Pavel Yablochkov

Pavel Yablochkov
Born September 14 [O.S. September 2] 1847
Serdobsky, Saratov region, Russian Empire
Died March 31 [O.S. March 19] 1894
Saratov, Russian Empire
Nationality Russia
Education Military engineering-technical university, St. Petersburg

Engineering career

Significant projects

Yablochkov candle

Transformer
Significant awards French Legion of Honor

Pavel Nikolayevich Yablochkov (also transliterated as Jablochkoff) (Павел Николаевич Яблочков in Russian) (September 14 [O.S. September 2] 1847 March 31 [O.S. March 19] 1894) was a Russian electrical engineer, the inventor of the Yablochkov candle (a type of electric carbon arc lamp) and the transformer and businessman.

Biography

Yablochkov graduated in 1866 as a military engineer from Nikolayev Engineering Institute, now Military engineering-technical university (Russian Военный инженерно-технический университет), and in 1869 from Technical Galvanic School in Saint Petersburg. After serving in the army, Yablochkov settled in Moscow in 1873, where he was appointed Head of Telegraph Office at the Moscow-Kursk railroad. He opened up a workshop for his experiments in electrical engineering, which laid down the foundations for his future inventions in the field of electric lighting, electric machines, galvanic cells and accumulators.

Yablochkov's demonstration of his brilliant arc lights at the 1878 Paris Exposition along the Avenue de l'Opéra triggered a steep sell off of gas utility stocks

Yablochkov’s major invention was the first model of an arc lamp that eliminated the mechanical complexity of competing lights that required a regulator to manage the voltaic arc. He went to Paris the same year where he built an industrial sample of the "electric candle" (French patent № 112024, 1876). It was in Paris that he developed his arc light idea into a complete system of electric lighting[1] powered by Zénobe Gramme direct current dynamos fitted with an inverter to supply single-phase alternating current. The first public use of the Yablochkov system was in October 1877 at Halle Marengo of the Magasins du Louvre which was lit by 6 arc lights. By 1880, the system had grown in size to 120 lamps with 84 lit at a time powered by a 100 horsepower steam engine and had been operating every night for two and one half years.[2]

The Paris Exposition of 1878 presented Yablochkov with the unique opportunity to make a spectacular demonstration for a world audience, and through the promotional efforts of Gramme[3] was successful in having 64 of his arc lights installed along the half mile length of Avenue de l'Opéra, Place du Théâtre Français (today Place André-Malraux) and around the Place de l'Opéra. It was first lit in February 1878.[2][4] Yablochkov candles required high voltage, and it was not long before experimenters reported that the arc lights could be powered on a 7-mile circuit.[2] Yablochkov candles were superior to Lontin-Serrin regulator arc lights that each required a separate Gramme generator. Beginning in 1880, the Paris Hippodrome's 20 Serrin lights powered by 20 generators were replaced by 68 additional Yablochkov candles, based on 2 years of positive experience with 60 candles powered by just 3 generators.[2] The impact of the 1878 Paris demonstration was a depression in the value of gas company shares which did not recover until 1880. French, English, and American businessmen quickly set up companies licensing Yablochkov's patents.

As part of his arc lighting patents, Yablochkov described a method of employing Michael Faraday's discovery of induction to create a continuous current of higher voltage, where primary windings were connected to a source of alternating current and secondary windings could be connected to several electric "candles". Although it was not recognized at the time, Yablochkov's idea of using transformers to provide different voltages from the same AC line[5] was the model that modern transmission and distribution systems would settle on. As the patent said such a system "allowed to provide separate supply to several lighting fixtures with different luminous intensities from a single source of electric power". In 1879, Yablochkov established “Electric Lighting Company, P.N. Yablochkov the Inventor and Co” and an electrical plant in Petersburg that would later produce illuminators for military vessels and factories. There was considerable international competition to his arc lights. His lasted only one and a half hours[6] whereas those of Charles F. Brush lasted twice as long.

From the mid-1880s, Yablochkov mostly occupied himself with problems of generating electric energy. He constructed the so-called “magnet dynamo electric machine”, which had most of the features of the modern inductor. Yablochkov did extensive research on transformation of fuel energy into electric energy, suggested a galvanic cell with alkaline electrolyte, and created a regenerative cell (the so-called autoaccumulator).

Yablochkov participated in Electrical engineering exhibitions in Russia (1880 and 1882), Paris (1881 and 1889), and First International Congress of Electricians (1881).

Legacy

In 1947, the USSR introduced the Yablochkov Award for the best work in the field of electrical engineering.

The crater Yablochkov on the Moon is named after him.

See also

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References

  1. W. de Fonveille (1880-01-22). "Gas and Electricity in Paris". Nature 21 (534): 283. doi:10.1038/021282b0. Retrieved 2009-01-09.
  2. 2.0 2.1 2.2 2.3 Berly (1880-03-24). "Notes on the Jablochkoff System of Electric Lighting". Journal of the Society of Telegraph Engineers IX (32): 143. Retrieved 2009-01-07.
  3. David Oakes Woodbury (1949). A Measure for Greatness: a short biography of Edward Weston. McGraw-Hill. p. 83. Retrieved 2009-01-04.
  4. John Patrick Barrett (1894). Electricity at the Columbian Exposition. R. R. Donnelley & sons company. p. 1. Retrieved 2009-01-04.
  5. Stanley Transformer. Los Alamos National Laboratory; University of Florida. Retrieved 2009-01-09.
  6. Emile Alglave; J. Boulard, Thomas O'Conor Sloane, Charles Marshall Lungren (1884). The Electric Light: Its History, Production, and Applications. Thomas O'Conor Sloane. D. Appleton and company. p. 112. ISBN 0-548-99670-9. Retrieved 2009-01-09.

Further reading

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