Besides the innovations he brought to the oil industry and the construction of numerous bridges and buildings, Shukhov was the inventor of a new family of doubly curved structural forms. These forms, based on non-Euclidean hyperbolic
geometry, are known today as
hyperboloids of revolution. Shukhov developed not only many varieties of light-weight hyperboloid
towers and roof systems, but also the mathematics for their analysis. Shukhov is particularly reputed for his original designs of
hyperboloid towers such as the
Shukhov Tower.
Biography
Vladimir Shukhov born in
Russian family, in a town of
Graivoron,
Belgoroduezd,
Kursk Governorate (in present-day
Belgorod Oblast) into a petty noble family. His father Grigory Ivanovich Shukhov was a minor government official, promoted for his efforts in the
Crimean War. For a while, Grigory served as Mayor of Graivoron and later as an administrator in
Warsaw.
In 1864 Vladimir entered
Saint Petersburggymnasium from which he graduated with distinction in 1871. During his high school years he showed mathematical talents, once demonstrating to his classmates and teacher an original
proof of the
Pythagorean theorem. The teacher praised his skills but he failed the grade for violating the textbook's guidelines.
After graduating from the gymnasium, Shukhov entered the
Imperial Moscow Technical School, in which his teachers included
Pafnuty Chebyshev,
Aleksey Letnikov, and
Nikolay Zhukovsky. In the beginning of the year 1876 Shukhov graduated from school with distinction and a Gold Medal. Chebyshev offered him a job as a lecturer in mathematics at the Imperial Moscow Technical School, but Shukhov decided to seek a job in the engineering industry instead.
In May 1876 Shukhov went to
Philadelphia, to work on the Russian pavilion at the
Centennial Exposition, the first official
World's Fair in the United States, and to study the inner workings of the American construction and engineering industries. During his stay in the US, Shukhov came to know a Russian-American entrepreneur,
Alexander Veniaminovich Bari who also worked on the organization of the Fair.
In 1877 Shukhov returned to Russia and joined the drafting office of the Warsaw–
Vienna railroad. Within several months, Shukhov's frustration with standard and routine engineering made him abandon the office and join a military-medical academy.
On his coming to Russia in 1877, Bari persuaded Shukhov to give up his medical education and to assume the office of Chief Engineer in a new company specializing in innovative engineering. Shukhov worked with Bari at this company until the
October Revolution. He also brought in
Leonid Leibenson. Their works revolutionized many areas of civil engineering, ship engineering, and oil industry. The thermal
cracking method, the
Shukhov cracking process, was patented by Vladimir Shukhov in 1891.
Shukhov always found time for a passionate
hobby – photography.[3] The photographic works of Shukhov opened new trends ahead of their flourishing of
fine art photography. He made photos in various genres:
reporting, city
landscape,
portrait,
constructivism. About two thousand photos and negatives made by Shukhov have survived until this day.
After the October Revolution Shukhov decided to stay in the
Soviet Union despite having received alluring job offers from all around the world. Many signal Soviet engineering projects of the 1920s were associated with his name. In 1919 he framed his slogan: We should work independently from politics. The buildings, boilers, beams would be needed and so would we. In the later 1930s during the
Great Purge he retired from engineering work but was not arrested or persecuted.
Shukov died on 2 February 1939 in Moscow and was buried at the
Novodevichy Cemetery. His many honours included the
Lenin Prize (1929) and the title of Hero of Labour (1932).
Works
Vladimir Shukhov is often referred as the Russian
Edison for the sheer quantity and quality of his pioneering works [citation needed]. He was one of the first to develop practical calculations of
stresses and
deformations of
beams, shells and membranes on elastic foundation. These theoretical results allowed him to design the first Russian oil tanker, new types of oil tanker barges, and a new type of oil reservoirs. The same principle of the shell on an elastic foundation allowed him to theoretically calculate the optimal diameter, wall thickness and fluid speed for fluid pipelines. Shukhov's projects were instrumental in constructing:
An oil
pipeline, the first in the
Russian Empire, between Balkhany and Cherny Gorod near
Baku (12 km, 1878 complete, used by the
Branobel). By 1883 the total length of Shukhov-designed, Bari-built oil pipelines in Baku exceeded 94 km, transporting 30,000
barrels of oil per day. In 1894, a similar pipeline network was built in
Grozny. Shukhov designed the first Trans-Caucasian
kerosenepipeline between Baku and Batumi (835 km long) and
Grozny-Tuapse pipeline (618 km long).
A superior design for water-mains. Shukhov designed (and Bari built) complete water-supply systems for the cities of
Cherkassy,
Tambov,
Kharkov,
Voronezh and many others. In that age of infectious diseases his water-supply systems likely saved thousands of lives.
A superior design for oil-tanker barges (less than half of the metal previously required), 84 150-meters long barges were built (mostly for the
Volga river) as well as the first Russian seaworthy
oil tanker ship. His approach to the ship strength analysis (using the model of a shell on an elastic foundation) was absolutely novel for that time.
Shukhov-designed inexpensive oil tanks with the bottom calculated as a membrane on elastic foundation. They became very popular among oil-producers of the Imperial Russia. By 1881, 130 such tanks were built in
Baku alone.
Shukhov made important contributions to the chemical industry:
He designed an original oil
pump. Shukhov's pumps revolutionized Baku's oil industry allowing to increase its oil output.
He designed one of the first
furnaces that used
residual oil: before his work residual oil was considered a waste and was discarded, due to his work it became recognized as an important technical product known as a fuel oil.
Eight
thin-shell structures exhibition pavilions for the
All-Russia Exhibition in
Nizhny Novgorod of 1896, covering the area of 27,000 m², and featuring an unorthodox water-tower that served as a model for more than 30 similar structures built in Imperial Russia, and thousands around the world now.
About 200 original towers (hyperboloid steel
gridshells) all over the world, the most famous being the 160-meter-high
Shukhov Tower in Moscow (1922) and 70-meter-high
Adziogol Lighthouse near
Kherson (1910). On Shukhov's 110th birthday in 1963
Soviet Union issued a postal stamp showing Shukhov and his tower (pictured).
"The Nijni-Novgorod exhibition: Water tower, room under construction, springing of 91 feet span",
"The Engineer", No. 19 March 1897, pp. 292–294, London, 1897.
Rainer Graefe, Jos Tomlow: “Vladimir G. Suchov 1853–1939. Die Kunst der sparsamen Konstruktion.”, 192 S., Deutsche Verlags-Anstalt, Stuttgart, 1990,
ISBN3-421-02984-9.
Jesberg, Paulgerd: "Die Geschichte der Bauingenieurkunst", Deutsche Verlags-Anstalt, Stuttgart (Germany),
ISBN3-421-03078-2, 1996; pp. 198–9.
Ricken, Herbert: "Der Bauingenieur", Verlag für Bauwesen, Berlin (Germany),
ISBN3-345-00266-3, 1994; pp. 230.
Picon, Antoine (dir.): "L'art de l'ingenieur : constructeur, entrepreneur, inventeur", Éditions du Centre Georges Pompidou, Paris, 1997,
ISBN2-85850-911-5
Шухова Е. М.: «Владимир Григорьевич Шухов. Первый инженер России.», 368 стр., Изд. МГТУ, Москва, 2003,
ISBN5-7038-2295-5.
"В.Г.Шухов – выдающийся инженер и ученый", Труды Объединенной научной сессии Академии наук СССР, посвященной научному и инженерному творчеству почетного академика В.Г.Шухова. М.: Наука, 1984, 96 с.
Петропавловская И.А.: "Владимир Григорьевич Шухов, 1853–1939", Москва, "Наука", 2004,
ISBN5-02-033173-2.
Российский государственный архив научно-технической документации (РГАНТД): "Документальное наследие выдающегося российского инженера В.Г. Шухова в архивах" (межархивный справочник), ред. Шапошников А.С., Медведева Г.А.; 181 стр., издание РГАНТД, Москва, 2008.