Siemens had been trained as a mechanical engineer, and his most important work at this early stage was non-electrical; the greatest achievement of his life, the
regenerative furnace. Though in 1847 he published a paper in Liebig's
Annalen der Chemie on the 'Mercaptan of Selenium,' his mind was busy with the new ideas upon the nature of heat which were promulgated by
Carnot,
Clapeyron,
Joule,
Clausius,
Mayer,
Thomson, and
Rankine. He discarded the older notions of heat as a substance, and accepted it as a form of energy. Working on this new line of thought, which gave him an advantage over other inventors of his time, he made his first attempt to economise heat, by constructing, in 1847, at the factory of
John Hick, of Bolton, an engine of four horse-power, having a condenser provided with regenerators, and using
superheated steam. Two years later he continued his experiments at the works of
Messrs. Fox, Henderson, and Co., of
Smethwick, near
Birmingham, who had taken the matter in hand. The use of superheated steam was attended with many practical difficulties, and the invention was not entirely successful; nevertheless, the Society of Arts, in 1850, acknowledged the value of the principle, by awarding Siemens a gold medal for his regenerative condenser. In 1850 he established the London sales office of
Siemens & Halske, the engineering company producing
telegraphs, which his brother Werner had founded in 1847 at Berlin. He started selling such devices to the wire rope producer
R. S. Newall and Company in
Dundee, of which his friend (and uncle of his later wife)
Lewis Gordon was the co-owner. Newall & Co. also outsourced test jobs for cables to Siemens and such enabled the new company to enter the ocean cable-laying business. The branch office became
Siemens Brothers in 1858. In the 1850s, the company was involved in building long distance telegraph networks in Russia. In 1855, a company branch headed by another brother,
Carl Heinrich von Siemens, opened in
St Petersburg, Russia. By 1863, Sir William had his own cable factory built at
Charlton, London. In 1867, Siemens completed the monumental Indo-European (
Calcutta to London) telegraph line. In 1859 William Siemens devoted a great part of his time to electrical invention and research; and the number of telegraph apparatus of all sorts – telegraph cables, land lines, and their accessories – which have emanated from the
Siemens Telegraph Works (at
Charlton, SE London) has been remarkable. In 1872 Sir William Siemens became the first president of the Society of Telegraph Engineers which became the
Institution of Electrical Engineers, the forerunner of the
Institution of Engineering and Technology In 1860 William Siemens constructed a remarkable gas engine (the same year the very first commercial engine was produced by
Lenoir). It did not get beyond the experimental stage, though its principle of operation (described in Siemens British patent 2074 of 1860, and by Siemens in
The Theory of the Gas Engine) appears to be similar to the commercially successful
Brayton engine of 1872. In the discussion section of
The Theory of the Gas Engine Siemens discloses thatThe engine promised to give very good results, but about the same time he began to give his attention to the production of intense heat in furnaces, and having to make his choice between the two subjects, he selected the furnace and the metallurgic process leading out of it; and that was why the engine had remained where it was for so long a time. Siemens was also responsible for the hot tube ignition system used on many of the early gas engines. In June 1862 he was elected a
Fellow of the Royal Society and in 1871 delivered their
Bakerian Lecture. As a member of the circumnavigation committee preparing the oceanographic
expedition of HMS Challenger, Siemens was commissioned in 1871 to develop an electric thermometer to measure the temperature of the ocean at different depths. He was elected as a member to the
American Philosophical Society in 1877. The
regenerative furnace is the greatest single invention of Charles William Siemens. Siemens' regenerative principles were applied by French engineer
Pierre-Émile Martin in 1865 to create the
Siemens-Martin process for
open-hearth furnaces, revolutionising industrial steel manufacturing. The electric
pyrometer, which is perhaps the most elegant and original of all William Siemens' inventions, is also the link which connects his electrical with his metallurgical researches. Siemens pursued two major themes in his inventive efforts, one based upon the science of heat, the other based upon the science of electricity; and the electric thermometer was, as it were, a delicate cross-coupling which connected both. ] In 1874 he had a special
cable ship built, according to his design, for
Siemens Brothers, the
CS Faraday. In 1881, a Siemens
AC Alternator driven by a
watermill was used to power the world's first electric street lighting in the town of
Godalming, United Kingdom. ==See also==