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1 правила судопроизводства по морским делам
Русско-английский юридический словарь > правила судопроизводства по морским делам
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2 правила судопроизводства по морским делам
Русско-английский словарь по экономии > правила судопроизводства по морским делам
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3 правила судопроизводства по морским делам
Русско-английский юридический словарь > правила судопроизводства по морским делам
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4 суд по морским делам
Бизнес, юриспруденция. Русско-английский словарь > суд по морским делам
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5 судопроизводство по морским делам
производство по делу, имевшее место ранее — prior proceeding
Бизнес, юриспруденция. Русско-английский словарь > судопроизводство по морским делам
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6 правило судопроизводства по морским делам
Бизнес, юриспруденция. Русско-английский словарь > правило судопроизводства по морским делам
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7 правило судопроизводства
Бизнес, юриспруденция. Русско-английский словарь > правило судопроизводства
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8 правило о производстве дел
Бизнес, юриспруденция. Русско-английский словарь > правило о производстве дел
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9 правила судопроизводства по морским делам
Law: admiralty rulesУниверсальный русско-английский словарь > правила судопроизводства по морским делам
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10 правило производства дел
Бизнес, юриспруденция. Русско-английский словарь > правило производства дел
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11 Froude, William
SUBJECT AREA: Ports and shipping[br]b. 1810 Dartington, Devon, Englandd. 4 May 1879 Simonstown, South Africa[br]English naval architect; pioneer of experimental ship-model research.[br]Froude was educated at a preparatory school at Buckfastleigh, and then at Westminster School, London, before entering Oriel College, Oxford, to read mathematics and classics. Between 1836 and 1838 he served as a pupil civil engineer, and then he joined the staff of Isambard Kingdom Brunel on various railway engineering projects in southern England, including the South Devon Atmospheric Railway. He retired from professional work in 1846 and lived with his invalid father at Dartington Parsonage. The next twenty years, while apparently unproductive, were important to Froude as he concentrated his mind on difficult mathematical and scientific problems. Froude married in 1839 and had five children, one of whom, Robert Edmund Froude (1846–1924), was to succeed him in later years in his research work for the Admiralty. Following the death of his father, Froude moved to Paignton, and there commenced his studies on the resistance of solid bodies moving through fluids. Initially these were with hulls towed through a house roof storage tank by wires taken over a pulley and attached to falling weights, but the work became more sophisticated and was conducted on ponds and the open water of a creek near Dartmouth. Froude published work on the rolling of ships in the second volume of the Transactions of the then new Institution of Naval Architects and through this became acquainted with Sir Edward Reed. This led in 1870 to the Admiralty's offer of £2,000 towards the cost of an experimental tank for ship models at Torquay. The tank was completed in 1872 and tests were carried out on the model of HMS Greyhound following full-scale towing trials which had commenced on the actual ship the previous year. From this Froude enunciated his Law of Comparisons, which defines the rules concerning the relationship of the power required to move geometrically similar floating bodies across fluids. It enabled naval architects to predict, from a study of a much less expensive and smaller model, the resistance to motion and the power required to move a full-size ship. The work in the tank led Froude to design a model-cutting machine, dynamometers and machinery for the accurate ruling of graph paper. Froude's work, and later that of his son, was prodigious and covered many fields of ship design, including powering, propulsion, rolling, steering and stability. In only six years he had stamped his academic authority on the new science of hydrodynamics, served on many national committees and corresponded with fellow researchers throughout the world. His health suffered and he sailed for South Africa to recuperate, but he contracted dysentery and died at Simonstown. He will be remembered for all time as one of the greatest "fathers" of naval architecture.[br]Principal Honours and DistinctionsFRS. Honorary LLD Glasgow University.Bibliography1955, The Papers of William Froude, London: Institution of Naval Architects (the Institution also published a memoir by Sir Westcott Abell and an evaluation of his work by Dr R.W.L. Gawn of the Royal Corps of Naval Constructors; this volume reprints all Froude's papers from the Institution of Naval Architects and other sources as diverse as the British Association, the Royal Society of Edinburgh and the Institution of Civil Engineers.Further ReadingA.T.Crichton, 1990, "William and Robert Edmund Froude and the evolution of the ship model experimental tank", Transactions of the Newcomen Society 61:33–49.FMW -
12 Murray, John Mackay
SUBJECT AREA: Ports and shipping[br]b. 25 June 1902 Glasgow, Scotlandd. 5 August 1966 Maplehurst, Sussex, England[br]Scottish naval architect who added to the understanding of the structural strength of ships.[br]Murray was educated in Glasgow at Allan Glen's School and then at the University, from which he graduated in naval architecture in 1922. He served an apprenticeship simultaneously with Barclay Curle \& Co., rising to the rank of Assistant Shipyard Manager before leaving in 1927 to join Lloyd's Register of Shipping. After an initial year in Newcastle, he joined the head office in London, which was to be base for the remainder of his working life. Starting with plan approval, he worked his way to experimental work on ship structures and was ultimately given the massive task of revising Lloyd's Rules and placing them on a scientific basis. During the Second World War he acted as liaison officer between Lloyd's and the Admiralty. Throughout his career he presented no fewer than twenty-two papers on ship design, and of these nearly half dealt with hull longitudinal strength. This work won him considerable acclaim and several awards and was of fundamental importance to the shipping industry. The Royal Institution of Naval Architects honoured Murray in 1960 by inviting him to present one of the only two papers read at their centenary meeting: "Merchant ships 1860–1960". At Lloyd's Register he rose to Chief Ship Surveyor, and at the time of his death was Honorary Vice-President of the Royal Institution of Naval Architects.[br]Principal Honours and DistinctionsMBE 1946. Honorary Vice-President, Royal Institution of Naval Architects. Royal Institution of Naval Architects Froude Gold Medal. Institute of Marine Engineers Silver Medal. Premium of the Institution of Engineers and Shipbuilders in Scotland.FMW -
13 Peter the Great (Pyotr Alekseyevich Romanov)
SUBJECT AREA: Ports and shipping[br]b. 10 June 1672 (30 May 1672 Old Style) Moscow, Russiad. 8 February 1725 (28 January 1725 Old Style) St Petersburg, Russia[br]Russian Tsar (1682–1725), Emperor of all the Russias (1722–5), founder of the Russian Navy, shipbuilder and scientist; as a shipbuilder he was known by the pseudonym Petr Mikhailov.[br]Peter the Great was a man with a single-minded approach to problems and with passionate and lifelong interests in matters scientific, military and above all maritime. The unusual and dominating rule of his vast lands brought about the age of Russian enlightenment, and ensured that his country became one of the most powerful states in Europe.Peter's interest in ships and shipbuilding started in his childhood; c. 1687 he had an old English-built day sailing boat repaired and launched, and on it he learned the rudiments of sailing and navigation. This craft (still preserved in St Petersburg) became known as the "Grandfather of the Russian Navy". In the years 1688 to 1693 he established a shipyard on Lake Plestsheev and then began his lifelong study of shipbuilding by visiting and giving encouragement to the industry at Archangelsk on the White Sea and Voronezh in the Sea of Azov. In October 1696, Peter took Azov from the Turks, and the Russian Fleet ever since has regarded that date as their birthday. Setting an example to the young aristocracy, Peter travelled to Western Europe to widen his experience and contacts and also to learn the trade of shipbuilding. He worked in the shipyards of Amsterdam and then at the Naval Base of Deptford on the Thames.The war with Sweden concentrated his attention on the Baltic and, to establish a base for trading and for the Navy, the City of St Petersburg was constructed on marshland. The Admiralty was built in the city and many new shipyards in the surrounding countryside, one being the Olonez yard which in 1703 built the frigate Standart, the first for the Baltic Fleet, which Peter himself commanded on its first voyage. The military defence of St Petersburg was effected by the construction of Kronstadt, seawards of the city.Throughout his life Peter was involved in ship design and it is estimated that one thousand ships were built during his reign. He introduced the building of standard ship types and also, centuries ahead of its time, the concept of prefabrication, unit assembly and the building of part hulls in different places. Officially he was the designer of the ninety-gun ship Lesnoe of 1718, and this may have influenced him in instituting Rules for Shipbuilders and for Seamen. In 1716 he commanded the joint fleets of the four naval powers: Denmark, Britain, Holland and Russia.He established the Marine Academy, organized and encouraged exploration and scientific research, and on his edict the St Petersburg Academy of Science was opened. He was not averse to the recruitment of foreigners to key posts in the nation's service. Peter the Great was a remarkable man, with the unusual quality of being a theorist and an innovator, in addition to the endowments of practicality and common sense.[br]Further ReadingRobert K.Massie, 1981, Peter the Great: His Life and Work, London: Gollancz.Henri Troyat, 1979, Pierre le Grand; pub. in English 1988 as Peter the Great, London: Hamish Hamilton (a good all-round biography).AK / FMWBiographical history of technology > Peter the Great (Pyotr Alekseyevich Romanov)
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14 Stalkartt, Marmaduke
SUBJECT AREA: Ports and shipping[br]b. 6 April 1750 London (?), Englandd. 24 September 1805 Calcutta, India[br]English naval architect and author of a noted book on shipbuilding.[br]For a man who contributed much to the history of shipbuilding in Britain, surprisingly little is known of his life and times. The family are reputedly descendants of Danish or Norwegian shipbuilders who emigrated to England around the late seventeenth century. It is known, however, that Marmaduke was the fourth child of his father, Hugh Stalkartt, but the second child of Hugh's second wife.Stalkartt is believed to have served an apprenticeship at the Naval Yard at Deptford on the Thames. He had advanced sufficiently by 1796 for the Admiralty to send him to India to establish shipyards dedicated to the construction of men-of-war in teak. The worsening supply of oak from England, and to a lesser extent Scotland, coupled with the war with France was making ship procurement one of the great concerns of the time. The ready supply of hardwoods from the subcontinent was a serious attempt to overcome this problem. For some years one of the shipyards in Calcutta was known as Stalkartt's Yard and this gives some credence to the belief that Stalkartt left the Navy while overseas and started his own shipbuilding organization.[br]Bibliography1781, Naval Architecture; or, the Rudiments and Rules of Shipbuilding; repub. 1787, 1803 (an illustrated textbook).FMW
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