or appertaining to Internal Combustion Engines GB Patent GB190011038, filed June 1900 1 "Internal Combustion Engine US Patent US746342, filed August 1900 2 "The Koerting Two-Cycle. The layers of mineral wool are covered with galvanised sheet steel that should.5. The product line was continually hubo korting verf adjusted throughout the 20th century, whereby the core competence flow devices (ejector pumps, nozzles, and industrial burners) became ever more sophisticated. A jet ejector requires no mechanical drive and has no moving parts. In 1889, a new, larger factory with a large foundry and a powerhouse, would be erected. Figures 1 to 3 show the structure of the insulation concerned. The function depends, above all, on the design of the motive nozzle (2) and of the diffuser (4 5). Contents, history edit, the Körting Brothers company was founded in Hanover on November 1, 1871 by the brothers Berthold and Ernst Körting. A steam jet ejector is illustrated below as example (steam serves as motive fluid to create vacuum). The 1909 Gross-Basenach experimental M III airship was equipped with two Körting V8 engines. The end of a sound insulation section on the floor of the pipe or container.
Korting steam jet ejector, Wood print 15 korting
The enterprise grew quickly, and in a few years established proxies in Germany and neighboring European lands (London, Paris, Milan, Genoa, Barcelona, Breslau (Wrocaw. In 1904, the Fusch family entered the company through marriage. The increase from suction pressure ps to discharge pressure pd corresponds to the delivery head for the suction flow or to the pressure difference of the jet ejector. The Körting design was quite successful in a range of applications particularly large installations powered by blast furnace gas. This allowing the engine to be started after 5 minutes. General points, the methods described below for insulating jet ejectors, condensers, sound absorbers and pipes are merely suggestions. The cylinder had combustion chambers at either end. Sound insulation on a pipe branch. Insulate both the pipes connected and the jet ejector. Jet ejectors are used to create vacuum, to compress gases, to convey liquids, to transport granular solids, to mix liquids or gases. The application field determines the shape of the flow cross-section which is designed individually dependent on the motive medium. The term jet ejector describes a device in which a pumping effect is achieved using a motive fluid.