Difference between revisions of "Turbinia"
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[[image:Im1956EnVCen-p215.jpg |thumb|1894 Original Turbine of the SS Turbinia.]] | [[image:Im1956EnVCen-p215.jpg |thumb|1894 Original Turbine of the SS Turbinia.]] | ||
[[Image:JD SciMus4.jpg|thumb|Original turbine on | [[Image:JD SciMus4.jpg|thumb|Original turbine on display at the [[London Science Museum]]]] | ||
[[image:Im1897Ev63-p523.jpg|thumb| 1897. ]] | [[image:Im1897Ev63-p523.jpg|thumb| 1897. ]] | ||
[[Image:Im201302New-Turb0.jpg|thumb| Exhibit at the [[Discovery Museum, Newcastle]] ]] | [[Image:Im201302New-Turb0.jpg|thumb| Exhibit at the [[Discovery Museum, Newcastle]] ]] | ||
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Turbinia, designed by [[Charles Algernon Parsons]] and made by the [[Marine Steam Turbine Co]]. | Turbinia, designed by [[Charles Algernon Parsons]] and made by the [[Marine Steam Turbine Co]]. | ||
Parsons undertook a great deal of investigative work to develop the high speed machinery, propellors, and, vitally, the shape of a hull to allow the anticipated speed to be obtained. | |||
1894 Parsons applied for a patent for 'propelling a vessel by means of a steam turbine, which turbine actuates the propeller or paddle shaft directly or through gearing'. | 1894 Parsons applied for a patent for 'propelling a vessel by means of a steam turbine, which turbine actuates the propeller or paddle shaft directly or through gearing'. | ||
1894 Parsons formed the [[Marine Steam Turbine Co]] to exploit the marine applications of his turbine and to construct the Turbinia. | 1894 Parsons formed the [[Marine Steam Turbine Co]] to exploit the marine applications of his turbine and to construct the Turbinia, with works at Wallsend. | ||
1894 Preliminary trials were made on November 14th, using a single propeller of 30" diameter. This suffered excessive slip, and a four bladed propeller was next tried, with no benefit. Various other types were tried, the best results coming from three propellers on the one shaft, but still the slip was too high and the vessel's speed unsatisfactory. The problem was doagnosed as cavitation, a term applied to a phenomenon first noticed by Sir John I. Thornycroft and S. W. Barnaby in 1893, during trials of a 27-knot 'Daring' class torpedo-boat destroyer. | |||
In order to confirm that the turbine machinery was developing the expected power, and that the problem was with the propellers, a simple, ingenious torque meter was developed. This confirmed that the problem lay with the propeller efficiency. | |||
1897 Turbinia was sailed at speed through the Diamond Jubilee fleet review of the Royal Navy in June 1897 off Portsmouth, demonstrating the great potential of the new technology. Today, Turbinia is housed in a purpose-built gallery at the Discovery Museum, Newcastle. | 1897 Turbinia was sailed at speed through the Diamond Jubilee fleet review of the Royal Navy in June 1897 off Portsmouth, demonstrating the great potential of the new technology. Today, Turbinia is housed in a purpose-built gallery at the Discovery Museum, Newcastle. | ||
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1928 The aft-part and the turbine engine of the ''Turbinia'' were presented to the [[London Science Museum]], there being insufficient space for the whole vessel. The original turbine (which had been replaced) was also part of the gift<ref>The Times, 18 June 1927</ref>. | 1928 The aft-part and the turbine engine of the ''Turbinia'' were presented to the [[London Science Museum]], there being insufficient space for the whole vessel. The original turbine (which had been replaced) was also part of the gift<ref>The Times, 18 June 1927</ref>. | ||
The fore and aft parts of the hull have been reunited, and are impressively displayed in the [[Discovery Museum, Newcastle]], along with important artefacts used in the development of the vessel. The original (radial flow) turbine remains on display in the [[London Science Museum]]. | The fore and aft parts of the hull have been reunited, and are impressively displayed in the [[Discovery Museum, Newcastle]], along with important models and artefacts used in the development of the vessel. The original (radial flow) turbine remains on display in the [[London Science Museum]]. | ||
== See Also == | == See Also == |
Revision as of 15:37, 12 April 2018
Turbinia, designed by Charles Algernon Parsons and made by the Marine Steam Turbine Co.
Parsons undertook a great deal of investigative work to develop the high speed machinery, propellors, and, vitally, the shape of a hull to allow the anticipated speed to be obtained.
1894 Parsons applied for a patent for 'propelling a vessel by means of a steam turbine, which turbine actuates the propeller or paddle shaft directly or through gearing'.
1894 Parsons formed the Marine Steam Turbine Co to exploit the marine applications of his turbine and to construct the Turbinia, with works at Wallsend.
1894 Preliminary trials were made on November 14th, using a single propeller of 30" diameter. This suffered excessive slip, and a four bladed propeller was next tried, with no benefit. Various other types were tried, the best results coming from three propellers on the one shaft, but still the slip was too high and the vessel's speed unsatisfactory. The problem was doagnosed as cavitation, a term applied to a phenomenon first noticed by Sir John I. Thornycroft and S. W. Barnaby in 1893, during trials of a 27-knot 'Daring' class torpedo-boat destroyer.
In order to confirm that the turbine machinery was developing the expected power, and that the problem was with the propellers, a simple, ingenious torque meter was developed. This confirmed that the problem lay with the propeller efficiency.
1897 Turbinia was sailed at speed through the Diamond Jubilee fleet review of the Royal Navy in June 1897 off Portsmouth, demonstrating the great potential of the new technology. Today, Turbinia is housed in a purpose-built gallery at the Discovery Museum, Newcastle.
1897 After the success of the Turbinia, Parsons established the Parsons Marine Steam Turbine Co with £500,000 of capital to acquire the assets and licences of the Marine Steam Turbine Co.
1928 The aft-part and the turbine engine of the Turbinia were presented to the London Science Museum, there being insufficient space for the whole vessel. The original turbine (which had been replaced) was also part of the gift[1].
The fore and aft parts of the hull have been reunited, and are impressively displayed in the Discovery Museum, Newcastle, along with important models and artefacts used in the development of the vessel. The original (radial flow) turbine remains on display in the London Science Museum.
See Also
Sources of Information
- ↑ The Times, 18 June 1927