The Papers of William Froude

Froude, William

SUBJECT AREA: Ports and shipping

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b. 1810 Dartington, Devon, England

d. 4 May 1879 Simonstown, South Africa

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English naval architect; pioneer of experimental ship-model research.

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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.

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Principal Honours and Distinctions

FRS. Honorary LLD Glasgow University.

Bibliography

1955, 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 Reading

A.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.

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Denny, William

SUBJECT AREA: Ports and shipping

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b. 25 May 1847 Dumbarton, Scotland

d. 17 March 1887 Buenos Aires, Argentina

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Scottish naval architect and partner in the leading British scientific shipbuilding company.

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From 1844 until 1962, the Clyde shipyard of William Denny and Brothers, Dumbarton, produced over 1,500 ships, trained innumerable students of all nationalities in shipbuilding and marine engineering, and for the seventy-plus years of their existence were accepted worldwide as the leaders in the application of science to ship design and construction. Until the closure of the yard members of the Denny family were among the partners and later directors of the firm: they included men as distinguished as Dr Peter Denny (1821(?)–95), Sir Archibald Denny (1860–1936) and Sir Maurice Denny (1886– 1955), the main collaborator in the design of the Denny-Brown ship stabilizer.

One of the most influential of this shipbuilding family was William Denny, now referred to as William 3! His early education was at Dumbarton, then on Jersey and finally at the Royal High School, Edinburgh, before he commenced an apprenticeship at his father's shipyard. From the outset he not only showed great aptitude for learning and hard work but also displayed an ability to create good relationships with all he came into contact with. At the early age of 21 he was admitted a partner of the shipbuilding business of William Denny and Brothers, and some years later also of the associated engineering firm of Denny \& Co. His deep-felt interest in what is now known as industrial relations led him in 1871 to set up a piecework system of payment in the shipyard. In this he was helped by the Yard Manager, Richard Ramage, who later was to found the Leith shipyard, which produced the world's most elegant steam yachts. This research was published later as a pamphlet called The Worth of Wages, an unusual and forward-looking action for the 1860s, when Denny maintained that an absentee employer should earn as much contempt and disapproval as an absentee landlord! In 1880 he initiated an awards scheme for all company employees, with grants and awards for inventions and production improvements. William Denny was not slow to impose new methods and to research naval architecture, a special interest being progressive ship trials with a view to predicting effective horsepower. In time this led to his proposal to the partners to build a ship model testing tank beside the Dumbarton shipyard; this scheme was completed in 1883 and was to the third in the world (after the Admiralty tank at Torquay, managed by William Froude and the Royal Netherlands Navy facility at Amsterdam, under B.J. Tideman. In 1876 the Denny Shipyard started work with mild-quality shipbuilding steel on hulls for the Irrawaddy Flotilla Company, and in 1879 the world's first two ships of any size using this weight-saving material were produced: they were the Rotomahana for the Union Steamship Company of New Zealand and the Buenos Ayrean for the Allan Line of Glasgow. On the naval-architecture side he was involved in Denny's proposals for standard cross curves of stability for all ships, which had far-reaching effects and are now accepted worldwide. He served on the committee working on improvements to the Load Line regulations and many other similar public bodies. After a severe bout of typhoid and an almost unacceptable burden of work, he left the United Kingdom for South America in June 1886 to attend to business with La Platense Flotilla Company, an associate company of William Denny and Brothers. In March the following year, while in Buenos Aires, he died by his own hand, a death that caused great and genuine sadness in the West of Scotland and elsewhere.

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Principal Honours and Distinctions

President, Institution of Engineers and Shipbuilders in Scotland 1886. FRS Edinburgh 1879.

Bibliography

William Denny presented many papers to various bodies, the most important being to the Institution of Naval Architects and to the Institution of Engineers and Shipbuilders in Scotland. The subjects include: trials results, the relation of ship speed to power, Lloyd's Numerals, tonnage measurement, layout of shipyards, steel in shipbuilding, cross curves of stability, etc.

Further Reading

A.B.Bruce, 1889, The Life of William Denny, Shipbuilder, London: Hodder \& Stoughton.

Denny Dumbarton 1844–1932 (a souvenir hard-back produced for private circulation by the shipyard).

Fred M.Walker, 1984, Song of the Clyde. A History of Clyde Shipbuilding, Cambridge: PSL.

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Watts, Philip

SUBJECT AREA: Ports and shipping

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b. 30 May 1846 Portsmouth, England

d. 15 March 1926 probably London, England

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English naval architect, shipbuilding manager and ultimately Director of Naval Construction.

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Since he had a long family connection with the naval base at Portsmouth, it is not surprising that Watts started to serve his apprenticeship there in 1860. He was singled out for advanced training and then in 1866 was one of three young men selected to attend the Royal School of Naval Architecture at South Kensington in London. On completing his training he joined the technical staff, then had a period as a ship overseer before going to assist William Froude for two years, an arrangement which led to a close friendship between Watts and the two Froudes. Some interesting tasks followed: the calculations for HM Armoured Ram Polyphemus; the setting up of a "calculating" section within the Admiralty; and then work as a constructor at Chatham Dockyard. In 1885 the first major change of direction took place: Watts resigned from naval service to take the post of General Manager of the Elswick shipyard of Sir W.G.Armstrong. This was a wonderful opportunity for an enthusiastic and highly qualified man, and Watts rose to the challenge. Elswick produced some of the finest warships at the end of the nineteenth century and its cruisers, such as the Esmeralda of the Chilean Navy, had a legendary name.

In 1902 he was recalled to the Navy to succeed Sir William White as Director of Naval Construction (DNC). This was one of the most exciting times ever in warship design and it was during Watts's tenure of the post that the Dreadnought class of battleship was produced, the submarine service was developed and the destroyer fleet reached high levels of performance. It has been said that Watts's distinct achievements as DNC were greater armament per ton displacement, higher speeds and better manoeuvring, greater protection and, almost as important, elegance of appearance. Watt retired in 1912 but remained a consultant to the Admiralty until 1916, and then joined the board of Armstrong Whitworth, on which he served until his death.

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Principal Honours and Distinctions

Knighted 1905. FRS 1900. Chairman, Board of Trade's Load Line Committee 1913. Vice-President, Society for Nautical Research (upon its founding), and finally Chairman for the Victory preservation and technical committee. Honorary Vice-President, Institution of Naval Architects 1916. Master of the Worshipful Company of Shipwrights 1915.

Bibliography

Watts produced many high-quality technical papers, including ten papers to the Institution of Naval Architects.

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Biles, Sir John Harvard

SUBJECT AREA: Ports and shipping

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b. 1854 Portsmouth, England

d. 27 October 1933 Scotland (?)

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English naval architect, academic and successful consultant in the years when British shipbuilding was at its peak.

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At the conclusion of his apprenticeship at the Royal Dockyard, Portsmouth, Biles entered the Royal School of Naval Architecture, South Kensington, London; as it was absorbed by the Royal Naval College, he graduated from Greenwich to the Naval Construction Branch, first at Pembroke and later at the Admiralty. From the outset of his professional career it was apparent that he had the intellectual qualities that would enable him to oversee the greatest changes in ship design of all time. He was one of the earliest proponents of the revolutionary work of the hydrodynamicist William Froude.

In 1880 Biles turned to the merchant sector, taking the post of Naval Architect to J. \& G. Thomson (later John Brown \& Co.). Using Froude's Law of Comparisons he was able to design the record-breaking City of Paris of 1887, the ship that started the fabled succession of fast and safe Clyde bank-built North Atlantic liners. For a short spell, before returning to Scotland, Biles worked in Southampton. In 1891 Biles accepted the Chair of Naval Architecture at the University of Glasgow. Working from the campus at Gilmorehill, he was to make the University (the oldest school of engineering in the English-speaking world) renowned in naval architecture. His workload was legendary, but despite this he was admired as an excellent lecturer with cheerful ways which inspired devotion to the Department and the University. During the thirty years of his incumbency of the Chair, he served on most of the important government and international shipping committees, including those that recommended the design of HMS Dreadnought, the ordering of the Cunarders Lusitania and Mauretania and the lifesaving improvements following the Titanic disaster. An enquiry into the strength of destroyer hulls followed the loss of HMS Cobra and Viper, and he published the report on advanced experimental work carried out on HMS Wolf by his undergraduates.

In 1906 he became Consultant Naval Architect to the India Office, having already set up his own consultancy organization, which exists today as Sir J.H.Biles and Partners. His writing was prolific, with over twenty-five papers to professional institutions, sundry articles and a two-volume textbook.

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Principal Honours and Distinctions

Knighted 1913. Knight Commander of the Indian Empire 1922. Master of the Worshipful Company of Shipwrights 1904.

Bibliography

1905, "The strength of ships with special reference to experiments and calculations made upon HMS Wolf", Transactions of the Institution of Naval Architects.

1911, The Design and Construction of Ships, London: Griffin.

Further Reading

C.A.Oakley, 1973, History of a Facuity, Glasgow University.

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Purvis, Frank Prior

SUBJECT AREA: Ports and shipping

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b. 18 April 1850 London, England

d. 20 February 1940 Seaford Downs, England

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English naval architect.

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Despite being one of the youngest entrants to the South Kensington School of Naval Architecture, Purvis obtained both a Whitworth Exhibition and a Scholarship. Upon graduating he commenced a career in shipbuilding that involved him in military, civil and research work in Scotland, England and Japan. Initially he worked in Robert Napier's shipyard on the River Clyde, and then in the London drawing offices of Sir Edward Reed, before joining the staff of the Admiralty, where he assisted William Froude in his classic ship experiments at Torquay. After a short spell with Sir William Pearce at Govan, Purvis joined William Denny and Bros and with his recently gained knowledge of hydrodynamics helped set up the world's first commercial ship model tank at Dumbarton. His penultimate appointment was that of Shipbuilding Partner in the Scottish shipyard of Blackwood and Gordon.

In 1901 he became Professor of Naval Architecture at the Imperial University of Tokyo (succeeding Percy Hillhouse, who had become Naval Architect of Fairfield and later became Professor at Glasgow University) and it was in this role that Purvis was to achieve distinction through developing a teaching course of the highest order. It is accepted that his influence on the Japanese shipbuilding industry was profound. After nineteen years of service he retired to the United Kingdom.

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Bibliography

Purvis presented several papers to the Institution of Naval Architects and to the Institution of Engineers and Shipbuilders in Scotland, and in 1900 he assisted in the preparation of the Ships and Shipbuilding supplement to Encyclopaedia Britannica.

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