Institution of Naval Architects

Institution of Naval Architects

Общая лексика: Институт инженеров-кораблестроителей (Великобритания)

Institution of Naval Architects

Abbreviation: INA

Royal Institution of Naval Architects

Техника: Общество инженеров-кораблестроителей Великобритании

Royal Institution of Naval Architects

General subject: RINA

Barnaby, Kenneth C.

SUBJECT AREA: Ports and shipping

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b. c.1887 England

d. 22 March 1968 England

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English naval architect and technical author.

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Kenneth Barnaby was an eminent naval architect, as were his father and grandfather before him: his grandfather was Sir Nathaniel Barnaby KGB, Director of Naval Construction, and his father was Sydney W.Barnaby, naval architect of John I. Thornycroft \& Co., Shipbuilders, Southampton. At one time all three were members of the Institution of Naval Architects, the first time that this had ever occurred with three members from one family.

Kenneth Barnaby served his apprenticeship at the Thornycroft shipyard in Southampton and later graduated in engineering from the Central Technical College, South Kensington, London. He worked for some years at Le Havre and at John Brown's shipyard at Clydebank before rejoining his old firm in 1916 as Assistant to the Shipyard Manager. In 1919 he went to Rio de Janeiro as a chief ship draughtsman, and finally he returned to Thornycroft, in 1924 he succeeded his father as Naval Architect, and remained in that post until his retirement in 1955, having been appointed a director in 1950.

Barnaby had a wide knowledge and understanding of ships and ship design and during the Second World War he was responsible for much of the development work for landing craft, as well as for many other specialist ships built at the Southampton yard. His experience as a deep-sea yachtsman assisted him. He wrote several important books; however, none can compare with the Centenary Volume of the Royal Institution of Naval Architects. In this work, which is used and read widely to this day by naval architects worldwide, he reviewed every paper presented and almost every verbal contribution made to the Transactions during its one hundred years.

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Principal Honours and Distinctions

OBE 1945. Associate of the City and Guilds Institute. Royal Institution of Naval Architects Froude Gold Medal 1962. Honorary Vice-President, Royal Institution of Naval Architects 1960–8.

Bibliography

c.1900, Marine Propellers, London. 1949, Basic Naval Architecture, London.

1960, The Institution of Naval Architects 1860–1960, London.

1964, 100 Years of Specialised Shipbuilding and Engineering, London. 1968, Some Ship Disasters and their Causes, London.

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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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Murray, John Mackay

SUBJECT AREA: Ports and shipping

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b. 25 June 1902 Glasgow, Scotland

d. 5 August 1966 Maplehurst, Sussex, England

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Scottish naval architect who added to the understanding of the structural strength of ships.

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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.

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Principal Honours and Distinctions

MBE 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.

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Meek, Marshall

SUBJECT AREA: Ports and shipping

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b. 22 April 1925 Auchtermuchty, Fife, Scotland

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Scottish naval architect and leading twentieth-century exponent of advanced maritime technology.

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After early education at Cupar in Fife, Meek commenced training as a naval architect, taking the then popular sandwich apprenticeship of alternate half years at the University of Glasgow (with a Caird Scholarship) and at a shipyard, in his case the Caledon of Dundee. On leaving Dundee he worked for five years with the British Ship Research Association before joining Alfred Holt \& Co., owners of the Blue Funnel Line. During his twenty-five years at Liverpool, he rose to Chief Naval Architect and Director and was responsible for bringing the cargo-liner concept to its ultimate in design. When the company had become Ocean Fleets, it joined with other British shipowners and looked to Meek for the first purpose-built containership fleet in the world. This required new ship designs, massive worldwide investment in port facilities and marketing to win public acceptance of freight containers, thereby revolutionizing dry-cargo shipping. Under the houseflag of OCL (now POCL), this pioneer service set the highest standards of service and safety and continues to operate on almost every ocean.

In 1979 Meek returned to the shipbuilding industry when he became Head of Technology at British Shipbuilders. Closely involved in contemporary problems of fuel economy and reduced staffing, he held the post for five years before his appointment as Managing Director of the National Maritime Institute. He was deeply involved in the merger with the British Ship Research Association to form British Maritime Technology (BMT), an organization of which he became Deputy Chairman.

Marshall Meek has held many public offices, and is one of the few to have been President of two of the United Kingdom's maritime institutions. He has contributed over forty papers to learned societies, has acted as Visiting Professor to Strathclyde University and University College London, and serves on advisory committees to the Ministry of Defence, the Department of Transport and Lloyd's Register of Shipping. While in Liverpool he served as a Justice of the Peace.

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Principal Honours and Distinctions

CBE 1989. Fellow of the Royal Academy of Engineering 1990. President, Royal Institution of Naval Architects 1990–3; North East Coast Institution of Engineers and Shipbuilders 1984–6. Royal Designer for Industry (RDI) 1986. Royal Institution of Naval Architects Silver Medal (on two occasions).

Bibliography

1970, "The first OCL containerships", Transactions of the Royal Institution of Naval Architects.

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Taylor, David Watson

SUBJECT AREA: Ports and shipping

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b. 4 March 1864 Louisa County, Virginia, USA

d. 29 July 1940 Washington, DC, USA

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American hydrodynamicist and Rear Admiral in the United States Navy Construction Corps.

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Taylor's first years were spent on a farm in Virginia, but at the age of 13 he went to RandolphMacon College, graduating in 1881, and from there to the US Naval Academy, Annapolis. He graduated at the head of his class, had some sea time, and then went to the Royal Naval College in Greenwich, England, where in 1888 he again came top of the class with the highest-ever marks of any student, British or overseas.

On his return to the United States he held various posts as a constructor, ending this period at the Mare Island Navy Yard in California. In 1894 he was transferred to Washington, where he joined the Bureau of Construction and started to interest the Navy in ship model testing. Under his direction, the first ship model tank in the United States was built at Washington and for fourteen years operated under his control. The work of this establishment gave him the necessary information to write the highly acclaimed text The Speed and Power of Ships, which with revisions is still in use. By the outbreak of the First World War he was one of the world's most respected naval architects, and had been retained as a consultant by the British Government in the celebrated case of the collision between the White Star Liner Olympic and HMS Hawke.

In December 1914 Taylor became a Rear-Admiral and was appointed Chief Constructor of the US Navy. His term of office was extremely stressful, with over 1,000 ships constructed for the war effort and with the work of the fledgling Bureau for Aeronautics also under his control. The problems were not over in 1918 as the Washington Treaty required drastic pruning of the Navy and a careful reshaping of the defence force.

Admiral Taylor retired from active service at the beginning of 1923 but retained several consultancies in aeronautics, shipping and naval architecture. For many years he served as consultant to the ship-design company now known as Gibbs and Cox. Many honours came his way, but the most singular must be the perpetuation of his name in the David Taylor Medal, the highest award of the Society of Naval Architects and Marine Engineers in the United States. Similarly, the Navy named its ship test tank facility, which was opened in Maryland in 1937, the David W. Taylor Model Basin.

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Principal Honours and Distinctions

President, Society of Naval Architects and Marine Engineers 1925–7. United States Distinguished Service Medal. American Society of Civil Engineers John Fritz Medal. Institution of Naval Architects Gold Medal 1894 (the first American citizen to receive it). Society of Naval Architects and Marine Engineers David W.Taylor Medal 1936 (the first occasion of this award).

Bibliography

Resistance of Ships and Screw Propulsion. 1911, The Speed and Power of Ships, New York: Wiley.

Taylor gave many papers to the Maritime Institutions of both the United States and the United Kingdom.

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McNeill, Sir James McFadyen

SUBJECT AREA: Ports and shipping

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b. 19 August 1892 Clydebank, Scotland

d. 24 July 1964 near Glasgow, Scotland

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Scottish naval architect, designer of the Cunard North Atlantic Liners Queen Mary and Queen Elizabeth.

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McNeill was born in Clydebank just outside Glasgow, and was to serve that town for most of his life. After education at Clydebank High School and then at Allan Glen's in Glasgow, in 1908 he entered the shipyard of John Brown \& Co. Ltd as an apprentice. He was encouraged to matriculate at the University of Glasgow, where he studied naval architecture under the (then) unique Glasgow system of "sandwich" training, alternately spending six months in the shipyard, followed by winter at the Faculty of Engineering. On graduating in 1915, he joined the Army and by 1918 had risen to the rank of Major in the Royal Field Artillery.

After the First World War, McNeill returned to the shipyard and in 1928 was appointed Chief Naval Architect. In 1934 he was made a local director of the company. During the difficult period of the 1930s he was in charge of the technical work which led to the design, launching and successful completion of the great liners Queen Mary and Queen Elizabeth. Some of the most remarkable ships of the mid-twentieth century were to come from this shipyard, including the last British battleship, HMS Vanguard, and the Royal Yacht Britannia, completed in 1954. From 1948 until 1959, Sir James was Managing Director of the Clydebank part of the company and was Deputy Chairman by the time he retired in 1962. His public service was remarkable and included chairmanship of the Shipbuilding Conference and of the British Ship Research Association, and membership of the Committee of Lloyd's Register of Shipping.

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Principal Honours and Distinctions

Knight Commander of the Royal Victorian Order 1954. CBE 1950. FRS 1948. President, Institution of Engineers and Shipbuilders in Scotland 1947–9. Honorary Vice-President, Royal Institution of Naval Architects. Military Cross (First World War).

Bibliography

1935, "Launch of the quadruple-screw turbine steamer Queen Mary", Transactions of the Institution of Naval Architects 77:1–27 (in this classic paper McNeill displays complete mastery of a difficult subject; it is recorded that prior to launch the estimate for travel of the ship in the River Clyde was 1,194 ft (363.9 m), and the actual amount recorded was 1,196 ft (364.5m)!).

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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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Russell, John Scott

SUBJECT AREA: Ports and shipping

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b. 9 May 1808 Parkhead, near Glasgow, Scotland

d. 8 June 1882 Isle of Wight, England

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Scottish engineer, naval architect and academic.

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A son of the manse, Russell was originally destined for the Church and commenced studies at the University of St Andrews, but shortly afterwards he transferred to Glasgow, graduating MA in 1825 when only 17 years old. He began work as a teacher in Edinburgh, working up from a school to the Mechanics Institute and then in 1832 to the University, where he took over the classes in natural philosophy following the death of the professor. During this period he designed and advised on the application of steam power to road transport and to the Forth and Clyde Canal, thereby awakening his interest in ships and naval architecture.

Russell presented papers to the British Association over several years, and one of them, The Wave Line Theory of Ship Form (although now superseded), had great influence on ship designers of the time and helped to establish the formal study of hydromechanics. With a name that was becoming well known, Russell looked around for better opportunities, and on narrowly missing appointment to the Chair of Mathematics at Edinburgh University he joined the upand-coming Clyde shipyard of Caird \& Co., Greenock, as Manager in 1838.

Around 1844 Russell and his family moved to London; following some business problems he was in straitened circumstances. However, appointment as Secretary to the Committee setting up the Great Exhibition of 1851 eased his path into London's intellectual society and allowed him to take on tasks such as, in 1847, the purchase of Fairbairn's shipyard on the Isle of Dogs and the subsequent building there of I.K. Brunel's Great Eastern steamship. This unhappy undertaking was a millstone around the necks of Brunel and Russell and broke the health of the former. With the yard failing to secure the order for HMS Warrior, the Royal Navy's first ironclad, Russell pulled out of shipbuilding and for the remainder of his life was a designer, consultant and at times controversial, but at all times polished and urbane, member of many important committees and societies. He is remembered as one of the founders of the Institution of Naval Architects in 1860. His last task was to design a Swiss Lake steamer for Messrs Escher Wyss, a company that coincidentally had previously retained Sir William Fairbairn.

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Principal Honours and Distinctions

FRS 1847.

Bibliography

John Scott Russell published many papers under the imprint of the British Association, the Royal Society of Arts and the Institution of Naval Architects. His most impressive work was the mammoth three-volume work on shipbuilding published in London in 1865 entitled The Modern System of Naval Architecture. Full details and plans of the Great Eastern are included.

Further Reading

G.S.Emmerson, 1977, John Scott Russell, a Great Victorian Engineer and Naval Architect, London: Murray

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Waymouth, Bernard

SUBJECT AREA: Ports and shipping

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b. unknown

d. 25 November 1890 London, England

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English naval architect, ship surveyor and designer of the clipper ship Thermopylae.

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Waymouth had initial training in shipbuilding at one of the Royal Dockyards before going on to work at a privately owned shipyard. With this all-round experience he was accepted in 1854 by Lloyd's Register of Shipping as a surveyor, and was to serve the Society well during a period of great change in ship design. In 1864 he was charged with the task of framing the Rules for the Construction of Composite Built Vessels, i.e. ships with main structural members such as keel, frames and deck beams of iron and with the hull sheathing or planking of timber. Although long superseded, these rules were of considerable consequence at the time and they were accompanied by beautiful drawings executed by Harry J.Cornish, who became Chief Ship Surveyor of Lloyd's from 1900 until 1909. In 1870 revolutionary proposals were made for iron ships that led to the adoption of a new form of rules where the scantlings or size of individual parts were related to the overall dimensions of the vessel. The symbol 100A1 was then adopted for the first time.

Waymouth was more than a theoretical naval architect: in the late 1860s he was commissioned by the shipbuilders Walter Hood to design the famous Aberdeen Clipper Thermopylae. This was one of the fastest sailing ships of the nineteenth century and, along with its Clyde-built counterpart Cutty Sark, proved the efficacy of composite construction for these specialist vessels.

Waymouth was appointed Principal Surveyor of Lloyd's in 1870 and was Secretary of the Society from 1872 until his death at work in 1890. He was a member of the Royal Commission on Tonnage and of the Enquiry into the loss of HMS Atlanta, and at the time of his death was Vice-President of the Institution of Naval Architects.

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Principal Honours and Distinctions

Vice-President, Institution of Naval Architects.

Further Reading

Annals of Lloyd's Register, 1934, London.

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Barnett, James Rennie

SUBJECT AREA: Ports and shipping

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b. 6 September 1864 Johnstone, Renfrewshire, Scotland

d. 13 January 1965 Glasgow, Scotland

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Scottish naval architect described as one of the "Fathers of the Modern Lifeboat Fleet".

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Barnett studied naval architecture at the University of Glasgow and served an apprenticeship under the yacht designer George L. Watson. This was unusual as most undergraduates tended, then as now, to spend their initial years in the various departments of a shipyard, with concentration on the work of the drawing office. In 1904 Barnett succeeded Watson as Principal of the firm, and was simultaneously appointed Consulting Naval Architect to the Royal National Lifeboat Institution (RNLI), a post he held until his retirement in 1947. During this period many changes in lifeboat design brought increasing efficiency, better ranges of stability and improvements in operational safety. The RNLI recognized the great service of Barnett and his predecessor by naming two lifeboat types after them: the Watson and the Barnett.

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Principal Honours and Distinctions

OBE 1918. Royal National Lifeboat Institution Gold Medal.

Bibliography

Barnett was a member of both the Institution of Naval Architects and the Institution of Engineers and Shipbuilders in Scotland. Between 1900 and 1931 he presented a total of six papers to these institutions, on steam yachts, sailing yachts, motor yachts and on lifeboat design.

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White, Sir William Henry

SUBJECT AREA: Ports and shipping

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b. 2 February 1845 Devonport, England

d. 27 February 1913 London, England

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English naval architect distinguished as the foremost nineteenth-century Director of Naval Construction, and latterly as a consultant and author.

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Following early education at Devonport, White passed the Royal Dockyard entry examination in 1859 to commence a seven-year shipwright apprenticeship. However, he was destined for greater achievements and in 1863 passed the Admiralty Scholarship examinations, which enabled him to study at the Royal School of Naval Architecture at South Kensington, London. He graduated in 1867 with high honours and was posted to the Admiralty Constructive Department. Promotion came swiftly, with appointment to Assistant Constructor in 1875 and Chief Constructor in 1881.

In 1883 he left the Admiralty and joined the Tyneside shipyard of Sir W.G. Armstrong, Mitchell \& Co. at a salary of about treble that of a Chief Constructor, with, in addition, a production bonus based on tonnage produced! At the Elswick Shipyard he became responsible for the organization and direction of shipbuilding activities, and during his relatively short period there enhanced the name of the shipyard in the warship export market. It is assumed that White did not settle easily in the North East of England, and in 1885, following negotiations with the Admiralty, he was released from his five-year exclusive contract and returned to public service as Director of Naval Construction and Assistant Controller of the Royal Navy. (As part of the settlement the Admiralty released Philip Watts to replace White, and in later years Watts was also to move from that same shipyard and become White's successor as Director of Naval Construction.) For seventeen momentous years White had technical control of ship production for the Royal Navy. The rapid building of warships commenced after the passing of the Naval Defence Act of 1889, which authorized directly and indirectly the construction of around seventy vessels. The total number of ships built during the White era amounted to 43 battleships, 128 cruisers of varying size and type, and 74 smaller vessels. While White did not have the stimulation of building a revolutionary capital ship as did his successor, he did have the satisfaction of ensuring that the Royal Navy was equipped with a fleet of all-round capability, and he saw the size, displacement and speed of the ships increase dramatically.

In 1902 he resigned from the Navy because of ill health and assumed several less onerous tasks. During the construction of the Cunard Liner Mauretania on the Tyne, he held directorships with the shipbuilders Swan, Hunter and Wigham Richardson, and also the Parsons Marine Turbine Company. He acted as a consultant to many organizations and had an office in Westminster. It was there that he died in February 1913.

White left a great literary legacy in the form of his esteemed Manual of Naval Architecture, first published in 1877 and reprinted several times since in English, German and other languages. This volume is important not only as a text dealing with first principles but also as an illustration of the problems facing warship designers of the late nineteenth century.

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Principal Honours and Distinctions

KCB 1895. Knight Commander of the Order of the Danneborg (Denmark). FRS. FRSE. President, Institution of Civil Engineers; Mechanical Engineers; Marine Engineers. Vice- President, Institution of Naval Architects.

Bibliography

1877, A Manual of Naval Architecture, London.

Further Reading

D.K.Brown, 1983, A Century of Naval Construction, London.

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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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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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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.

FMW

King, James Foster

SUBJECT AREA: Ports and shipping

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b. 9 May 1862 Erskine, Scotland

d. 11 August 1947 Glasgow, Scotland

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Scottish naval architect and classification society manager who made a significant contribution to the safety of shipping.

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King was educated at the High School of Glasgow, and then served an apprenticeship with the Port Glasgow shipyard of Russell \& Co. This was followed by experience in drawing offices in Port Glasgow, Hull and finally in Belfast, where he was responsible for the separate White Star Line drawing office of Harland \& Wolff Ltd, which was then producing the plans for the Atlantic passenger liners Majestic and Teutonic. Following certain unpopular government shipping enactments in 1890, a protest from shipbuilders and shipowners in Ireland, Liverpool and the West of Scotland led to the founding of a new classification society to compete against Lloyd's Register of Shipping. It became known as the British Corporation Register and had headquarters in Glasgow. King was recruited to the staff and by 1903 had become Chief Surveyor, a position he held until his retirement thirty-seven years later. By then the Register was a world leader, with hundreds of thousands of tons of shipping on its books; it acted as consultant to many governments and international agencies. Throughout his working life, King did everything in his power to quantify the risks and problems of ship operation: his contribution to the Load Lines Convention of 1929 was typical, and few major enactments in shipping were designed without his approval. During the inter-war period the performance of the British Corporation outshone that of all rivals, for which King deserved full credit. His especial understanding was for steel structures, and in this respect he ensured that the British Corporation enabled owners to build ships of strengths equal to any others despite using up to 10 per cent less steel within the structure. In 1949 Lloyd's Register of Shipping and the British Corporation merged to form the largest and most influential ship classification society in the world.

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Principal Honours and Distinctions

CBE 1920. Honorary Member, Institution of Engineers and Shipbuilders in Scotland 1941; North East Coast Institution of Engineers and Shipbuilders (Newcastle) 1943; British Corporation 1940. Honorary Vice-President, Institution of Naval Architects.

Further Reading

G.Blake, 1960, Lloyd's Register of Shipping 1760–1960, London: Lloyd's Register. F.M.Walker, 1984, Song of the Clyde. A History of Clyde Shipbuiding, Cambridge: PSL. 1947, The British Corporation Register of Shipping and Aircraft 1890–1947, An

Illustrated Record, 1947, Glasgow.

1946, The British Corporation Register. The War Years in Retrospect, 1956, Glasgow.

FMW

Krylov, Alexei Nicolaevitch

SUBJECT AREA: Ports and shipping

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b. 15 August 1863 Visyoger, Siberia

d. 26 October 1945 Leningrad (now St Petersburg), Russia

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Russian academician and naval architect) exponent of a rigorous mathematical approach to the study of ship motions.

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After schooling in France and Germany, Krylov returned to St Petersburg (as it then was) and in 1878 entered the Naval College. Upon graduating, he started work with the Naval Hydrographic Department; the combination of his genius and breadth of interest became apparent, and from 1888 until 1890 he undertook simultaneously a two-year university course in mathematics and a naval architecture course at his old college. On completion of his formal studies, Krylov commenced fifty years of service to the academic bodies of St Petersburg, including eight years as Superintendent of the Russian Admiralty Ship Model Experiment Tank. For many years he was Professor of Naval Architecture in the city, reorganizing the methods of teaching of his profession in Russia. It was during this period that he laid the foundations of his remarkable research and published the first of his many books destined to become internationally accepted in the fields of waves, rolling, ship motion and vibration. Practical work was not overlooked: he was responsible for the design of many vessels for the Imperial Russian Navy, including the battleships Sevastopol and Petropavlovsk, and went on, as Director of Naval Construction, to test anti-rolling tanks aboard military vessels in the North Atlantic in 1913. Following the Revolution, Krylov was employed by the Soviet Union to re-establish scientific links with other European countries, and on several occasions he acted as Superintendent in the procurement of important technical material from overseas. In 1919 he was appointed Head of the Marine Academy, and from then on participated in many scientific conferences and commissions, mainly in the shipbuilding field, and served on the Editorial Board of the well-respected Russian periodical Sudostroenie (Shipbuilding). The breadth of his personal research was demonstrated by the notable contributions he made to the Russian development of the gyro compass.

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Principal Honours and Distinctions

Member, Russian Academy of Science 1814. Royal Institution of Naval Architects Gold Medal 1898. State Prize of the Soviet Union (first degree). Stalin Premium for work on compass deviation.

Bibliography

Krylov published more than 500 books, papers and articles; these have been collected and published in twelve volumes by the Academy of Sciences of the USSR. 1942, My Memories (autobiography).

AK / FMW