Transactions of the Institution of Engineers and Shipbuilders in Scotland

Wallace, Sir William

SUBJECT AREA: Ports and shipping

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b. 25 August 1881 Leicester, England

d. 27 May 1963 Edinburgh, Scotland

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English engineer; developer of the Denny-Brown fin stabilizer for ships.

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Wallace was brought up just outside Glasgow, and educated at Paisley Grammar School and later at the Anderson College in Glasgow. The next few years were typical of the early years in the life of many young engineers: he served an apprenticeship at the Paisley shipyard of Bow, MacLachlan, before joining the British and Burmese Steam Navigation Company (Paddy Henderson's Line) as a junior engineer. After some years on the Glasgow to Rangoon service, he rose to the rank of Chief Engineer early in life and then came ashore in 1911.

He joined the old established Edinburgh engineering company of Brown Brothers as a draughtsman, but by 1917 had been promoted Managing Director. He was appointed Chairman in 1946. During his near thirty years at the helm, he experimented widely and was the engineering force behind the development of the Denny-Brown ship stabilizer which was jointly pursued by Brown Brothers and the Dumbarton shipyard of William Denny \& Brothers. The first important installation was on the cross-channel steamer Isle of Sark, built at Dumbarton for the Southern Railway in 1932. Over the years countless thousands of these installations have been fitted on liners, warships and luxury yachts. Brown Brothers produced many other important engineering innovations at this time, including the steam catapult for aircraft carriers.

In later years Sir William (now knighted) took an active part in the cultural life of Edinburgh and of Scotland. From 1952 to 1954 he served as President of the Institution of Engineers and Shipbuilders in Scotland.

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Principal Honours and Distinctions

Knighted 1951. CBE 1944. Fellow of the Royal Society of Edinburgh. President, Institution of Engineers and Shipbuilders in Scotland 1952–4; Gold Medal.

Bibliography

1954–5 "Experiences in the stabilization of ships", Transactions of the Institution of Engineers and Shipbuilders in Scotland 98:197–266.

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Elder, John

SUBJECT AREA: Ports and shipping, Steam and internal combustion engines

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b. 9 March 1824 Glasgow, Scotland

d. 17 September 1869 London, England

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Scottish engineer who introduced the compound steam engine to ships and established an important shipbuilding company in Glasgow.

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John was the third son of David Elder. The father came from a family of millwrights and moved to Glasgow where he worked for the well-known shipbuilding firm of Napier's and was involved with improving marine engines. John was educated at Glasgow High School and then for a while at the Department of Civil Engineering at Glasgow University, where he showed great aptitude for mathematics and drawing. He spent five years as an apprentice under Robert Napier followed by two short periods of activity as a pattern-maker first and then a draughtsman in England. He returned to Scotland in 1849 to become Chief Draughtsman to Napier, but in 1852 he left to become a partner with the Glasgow general engineering company of Randolph Elliott \& Co. Shortly after his induction (at the age of 28), the engineering firm was renamed Randolph Elder \& Co.; in 1868, when the partnership expired, it became known as John Elder \& Co. From the outset Elder, with his partner, Charles Randolph, approached mechanical (especially heat) engineering in a rigorous manner. Their knowledge and understanding of entropy ensured that engine design was not a hit-and-miss affair, but one governed by recognition of the importance of the new kinetic theory of heat and with it a proper understanding of thermodynamic principles, and by systematic development. In this Elder was joined by W.J.M. Rankine, Professor of Civil Engineering and Mechanics at Glasgow University, who helped him develop the compound marine engine. Elder and Randolph built up a series of patents, which guaranteed their company's commercial success and enabled them for a while to be the sole suppliers of compound steam reciprocating machinery. Their first such engine at sea was fitted in 1854 on the SS Brandon for the Limerick Steamship Company; the ship showed an improved performance by using a third less coal, which he was able to reduce still further on later designs.

Elder developed steam jacketing and recognized that, with higher pressures, triple-expansion types would be even more economical. In 1862 he patented a design of quadruple-expansion engine with reheat between cylinders and advocated the importance of balancing reciprocating parts. The effect of his improvements was to greatly reduce fuel consumption so that long sea voyages became an economic reality.

His yard soon reached dimensions then unequalled on the Clyde where he employed over 4,000 workers; Elder also was always interested in the social welfare of his labour force. In 1860 the engine shops were moved to the Govan Old Shipyard, and again in 1864 to the Fairfield Shipyard, about 1 mile (1.6 km) west on the south bank of the Clyde. At Fairfield, shipbuilding was commenced, and with the patents for compounding secure, much business was placed for many years by shipowners serving long-distance trades such as South America; the Pacific Steam Navigation Company took up his ideas for their ships. In later years the yard became known as the Fairfield Shipbuilding and Engineering Company Ltd, but it remains today as one of Britain's most efficient shipyards and is known now as Kvaerner Govan Ltd.

In 1869, at the age of only 45, John Elder was unanimously elected President of the Institution of Engineers and Shipbuilders in Scotland; however, before taking office and giving his eagerly awaited presidential address, he died in London from liver disease. A large multitude attended his funeral and all the engineering shops were silent as his body, which had been brought back from London to Glasgow, was carried to its resting place. In 1857 Elder had married Isabella Ure, and on his death he left her a considerable fortune, which she used generously for Govan, for Glasgow and especially the University. In 1883 she endowed the world's first Chair of Naval Architecture at the University of Glasgow, an act which was reciprocated in 1901 when the University awarded her an LLD on the occasion of its 450th anniversary.

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Principal Honours and Distinctions

President, Institution of Engineers and Shipbuilders in Scotland 1869.

Further Reading

Obituary, 1869, Engineer 28.

1889, The Dictionary of National Biography, London: Smith Elder \& Co. W.J.Macquorn Rankine, 1871, "Sketch of the life of John Elder" Transactions of the

Institution of Engineers and Shipbuilders in Scotland.

Maclehose, 1886, Memoirs and Portraits of a Hundred Glasgow Men.

The Fairfield Shipbuilding and Engineering Works, 1909, London: Offices of Engineering.

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

R.L.Hills, 1989, Power from Steam. A History of the Stationary Steam Engine, Cambridge: Cambridge University Press (covers Elder's contribution to the development of steam engines).

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Napier, Robert

SUBJECT AREA: Ports and shipping

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b. 18 June 1791 Dumbarton, Scotland

d. 23 June 1876 Shandon, Dunbartonshire, Scotland

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Scottish shipbuilder one of the greatest shipbuilders of all time, known as the "father" of Clyde shipbuilding.

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Educated at Dumbarton Grammar School, Robert Napier had been destined for the Church but persuaded his father to let him serve an apprenticeship as a blacksmith under him. For a while he worked in Edinburgh, but then in 1815 he commenced business in Glasgow, the city that he served for the rest of his life. Initially his workshop was in Camlachie, but it was moved in 1836 to a riverside factory site at Lancefield in the heart of the City and again in 1841 to the Old Shipyard in the Burgh of Govan (then independent of the City of Glasgow). The business expanded through his preparedness to build steam machinery, beginning in 1823 with the engines for the paddle steamer Leven, still to be seen a few hundred metres from Napier's grave in Dumbarton. His name assured owners of quality, and business expanded after two key orders: one in 1836 for the Honourable East India Company; and the second two years later for the Royal Navy, hitherto the preserve of the Royal Dockyards and of the shipbuilders of south-east England. Napier's shipyard and engine shops, then known as Robert Napier and Sons, were to be awarded sixty Admiralty contracts in his lifetime, with a profound influence on ship and engine procurement for the Navy and on foreign governments, which for the first time placed substantial work in the United Kingdom.

Having had problems with hull subcontractors and also with the installation of machinery in wooden hulls, in 1843 Napier ventured into shipbuilding with the paddle steamer Vanguard, which was built of iron. The following year the Royal Navy took delivery of the iron-hulled Jackall, enabling Napier to secure the contract for the Black Prince, Britain's second ironclad and sister ship to HMS Warrior now preserved at Portsmouth. With so much work in iron Napier instigated studies into metallurgy, and the published work of David Kirkaldy bears witness to his open-handedness in assisting the industry. This service to industry was even more apparent in 1866 when the company laid out the Skelmorlie Measured Mile on the Firth of Clyde for ship testing, a mile still in use by ships of all nations.

The greatest legacy of Robert Napier was his training of young engineers, shipbuilders and naval architects. Almost every major Scottish shipyard, and some English too, was influenced by him and many of his early foremen left to set up rival establishments along the banks of the River Clyde. His close association with Samuel Cunard led to the setting up of the company now known as the Cunard Line. Napier designed and engined the first four ships, subcontracting the hulls of this historic quartet to other shipbuilders on the river. While he contributed only 2 per cent to the equity of the shipping line, they came back to him for many more vessels, including the magnificent paddle ship Persia, of 1855.

It is an old tradition on the Clyde that the smokestacks of ships are made by the enginebuilders. The Cunard Line still uses red funnels with black bands, Napier's trademark, in honour of the engineer who set them going.

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Principal Honours and Distinctions

Knight Commander of the Dannebrog (Denmark). President, Institution of Mechanical Engineers 1864. Honorary Member of the Glasgow Society of Engineers 1869.

Further Reading

James Napier, 1904, The Life of Robert Napier, Edinburgh, Blackwood.

J.M.Halliday, 1980–1, "Robert Napier. The father of Clyde shipbuilding", Transactions of the Institution of Engineers and Shipbuilders in Scotland 124.

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

See also: Fairbairn, William; Thomson, Sir William

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Mavor, Henry Alexander

SUBJECT AREA: Electricity, Ports and shipping, Public utilities

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b. 1858 Stranraer, Scotland

d. 16 July 1915 Mauchline, Ayrshire, Scotland

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Scottish engineer who pioneered the use of electricity for lighting, power and the propulsion of ships.

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Mavor came from a distinguished Scottish family with connections in medicine, industry and the arts. On completion of his education at Glasgow University, he joined R.J.Crompton \& Co.; then in 1883, along with William C.Muir, he established the Glasgow firm which later became well known as Mavor and Coulson. It pioneered the supply of electricity to public undertakings and equipped the first two generating stations in Scotland. Mavor and his fellow directors appreciated the potential demand by industry in Glasgow for electricity. Two industries were especially well served; first, the coal-mines, where electric lighting and power transformed efficiency and safety beyond recognition; and second, marine engineering. Here Mavor recognized the importance of the variable-speed motor in working with marine propellers which have a tighter range of efficient working speeds. In 1911 he built a 50 ft (15 m) motor launch, appropriately named Electric Arc, at Dumbarton and fitted it with an alternating-current motor driven by a petrol engine and dynamo. Within two years British shipyards were building electrically powered ships, and by the beginning of the First World War the United States Navy had a 20,000-ton collier with this new form of propulsion.

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Principal Honours and Distinctions

Vice-President, Institution of Engineers and Shipbuilders in Scotland 1894–6.

Bibliography

Mavor published several papers on electric power supply, distribution and the use of electricity for marine purposes in the Transactions of the Institution of Engineers and Shipbuilders in Scotland between the years 1890 and 1912.

Further Reading

Mavor and Coulson Ltd, 1911, Electric Propulsion of Ships, Glasgow.

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Wilson, Thomas

SUBJECT AREA: Canals, Ports and shipping

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b. 1781 Dunbar, Scotland

d. 1 December 1873 Grangemouth, Scotland

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Scottish shipwright and canal engineer, builder of the barge Vulcan, the world's first properly constructed iron ship.

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Wilson, the son of a sailor, spent his early years on the Forth. Later his father moved home to the west and Wilson served his apprenticeship as a shipwright on the Clyde at the small shipyards of Bowling, fifteen miles (24 km) west of Glasgow and on the river's north bank. In his late thirties Wilson was to take the leading role in what is arguably the most important development in Scotland's distinguished shipbuilding history: the building of the world's first properly constructed iron ship. This ship, the Vulcan, was the culmination of several years' effort by a group of people well connected within the academic establishment of Scotland. The Forth and Clyde Canal Company had passed instructions for investigations to be made into reducing running expenses and a distinguished committee looked into this matter. They included John Robison (Secretary of the Royal Society of Edinburgh), Professor Joseph Black of Glasgow University, James Watt and John Schanck. After a period of consideration it was decided to build a new, fastpassage barge of iron, and tenders were invited from several appropriate contractors. Wilson, with the assistance of two blacksmiths, John and Thomas Smellie, was awarded the work, and the Vulcan was constructed and ultimately launched at Faskine near Glasgow in 1819. The work involved was far beyond the comprehension of engineers of the twentieth century, as Wilson had to arrange puddled-iron plates for the shell and hand-crafted angle irons for the frames. His genius is now apparent as every steel ship worldwide uses a form of construction literally "hammered out on the anvil" between 1818 and 1819. The Vulcan was almost 64 ft (19.5 m) in length and 11 ft (3.4 m) broad. In 1822 Wilson was appointed an inspector of works for the Canal Company, and ultimately he superintended the building of the docks at Grangemouth, where he died in 1873, the same year that the Vulcan was broken up.

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Further Reading

R.Harvey, 1919, Early Days of Engineering in Glasgow, Glasgow: Aird and Coghill. F.M.Walker, 1989–90, "Early iron shipbuilding. A reappraisal of the Vulcan and other pioneer vessels", Transactions of the Institution of Engineers and Shipbuilders in

Scotland 133:21–34.

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Bell, Imrie

SUBJECT AREA: Civil engineering, Ports and shipping

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b. 1836 Edinburgh, Scotland

d. 21 November 1906 Croydon, Surrey, England

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Scottish civil engineer who built singular and pioneering structures.

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Following education at the Royal High School of Edinburgh, Bell served an apprenticeship with a Mr Bertram, engineer and shipwright of Leith, before continuing as a regular pupil with Bell and Miller, the well-known civil engineers of Glasgow. A short period at Pelton Colliery in County Durham followed, and then at the early age of 20 Bell was appointed Resident Engineer on the construction of the Meadowside Graving Dock in Glasgow.

The Meadowside Dry Dock was opened on 28 January 1858 and was a remarkable act of faith by the proprietors Messrs Tod and McGregor, one of the earliest companies in iron shipbuilding in the British Isles. It was the first dry dock in the City of Glasgow and used the mouth of the river Kelvin for canting ships; at the time the dimensions of 144×19×5.5m depth were regarded as quite daring. This dock was to remain in regular operation for nearly 105 years and is testimony to the skills of Imrie Bell and his colleagues.

In the following years he worked for the East India Railway Company, where he was in charge of the southern half of the Jumna Railway Bridge at Allahabad, before going on to other exciting civil engineering contracts in India. On his return home, Bell became Engineer to Leith Docks, and three years later he became Executive Engineer to the States of Jersey, where he constructed St Helier's Harbour and the lighthouse at La Corbiere—the first in Britain to be built with Portland cement. In 1878 he rejoined his old firm of Bell and Miller, and ultimately worked from their Westminster office. One of his last jobs in Scotland was supervising the building of the Great Western Road Bridge in Glasgow, one of the beautiful bridges in the West End of the city.

Bell retired from business in 1898 and lived in Surrey for the rest of his life.

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Bibliography

1879–80, "On the St Helier's Harbour works", Transactions of the Institution of Engineers and Shipbuilders in Scotland 23.

Further Reading

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

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Kirkaldy, David

SUBJECT AREA: Metallurgy, Ports and shipping

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b. 4 April 1820 Mayfield, Dundee, Scotland

d. 25 January 1897 London, England

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Scottish engineer and pioneer in materials testing.

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The son of a merchant of Dundee, Kirkaldy was educated there, then at Merchiston Castle School, Edinburgh, and at Edinburgh University. For a while he worked in his father's office, but with a preference for engineering, in 1843 he commenced an apprenticeship at the Glasgow works of Robert Napier. After four years in the shops he was transferred to the drawing office and in a very few years rose to become Chief. Here Kirkaldy demonstrated a remarkable talent both for the meticulous recording of observations and data and for technical drawing. His work also had an aesthetic appeal and four of his drawings of Napier steamships were shown at the Paris Exhibition of 1855, earning both Napier and Kirkaldy a medal. His "as fitted" set of drawings of the Cunard Liner Persia, which had been built in 1855, is now in the possession of the National Maritime Museum at Greenwich, London; it is regarded as one of the finest examples of its kind in the world, and has even been exhibited at the Royal Academy in London.

With the impending order for the Royal Naval Ironclad Black Prince (sister ship to HMS Warrior, now preserved at Portsmouth) and for some high-pressure marine boilers and engines, there was need for a close scientific analysis of the physical properties of iron and steel. Kirkaldy, now designated Chief Draughtsman and Calculator, was placed in charge of this work, which included comparisons of puddled steel and wrought iron, using a simple lever-arm testing machine. The tests lasted some three years and resulted in Kirkaldy's most important publication, Experiments on Wrought Iron and Steel (1862, London), which gained him wide recognition for his careful and thorough work. Napier's did not encourage him to continue testing; but realizing the growing importance of materials testing, Kirkaldy resigned from the shipyard in 1861. For the next two and a half years Kirkaldy worked on the design of a massive testing machine that was manufactured in Leeds and installed in premises in London, at The Grove, Southwark.

The works was open for trade in January 1866 and engineers soon began to bring him specimens for testing on the great machine: Joseph Cubitt (son of William Cubitt) brought him samples of the materials for the new Blackfriars Bridge, which was then under construction. Soon The Grove became too cramped and Kirkaldy moved to 99 Southwark Street, reopening in January 1874. In the years that followed, Kirkaldy gained a worldwide reputation for rigorous and meticulous testing and recording of results, coupled with the highest integrity. He numbered the most distinguished engineers of the time among his clients.

After Kirkaldy's death, his son William George, whom he had taken into partnership, carried on the business. When the son died in 1914, his widow took charge until her death in 1938, when the grandson David became proprietor. He sold out to Treharne \& Davies, chemical consultants, in 1965, but the works finally closed in 1974. The future of the premises and the testing machine at first seemed threatened, but that has now been secured and the machine is once more in working order. Over almost one hundred years of trading in South London, the company was involved in many famous enquiries, including the analysis of the iron from the ill-fated Tay Bridge (see Bouch, Sir Thomas).

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Principal Honours and Distinctions

Institution of Engineers and Shipbuilders in Scotland Gold Medal 1864.

Bibliography

1862, Results of an Experimental Inquiry into the Tensile Strength and Other Properties of Wrought Iron and Steel (originally presented as a paper to the 1860–1 session of the Scottish Shipbuilders' Association).

Further Reading

D.P.Smith, 1981, "David Kirkaldy (1820–97) and engineering materials testing", Transactions of the Newcomen Society 52:49–65 (a clear and well-documented account).

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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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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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