands during the Nazi occupation. G&R also owned a factory of the Aéroplanes Voisin firm, which had gone bankrupt in 1938.
GM srl
1998:
Via S.Giustina, 14
I-43007 Sarego (Vi)
Italy
Engine builder
Gluhareff
Eugene M. Gluhareff was born in St. Petersburg, Russia in 1916 immigrating to the United States with his family via Finland in the early 1920’s.
An Aeronautical Engineer graduate of Rensselaer Polytechnic Institute in Troy, New York, he is a jet engine and helicopter designer and inventor. His extensive experience was acquired over many years of association with leading companies in the fields of design, research and development.
He has been a part of helicopter development since its beginning in 1940 with Sikorsky Aircraft Corporation in Bridgeport, Connecticut as a primary design engineer and project engineer. He worked directly under Mr. Igor I. Sikorsky and Mr. Igor A. Sikorsky, Chief of Aerodynamics. It was there he invented and developed the Pulse Jet Engine, a one-man single bladed jet helicopter which he test flew himself and also a Delta Wing Convertiplane for the United States Airforce.
In 1950 he moved to California and joined the American Helicopter Company in Manhattan Beach as a project engineer on a pulse jet powered helicopter (Top Sergeant). He was promoted to Chief of Preliminary Design and there designed the XH-26 One-Man-Jet Helicopter for the U.S.A.F.. Following this term with American Helicopter, he worked with Rotorcraft Corporation in Glendale, California as Design Engineer and was engaged in the redesign of a rocket powered one-man-helicopter for the U.S. Navy.
Eugene Gluhareff established a development company in 1952 to carry out research into pressure-jet powered light helicopters.
It was during this time that Mr. Gluhareff pioneered the use of liquid propane as a fuel for jet engines and a series of ultra-light portable one-man-helicopters, MEG-1X, MEG-2X and MEG-3X which were designed and built by his own company, Gluhareff Helicopters Corporation. All of which were powered by the G8-2 Pressure Jet Engine on the blade tip and test flown by himself.
In the early sixties, he was employed by the U.S. Navy at the Naval Ordinance Test Station in China Lake, California as an Aerospace Engineer FS-14 and Project Engineer on Rotary Drones. In 1964 he joined the Douglas Aricraft Company, Missile and Space Division as Design Engineer Scientist on the S-4 stage of the Saturn Rocket used on NASA’s Apollo Project. During this time he participated in the launching of four Saturns. Later he worked at McDonnel Douglas Aircraft in Long Beach, California as a Senior Design Engineer in Advanced System for Special Projects researching and testing rocket engines. There he became a specialist in the design of rocket stabilization systems for ejection seats and capsules.
In 1972 Mr. Gluhareff returned to research and design under his own company name of EMG Engineering in Gardena, California. There he continued his work on the G8-2 Pressure Jet Engines which ranged from five pounds of thrust to 700 pounds of thrust. To further promote the study of aerodynamics and jet propulsion, Mr. Gluhareff designed and placed in universities throughout the country the Gluhareff GTS-15 Teaching Stand. He also had the G8-2 Pressure Jet Engine displayed as a working exhibit in the California Museum of Science and Industry in Los Angeles. The G8-2 Jet Engine had the honor of gracing the cover of Mechanics Illustrated in May of 1973 and again in January 1975 in the Jet Powered Go-Kart.
Mr. Gluhareff designed, built and tested his own one-man tip jet helicopter, the EMG-300 in the early 90’s. Its successful test flight marked the realization of Mr. Gluhareff’s lifelong dream to design what he called a “Flying Motorcycle”. He had several patents issued and applied for, for his inventions. Some of which are the G8-2 Jet, Valveless Pulse Jet, Portable and One-Man Helicopters, Flying Platform, Rotorcar, Convertiplane, Rocket Stabilization Unit and others.
All Aero 