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| title | chunk | source | category | tags | date_saved | instance |
|---|---|---|---|---|---|---|
| Goldsworthy Gurney | 7/8 | https://en.wikipedia.org/wiki/Goldsworthy_Gurney | reference | science, encyclopedia | 2026-05-05T04:06:20.803004+00:00 | kb-cron |
A key development of his time at the Surrey Institute was use of the oxy-hydrogen blowpipe, normally credited to Robert Hare, in which an intensely hot flame was created by burning a jet of oxygen and hydrogen together. The blowpipe was the underpinning of limelight, and Gurney was its first exponent. According to A History of The Growth of The Steam-Engine by Robert H. Thurston, Gurney was a proponent of the ammonia engine. "In 1822… Mr. Goldsworthy Gurney, who subsequently took an active part in their introduction, stated, in his lectures, that "elementary power is capable of being applied to propel carriages along common roads with great political advantage, and the floating knowledge of the day places the object within reach." He made an ammonia engine—probably the first ever made—and worked it so successfully, that he made use of it in driving a little locomotive." Arising from his successes with mine ventilation he was commissioned in 1852 to improve the gas lighting, heating, and especially the ventilation systems for the new Houses of Parliament at Westminster. Although he had some success in moving air around the palace buildings, ridding the legislature of the foul smell of the Thames was beyond his skill. Gurney worked on many other projects, with interests and patents extending from improved steam engine design, to electric telegraphy and the design of musical instruments.
=== Steam Jet === The steam-jet or blastpipe served to increase the draw of air through pipes, and was applied to improve mine and sewerage ventilation, to increase the efficiency of steam-powered stationary engines and blast furnaces, and road or rail vehicles. After the Rainhill trials of 1829, there was considerable controversy as to the genesis of this invention since it became associated in the mind of the public with George Stephenson—probably through the agency of Samuel Smiles' biography of that man. In her 1875 letter to The Times, his daughter traces the path of the idea: Gurney communicated it to Timothy Hackworth, who employed it in his Royal George locomotive of 1827, from which Stephenson allegedly took his inspiration for its inclusion in the Rocket. This is belied by Gurney's use of a fan to provide the blast in his patent design of October 1827 for an improved version of his steam carriage. The first of Gurney's steam carriages to which people objected on the grounds of noise were Sir Charles Dance's on the Cheltenham - Gloucester road in 1831. This was attributed to the use of steam blast. More recent letters acquired by the National Railway Museum suggest that, in fact, Hackworth may have discovered the idea first and/or independently; and Herbert—clearly not a fan of Gurney—seeks to debunk claims for Gurney's invention by comparing the output of Gurney's carriages with those of Trevithick. Other problems faced by Gurney's claim to have invented this is the clear use of it by Trevithick as confirmed by contemporary notes and also the patent applied for it by another party in the early 19th century. He extended the use of the steam-jet to the cleaning of sewers, bridging his mechanical and medical knowledge in the service of the eradication of cholera in the metropolis; and in dealing with mine fires—notably bringing under control a fire known as the burning waste of Clackmannan, which in 1851 had raged for more than 30 years over an area of 26 acres (11 ha), at the South Sauchie Colliery near Alloa. Gurney injected some 8M cubic feet of chokedamp (a mixture of nitrogen and carbon dioxide) into the mine by means of his steam-jet to extinguish the combustion; and after three weeks, drove water into the mine as a spray from the steam-jet to bring the temperature down from 250 °F (121 °C) to 98 °F (37 °C). It is reckoned that the value of property saved by the extinguishing of this fire was £200,000.
=== Lighting === He further improved the problematical lighting of theatres which used limelight, with his invention of the Bude-Light. Using a standard flame producer such as an oil lamp and by adding oxygen directly into the flame he produced a dramatically increased bright white light. A system of prisms and lenses distributed light to every room of his Castle house. Bude-Lights were fitted in the House of Commons—where it is said that he replaced 280 candles with three such lamps, which lit the House for sixty years until the arrival of electricity—as well as along Pall Mall and in Trafalgar Square where recently refurbished replicas of the two styles originally used can be seen. He extended his work to lighthouse lamps, innovating in the choice of source, the use of lenses, and the introduction of identifying on-off patterns enabling seafarers to identify which lighthouse it was they saw flashing.
=== Gurney Stove ===
The Gurney Stove, another invention which he patented in 1856, was extensively used to heat a wide variety of buildings. The stove's most interesting feature is the use of external ribs to increase the surface area of the stove available for heat transfer. A number of these stoves are still in use to this day, in the cathedrals of Ely, Durham, Chester, Hereford and Peterborough, and Tewkesbury Abbey.
== Anna Jane Gurney ==
Gurney's daughter Anna Jane appears to have engaged in considerable promotion of her father's claim to various of his inventions; the inscription on his gravestone reads: