Gerhard Moritz Roentgen (* 7 May 1795 in Esens in

Ostfriesland East Frisia or East Friesland (german: Ostfriesland; ; stq, Aastfräislound) is a historic region in the northwest of Lower Saxony, Germany. It is primarily located on the western half of the East Frisian peninsula, to the east of West Frisia ...

; † 28 October 1852 in Santpoort near

Velsen Velsen () is a municipality in the Netherlands, in the province of North Holland. It is located on both sides of the North Sea Canal. On the north side of the North Sea Canal there is a major steel plant, Tata Steel IJmuiden, formerly known a ...

North Holland North Holland ( nl, Noord-Holland, ) is a province of the Netherlands in the northwestern part of the country. It is located on the North Sea, north of South Holland and Utrecht, and west of Friesland and Flevoland. In November 2019, it had a ...

) was a

Dutch Navy The Royal Netherlands Navy ( nl, Koninklijke Marine, links=no) is the naval force of the Kingdom of the Netherlands. During the 17th century, the navy of the Dutch Republic (1581–1795) was one of the most powerful naval forces in the world an ...

officer, machine building engineer and ship builder. As of 1823 he was involved in founding the

Nederlandsche Stoomboot Maatschappij The Nederlandsche Stoomboot Maatschappij ((Netherlands Steamboat Co)), abbreviated as NSM or NSBM, was a Dutch shipping line focused on inland navigation. In the 1820s it was important for the quick introduction of steam power on the Dutch rivers ...

(NSM). At first he was one of NSM two chief executives. Later on, he was the only executive till 1849. The invention of the marine

compound steam engine A compound steam engine unit is a type of steam engine where steam is expanded in two or more stages. A typical arrangement for a compound engine is that the steam is first expanded in a high-pressure ''(HP)'' cylinder, then having given up he ...

is Roentgen's main scientific achievement.

Early life

Youth and service in the navy

Gerhard Moritz Roentgen, known in the Netherlands as Gerhard Mauritz Roentgen, was the fourth son of Ludwig Roentgen and Sophia Margaretha Tischbein. Ludwig was a minister and the inspector of the orphanage and poor house in Esens, Ostfriesland. Ludwig's father descended from the artistic

cabinet maker A cabinet is a case or cupboard with shelves and/or drawers for storing or displaying items. Some cabinets are stand alone while others are built in to a wall or are attached to it like a medicine cabinet. Cabinets are typically made of wood (s ...

family Roentgen from

Neuwied Neuwied () is a town in the north of the German state of Rhineland-Palatinate, capital of the District of Neuwied. Neuwied lies on the east bank of the Rhine, 12 km northwest of Koblenz, on the railway from Frankfurt am Main to Cologne. Th ...

on the Rhine. Till his 13th year, Roentgen lived in Esens, which had become part of the

Kingdom of Holland The Kingdom of Holland ( nl, Holland (contemporary), (modern); french: Royaume de Hollande) was created by Napoleon Bonaparte, overthrowing the Batavian Republic in March 1806 in order to better control the Netherlands. Since becoming Emperor ...

by then. In 1808 he joined the Dutch naval academy in

Enkhuizen Enkhuizen () is a municipality and a city in the Netherlands, in the province of North Holland and the region of West-Frisia. History Enkhuizen, like Hoorn and Amsterdam, was one of the harbor-towns of the VOC, from where overseas trade wi ...

, which he left as

midshipman A midshipman is an officer of the lowest rank, in the Royal Navy, United States Navy, and many Commonwealth navies. Commonwealth countries which use the rank include Canada (Naval Cadet), Australia, Bangladesh, Namibia, New Zealand, South Afr ...

in 1810. Together with 30 other students, Roentgen was sent to Toulon by the French, where they should finish there education. When they applied to leave the French service in Spring 1814, the students were jailed in a fort near Toulon. Roengen escaped with two others, and arrived back in Holland in Summer. In 1813 the Netherlands had been liberated. Roentgen then joined the re-established Dutch navy. In November 1814 he became a lieutenant 2nd class. In 1815 he sailed to the Dutch East Indies on board the ship of the line ''Brabant''. The shoddy ex-French ''Brabant'' was forced to enter Portsmouth on 31 October 1815. Here she was docked and then sent back. Roentgen remained in England with orders to study shipbuilding there. In England Roentgen met the engineer John Fincham (1785-1859) and several others, just when the first

steamboat A steamboat is a boat that is marine propulsion, propelled primarily by marine steam engine, steam power, typically driving propellers or Paddle steamer, paddlewheels. Steamboats sometimes use the ship prefix, prefix designation SS, S.S. or S/S ...

s were built there. In 1817 Roentgen became

adjutant Adjutant is a military appointment given to an officer who assists the commanding officer with unit administration, mostly the management of human resources in an army unit. The term is used in French-speaking armed forces as a non-commission ...

of the naval commander of Rotterdam. In March 1818 Roentgen and the engineers C. Soetermeer and C.J. Glavimans got orders to make a more regular research trip to England. Roentgen remained in England till October 1820. He had a full permit from the British government to visit the navy shipyards, and to draw and model everything.

Marriage

In England Roentgen became acquainted with the very beautiful Georgina Louise Bennet (+1795-?). Without requesting the customary permission from the king, Roentgen married Georgina in 1821. He later apologized to the king for this unthoughtful act, and the king forgave him. However, his wife had to come to the Rotterdam Navy Command on 21 May 1821, and promise never to join her husband on a sea trip or on board ship.

Orders the Moerdijk ferry

In August 1821 Roentgen got net orders to go to London. He was to design and order ferry

for the Moerdijk.

Role in modernizing the Belgian iron industry

The Belgian iron industry had flourished during the

French period In Northern European historiography, the term French period (french: Période française, german: Franzosenzeit, nl, Franse tijd) refers to the period between 1794 and 1815 during which most of Northern Europe was controlled by Republican or Napo ...

, when British iron was banned from the continent. After the regained independence, it was getting obliterated by the British competition. The British product was so much better and cheaper, that the Netherlands could not do without it. Therefore the government wanted to know why the Southern Netherlands iron industry could not achieve the same quality. The government lacked a true expert, and then gave Roentgen the far wider mission to also gather all possible information about the British iron mining, production, and processing. Roentgen instructions held that he should primarily focus on how the British iron became so pure by removing other minerals like

copper Copper is a chemical element with the symbol Cu (from la, cuprum) and atomic number 29. It is a soft, malleable, and ductile metal with very high thermal and electrical conductivity. A freshly exposed surface of pure copper has a pinkis ...

zinc Zinc is a chemical element with the symbol Zn and atomic number 30. Zinc is a slightly brittle metal at room temperature and has a shiny-greyish appearance when oxidation is removed. It is the first element in group 12 (IIB) of the periodi ...

arsenic Arsenic is a chemical element with the symbol As and atomic number 33. Arsenic occurs in many minerals, usually in combination with sulfur and metals, but also as a pure elemental crystal. Arsenic is a metalloid. It has various allotropes, but ...

and

phosphorus Phosphorus is a chemical element with the symbol P and atomic number 15. Elemental phosphorus exists in two major forms, white phosphorus and red phosphorus, but because it is highly reactive, phosphorus is never found as a free element on Ear ...

. He furthermore had to study

blast furnace A blast furnace is a type of metallurgical furnace used for smelting to produce industrial metals, generally pig iron, but also others such as lead or copper. ''Blast'' refers to the combustion air being "forced" or supplied above atmospheric ...

s, the

cupola furnace A cupola or cupola furnace is a melting device used in foundries that can be used to melt cast iron, Ni-resist iron and some bronzes. The cupola can be made almost any practical size. The size of a cupola is expressed in diameters and can range f ...

rolling Rolling is a type of motion that combines rotation (commonly, of an axially symmetric object) and translation of that object with respect to a surface (either one or the other moves), such that, if ideal conditions exist, the two are in contact ...

, and the use of coal in smelting iron. For some months Roentgen travelled in the English and Scottish industrial heartlands. In August 1822 he sent in his report. He noted that the British iron was so superior because it used

Limonite Limonite () is an iron ore consisting of a mixture of hydrated iron(III) oxide-hydroxides in varying composition. The generic formula is frequently written as FeO(OH)·H2O, although this is not entirely accurate as the ratio of oxide to hydroxid ...

as ore, instead of trying to purify other ores. The use of limonite was connected to using blast furnaces, and cokes or coal as fuel. Roentgen then got to examine the iron industry in the Southern Netherlands. During his visit there, he met John Cockerill. In January 1823 Roentgen sent in another extensive report. This report explained the troubles of the Belgian iron industry: The blast furnaces were too small, and still fired with

charcoal Charcoal is a lightweight black carbon residue produced by strongly heating wood (or other animal and plant materials) in minimal oxygen to remove all water and volatile constituents. In the traditional version of this pyrolysis process, cal ...

instead of coal; the

puddle A puddle is a small accumulation of liquid, usually water, on a surface. It can form either by pooling in a depression on the surface, or by surface tension upon a flat surface. A puddle is generally shallow enough to walk through, and too sma ...

process was used in only one location;

Bellows A bellows or pair of bellows is a device constructed to furnish a strong blast of air. The simplest type consists of a flexible bag comprising a pair of rigid boards with handles joined by flexible leather sides enclosing an approximately airtigh ...

and hammers were underpowered because they still relied on

watermill A watermill or water mill is a mill that uses hydropower. It is a structure that uses a water wheel or water turbine to drive a mechanical process such as milling (grinding), rolling, or hammering. Such processes are needed in the production of ...

s, which did not even work the whole year. Roentgen advised the government to support the foundation a blast furnace and iron foundry on the English model, see Cockerill. The report made a lasting impression on his principals. With his ideas about steam propulsion Roentgen got the attention of King William I. When Roentgen wanted to leave the navy, he got an exceptionally honorable discharge as of 1 January 1824. He got a simultaneous appointment as adviser for machine building at the Department of education, industry and the colonies for 2,000 guilders a year.

Roentgen's vision about the future of steam

Roentgen is known to have been a visionary technician. He expressed his vision in the (Memorandum about how steam engines could be put to good use on warships). He made this report after the king had sent him back to England to investigate the actual application of steam engines. Roentgen sent the report to his minister on 21 April 1824. The minister for industry forwarded it to the Minister for the navy, who on 16 June 1824 appointed a commission to judge the work. As regards the steam engine, Roentgen noted that only about 25% of the energy from coal was put to use. He expected that engines would soon become more efficient by increased simplicity and the use of metal and copper next to iron. Roentgen also appreciated that high pressure steam engines would be far more effective, because they would save space and fuel. This would make it possible to efficiently steam across the oceans. He also saw possible improvements in the paddle wheel, but hoped that it could one day be replaced by a more effective means of propulsion. For the hull of warships Roentgen predicted that warships would become much faster and bigger than anything yet afloat, but that this would happen only when wood had been replaced by iron. This would make ships lighter, and allow a longer narrower form that would increase speed. A truly radical thought by Roentgen was to armor the iron warship from a few feet below the waterline to a few feet above the waterline, and about the machines. As regards artillery Roentgen suggested to use heavier guns, e.g.

Paixhans gun The Paixhans gun (French: ''Canon Paixhans'', ) was the first naval gun designed to fire explosive shells. It was developed by the French general Henri-Joseph Paixhans in 1822–1823. The design furthered the evolution of naval artillery into th ...

s. The artillery could be of the Paixhans system, but it would be even better to have e.g. a single 50 cm gun shooting a 500 kg bullet, or a 300 kg grenade. Such new warships would be able to stand up to the current ships of the line, and to destroy them one by one. Roentgen also foresaw the use of an iron

Naval ram A ram was a weapon fitted to varied types of ships, dating back to antiquity. The weapon comprised an underwater prolongation of the bow of the ship to form an armoured beak, usually between 2 and 4 meters (6–12 ft) in length. This would be dri ...

, but did not expect much from submarines and torpedoes. Roentgen proposed made three specific projects: * Building tugboats to tow warships on rivers, and out into sea, and even into the English Channel. * Placing a steam engine in an existing warship (see: frigate ''Rijn'') * Building a new iron steam warship The navy commission deemed most of Roentgen proposals to be too futuristic. Of his specific projects, the one to place a steam engine in an existing warship was executed in Vlissingen, but failed. The plan for the sea going tugboats and new iron warship led to further plans by engineer Soetermeer. In 1825 Roentgen got the

Order of the Netherlands Lion The Order of the Netherlands Lion, also known as the Order of the Lion of the Netherlands ( nl, De Orde van de Nederlandse Leeuw, french: L'Ordre du Lion Néerlandais) is a Dutch order of chivalry founded by King William I of the Netherlands on ...

for his work. Roentgen was not the only man with these views. Previously,

Robert Fulton Robert Fulton (November 14, 1765 – February 24, 1815) was an American engineer and inventor who is widely credited with developing the world's first commercially successful steamboat, the (also known as ''Clermont''). In 1807, that steamboat ...

(1765-1815) had designed the self-propelled battery ship

Demologos ''Demologos'' was the first warship to be propelled by a steam engine. She was a wooden floating battery built to defend New York Harbor New York Harbor is at the mouth of the Hudson River where it empties into New York Bay near the Eas ...

. She was commissioned in 1816, was armored in wood, and was designed to also mount two 100-pounder

Columbiad The columbiad was a large-caliber, smoothbore, muzzle-loading cannon able to fire heavy projectiles at both high and low trajectory, trajectories. This feature enabled the columbiad to fire solid Round shot, shot or Shell (projectile), shell to ...

s. In 1824, P.M. de Montgéry published his Mémoire sur les Navires en Fer. In this work he reiterated his earlier view that ships should be armored in iron.

Invention of the compound steam engine

The invention of the marine

is Roentgen's greatest scientific achievement. It came about by the construction of the steam tugboat ''Hercules''. She had been ordered in 1825, but in 1828 ''Hercules'' was still not ready. Roentgen then decided to re-use the high-pressure steam engine of ''Agrippina'' (another failed project). During this transfer, two high-pressure

cylinder A cylinder (from ) has traditionally been a three-dimensional solid, one of the most basic of curvilinear geometric shapes. In elementary geometry, it is considered a prism with a circle as its base. A cylinder may also be defined as an infin ...

s were joined by a large single low pressure cylinder. The core of the invention was the use of a receiver, which enabled the re-use of steam without the cylinders expanding at the same time. This set Roentgen's machine apart from the earlier Woolf engine, which he had undoubtedly seen in Great Britain. It made that Roentgen's machine could effectively be used on vessels. Roentgen's invention could not be used effectively for sea-going vessels, because it required fresh water to be injected in the condensers. In the end, Roentgen's invention had little lasting consequences, because of John Penn's elegant version of the

oscillating cylinder steam engine An oscillating cylinder steam engine (also known as a wobbler in the US) is a simple steam-engine design (proposed by William Murdoch at the end of 18th century) that requires no valve gear. Instead the cylinder rocks, or oscillates, as the ...

. At the time this became a superior solution, also for inland shipping. Roentgen's machine was nevertheless patented in the United Kingdom in 1834 by his representative Ernst Wolff. From 1854 the compound steam engine was successfully applied to ocean-going ships by John Elder, and came in general use. In about 1890 there was a debate about who had actually invented the compound steam engine. Mr. David Croll, Scotsman and Clyde engineer, and general manager of the Nederlandsche Stoomboot Maatschappij then sent design drawings of ''Hercules'' to the magazine The Engineer. An 1890 article in the magazine was clear: ''These old drawings, made between the years 1826 and 1840, prove beyond the shadow of a doubt that compound engines wth 70 lb to 80 lb steam were working on the Rhine and Meuse so long back as sixty years ago, and also that many of what are generally supposed to be modern improvements, such as forced draught, hollow shafts, stepped floats, and balanced rudders, were practically applied only a few years later''. In a later issue M. Mallet showed many shortcomings in Roentgen's engine, but also concluded that: ''There is no longer any room for doubt that the invention of the compound engine with receiver, the use of which has in our time been so greatly extended, must be attributed to the Dutch constructor, Gerard Maurice Roentgen, who has not only described in his patent specifications, ... , the essential arrangement of this engine, but has also made numerous applications of it.''

In business

Foundation of a shipping line

In 1822 Roentgen was one of the founders of Van Vollenhoven, Dutilh & Co., a shipping line that built ''De Nederlander'', the first Dutch steamboat, albeit with a British engine. She made her first trip on 3 June 1823. In November 1823 Roentgen was one of the founders of the

(NSM). This was a shipping line with two equally powerful executives. Of these, Roentgen became the executive for materiel and also the engineer of NSM. NSM took over the shipping line from Rotterdam to Antwerp, and soon opened lines to Veere, Nijmegen, and Arnhem. In May 1825 the shipyard of H. Blanken in Oost IJsselmonde was bought, so NSM could build steamboats. Somewhat later, NSM founded its own shipyard

Fijenoord Fijenoord () was a shipbuilding company and machine factory in Rotterdam the Netherlands from 1823 to 1929. In 1929 it merged with Wilton to become Wilton-Fijenoord. Early years First ships and activities of the NSM In 1822 a number of bus ...

. At first the steam engines for the ships came from John Cockerill & Cie.

Trips on the Rhine

A more ambitious project of NSM was the idea to establish steamboat lines on the Rhine. Merchants from Cologne were interested, and took shares in NSM. On 26 October 1824 Roentgen then left Rotterdam on board ''De Zeeuw'', the second steamboat of NSM. The goal was Cologne, which was reached on 29 October, after steaming for 37 hours and 17 minutes. Here ''De Zeeuw'' towed a sailing ship with 2,000 hundredweight of

cereal A cereal is any Poaceae, grass cultivated for the edible components of its grain (botanically, a type of fruit called a caryopsis), composed of the endosperm, Cereal germ, germ, and bran. Cereal Grain, grain crops are grown in greater quantit ...

s upstream. The experiment convinced the Cologne merchants of the potential of steam power. The expedition with De Zeeuw would succeed in reaching

Kaub Kaub (old spelling: ''Caub'') is a town in Germany, state Rhineland-Palatinate, district Rhein-Lahn-Kreis. It is part of the municipality (''Verbandsgemeinde'') Loreley. It is located on the right bank of the Rhine, approx. 50 km west from Wi ...

, about halfway between Coblenz and Mainz. In 1825 Roentgen made another trip on the Rhine. This time he was on board the new ''De Rijn''. On 10 September 1825 she left Cologne to steam upstream. ''De Rijn'' succeeded in reaching

Kehl Kehl (; gsw, label= Low Alemannic German, Low Alemannic, Kaal) is a town in southwestern Germany in the Ortenaukreis, Baden-Württemberg. It is on the river Rhine, directly opposite the French city of Strasbourg, with which it shares some munic ...

on the Upper Rhine. On 21 September she reached Strasburg. In 1830 Roentgen was involved in the construction of the steamboat ''Stadt Mainz''. In June 1832 he reached Basel on board ''Stadt Frankfurt'' in an expedition to investigate whether steamboats could reach that city.

Other projects

Roentgen was a visionary technician, and this led to some visionary projects. These were not always successful. The conversion of the sailing frigate ''Rijn'' would become a failure. The frigate was towed out of the water at the Rijkswerf Vlissingen in the late 1820s. She was then cut in two in order to insert a section for a paddle wheel and engine by Cockerill. The experiment failed, but predates the (successful) conversion of HMS Penelope, which began in 1842 by about 15 years. The construction of the

ocean liner An ocean liner is a passenger ship primarily used as a form of transportation across seas or oceans. Ocean liners may also carry cargo or mail, and may sometimes be used for other purposes (such as for pleasure cruises or as hospital ships). Ca ...

''Atlas'' for the Dutch East Indies was another revolutionary project. ''Atlas'' was launched by the shipyard Hoogendijk in Capelle aan de IJssel on 30 March 1826. She was the world's biggest steam ship in 1828, but was not rigid enough for steam propulsion. ''Atlas'' made a trip at sea, but was plagued by so many problems that the project was abandoned. ''Pylades'' was another failure. She was a long sailing ship that made her trials on 17 December 1834. On 2 January 1835 ''Pylades'' set course for the East Indies, but sunk after being at sea for only a few hours. It turned into a financial disaster for NSM.

Later work

In 1839 Roentgen started the first steam ship for the Dutch East Indies that would actually reach the area. This was ''Batavia'', launched in 1845. Soon Fijenoord received orders for ship steam engines from France and Russia. Roentgen was also a regular adviser of the Preußisch-Rheinischen Dampfschiffahrts-Gesellschaft (PRDG) in Cologne. He was also an adviser of the

Gutehoffnungshütte MAN SE (abbreviation of ''Maschinenfabrik Augsburg-Nürnberg'', ) was a manufacturing and engineering company based in Munich, Germany. Its primary output was commercial vehicles and diesel engines through its MAN Truck & Bus and MAN Latin Ame ...

in Sterkrade. In June 1848 Roentgen showed signs of a burnout. On 31 March 1849 he stepped down as chief executive. On 25 April 1849 he still attended a meeting of the supervisory board. In May 1849 Roentgen then had to lay down the management of NSM and its shipyard Fijenoord due to a burnout. The last years of his life he became insane. In June 1852 he was brought to the institute ''Meer en Berg'' in

Santpoort-Zuid {{Infobox settlement , name = Santpoort-Zuid , settlement_type = Village , other_name = , native_name = , native_name_lang = nl , image_skyline = 37110 Ruine van Brederode ...

near

, where he died at age 57.In June 1848 Roentgen showed signs of a burn-out. On 25 April 1849 Roentgen he still attended a meeting of the supervisory board. A street in the neighborhood Feijenoord is named after him.

Works

Literature

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References

Citations

Bibliography

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External links

Roentgen's work for a paper factory in Holland
(Dutch) Mechanical engineers People from East Frisia {{DEFAULTSORT:Roentgen, Gerhard Moritz 1795 births 1852 deaths Royal Netherlands Navy officers