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John Ericsson

 
Britannica Concise Encyclopedia: John Ericsson
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(born July 31, 1803, Långbanshyttan, Swed. — died March 8, 1889, New York, N.Y., U.S.) Swedish-U.S. naval engineer and inventor. He moved to England in 1826, where he constructed a steam locomotive (1829) and later devised a caloric engine and patented a screw propeller. He immigrated to the U.S in 1839. During the Civil War he proposed, designed, and built a novel warship, the Monitor. Its battle with the Confederacy's Merrimack led the government to place an order for many more such vessels. Wholly steam-powered and with a screw propeller and an armoured revolving turret, it set a new pattern for U.S. warships that continued until the 20th century. He later developed a torpedo and investigated solar-powered motors.

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US Military History Companion: John Ericsson
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(1803–1889), engineer and inventor

Born in Sweden, Ericsson left for England in 1826 seeking sponsorship for his ideas. In 1829, his locomotive Novelty, with a forced‐draft boiler, reached a speed of 50 miles an hour. And in 1837, his Francis B. Ogden successfully tested a new marine propeller. Another Novelty (1839) was the first propeller‐driven commercial vessel. Yet Ericsson failed to interest the British Admiralty.

In 1841, Capt. Robert F. Stockton, USN, had him work for the navy designing the USS Princeton, the first screw‐propelled naval steamer. All of its propulsion machinery was below the waterline, safe from enemy shot. Ericsson developed a stronger gun barrel using wrought iron. The Princeton's main battery consisted of two 12‐inch wrought‐iron smoothbore guns, Ericsson's “Oregon” and Stockton's similar but weaker “Peacemaker.” In 1844, during a dignitary cruise, the Peacemaker exploded, killing Secretary of State Abel P. Upshur, Secretary of the Navy Thomas Gilmer, and several others.

At London's Great Exhibition in 1851, seven of his inventions on display earned him a prize medal.

Ericsson's ironclad Monitor, with the first revolving iron turret on a naval ship, sparked a naval ordnance revolution. It fought the CSS Virginia (the former USS Merrimack) to a draw on 9 March 1862 at the Battle of Hampton Roads and brought its inventor fame. Yet the earlier Princeton disaster was a factor in not using powder charges heavy enough to disable the Virginia.

In 1878, Ericsson's Destroyer, designed to fire underwater torpedoes from a 16‐inch gun mounted in its bow, failed the navy's acceptance. He invented a successful shipboard depthfinder and surface condensers for marine engines, as well as pioneering solar energy. His marine steam and screw propulsion system brought the age of sail to a close.

Bibliography

  • Ruth Morris White, Yankee from Sweden, 1960
US Military Dictionary: John Ericsson
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Ericsson, John (1803-89) inventor and engineer, born in Wermland, Sweden. Ericsson introduced the use of the screw propeller as a means of marine propulsion. Ericsson designed vessels for the U.S. Navy, among them the armored USS Monitor (launched 1862), which revolutionized naval warfare. He also anticipated the submarine and torpedo ordnance.

See the Introduction, Abbreviations and Pronunciation for further details.

Biography: John Ericsson
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John Ericsson (1803-1889), Swedish-born American engineer and inventor, perfected the screw propeller and constructed radically designed warships, notably the ironclad "Monitor."

John Ericsson was born in Långbanshyttan, Värmland Province, on July 31, 1803. He began as an iron miner but showed an aptitude for machinery construction, drafting, and engraving. After work as a surveyor on the Göta Ship Canal, he became an army topographic officer in 1820.

In 1826 Ericsson went to London, where he worked mainly on engines and on locomotives and screw propulsion for boats, receiving 14 patents. English railroad builders kept him profitably at work.

To devise a means of using heat more efficiently than did steam engines, Ericsson applied flame directly in a "caloric" engine. His most lucrative invention was a steam fire engine. To improve marine engines and keep propulsion apparatus underwater, he designed a screw propeller (patented 1836) which was more efficient than a paddle wheel, ensured better engine performance, and made larger ships possible. In 1836 the speed of his model vessel exceeded 10 miles per hour. His screw propelled ships were used on English rivers, and some were taken to America; yet the British navy rejected his designs. In 1839 he migrated to America to build naval vessels.

Ericsson won a prize in 1840 for the best-designed steam fire engine. He adapted twin screw propellers to a vessel, and by 1844 there were 25 such boats on American waters. In 1844 he completed the 1,000-ton iron frigate U.S.S. Princeton, the first screw-propelled warship and the first with engines and boilers underwater, out of firing range. A coal burner with a self-adjusting gunlock to compensate for roll, it was pronounced a shipbuilding marvel. But on a trial run the 12-inch wrought-iron gun (not designed by Ericsson) exploded and killed the secretaries of state and Navy and four others. This tragedy stigmatized Ericsson and delayed the building of American steam naval ships.

At the London Crystal Palace Exposition of 1851 Ericsson entered a pyrometer that measured very high temperatures, a model gas engine, an engine barometer with an alarm, a sounding instrument, a distance measurer, and a compass.

Another blow to Ericsson's career occurred in 1854, when the Ericsson, equipped with caloric engines, capsized in a storm. Though the engines were too heavy for ship propulsion, they were economical and thousands were used to pump water for homes.

Ericsson regained prestige with the Monitor. Napoleon III had rejected his model ironclad warship in 1854. A U.S. Navy board reluctantly granted him a contract to construct the craft for Union use in the Civil War: the Monitor was launched in January 1862. It arrived at Hampton Roads (Norfolk) on March 9 in time to drive off the Confederate ironclad, the Merrimac. This first, historic battle between steam-driven ironclads was a turning point in naval technology. For the rest of the war Ericsson designed and built ironclads.

After the war Ericsson built monitors for other nations and gunboats for Spain. By 1878 his torpedo boat, the Destroyer, was ready. It could outrun ironclads, could partially submerge, and fired a dynamite torpedo projectile underwater. During Ericsson's lifetime the U.S. Navy displayed no interest in it.

Ericsson later worked with solar energy, gravitation and tides, high-speed engines for electric lighting, a marine surface condenser, and forced-draft ventilating fans. His solar engine was never commercialized.

Ericsson died in New York City on March 8, 1889. His remains were reinterred at Filipstad, Sweden.

Further Reading

A favorable biography of Ericsson is Ruth M. White, Yankee from Sweden: The Dream and the Reality in the Days of John Ericsson (1960). George Iles, Leading American Inventors (1912), includes a short account of Ericsson. For a detailed, illustrated account of the evolution of ironclad warships and screw propellers see James Phinney Baxter III, The Introduction of the Ironclad Warship (1933). Ericsson's ironclads are depicted in most illustrated histories of the Civil War.

 
Columbia Encyclopedia: John Ericsson
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Ericsson, John (ĕr'ĭksən), 1803-89, Swedish-American inventor and marine engineer, b. Värmlands co., Sweden. He moved to London in 1826, and entered the railroad locomotive Novelty in a contest in 1829, only to be defeated by George Stephenson's Rocket. Ericsson's outstanding role in the development of the screw propeller (he patented one in 1836) for ships was responsible for his coming to America in 1839 to build for the U.S. navy. The U.S.S. Princeton, completed by him in 1844, was the first warship with a screw propeller. Unfortunately, one of the ship's guns, which he did not build, exploded and killed several dignitaries, and he was blamed unjustly for the disaster.

Ericsson is chiefly remembered as the designer and builder of the Monitor, a radical departure from previous types; and its fortuitous conflict with the Virginia during the Civil War, less than five months after its keel was laid, caught the imagination of the people and made Ericsson a hero (see Monitor and Merrimack. With his associates he was busy the remainder of the war designing and building other ironclad vessels, and after the war he built monitors for other governments until the type was abandoned. He also constructed gunboats for Spain, and worked on a "destroyer" with successful devices for releasing torpedoes underwater, but he could not interest the U.S. government in it.

Ericsson made many other contributions to engineering, notably in ordnance, in marine engines, and in caloric or heat engines. In his late years he did experimental work in solar physics.

Bibliography

See biography by R. White (1960).

Actor: John Ericson
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  • Born: Sep 25, 1926 in Dusseldorf, Germany
  • Occupation: Actor
  • Active: '50s-'70s
  • Major Genres: Western, Action
  • Career Highlights: Seven Faces of Dr. Lao, Rhapsody, Bedknobs and Broomsticks
  • First Major Screen Credit: Teresa (1951)

Biography

German-born John Ericson trained for an acting career at New York's American Academy of the Dramatic Arts. Ericson possessed a brash, bristly personality and handsome, sensitive features. He appeared in a series of popular films including the outlaw drama Pretty Boy Floyd (1960) and the

lyrical romances Teresa (1952) and Rhapsody (1953). In 1965, Ericson co-starred with Anne Francis on the TV private eye series Honey West. ~ Hal Erickson, All Movie Guide
Wikipedia: John Ericsson
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This article is about the Swedish-American inventor and engineer. For John Ericson the actor, see John Ericson (Actor). For the U.S. Navy oiler, see USNS John Ericsson (T-AO-194).
For other persons of the same name, see John Erickson.
John Ericsson
Born July 31, 1803(1803-07-31)
Långbanshyttan, Värmland
Died March 8, 1889 (aged 85)
New York
Occupation engineer, innovator

John Ericsson (July 31, 1803March 8, 1889) was an American Swedish-born inventor and mechanical engineer, as was his brother, Nils Ericson. He was born at Långbanshyttan in Värmland, Sweden, but primarily came to be active in the United States.

Contents

Early career

John's and Nils's father Olof Ericsson who worked as the supervisor for a mine in Värmland had lost money in speculations and had to move his family from Värmland to Forsvik in 1810. There he worked as a 'director of blastings' during the excavation of the Swedish Göta Canal. The extraordinary skills of the two brothers were discovered by Baltzar von Platen, the architect of the Göta Canal. The two brothers were dubbed cadets of mechanics of the Swedish Royal Navy and engaged as trainees at the canal enterprise. At the age of fourteen, John was already working independently as a surveyor. His assistant had to carry a footstool for him to reach the instruments during surveying work.

At the age of seventeen he joined the Swedish army in Jämtland, serving in the Jämtland Field Ranger Regiment, as a Second Lieutenant, but was soon promoted to Lieutenant. He was sent to northern Sweden to do surveying, and in his spare time he constructed a heat engine which used the fumes from the fire instead of steam as a propellant. His skill and interest in mechanics made him resign from the army and move to England in 1826. However, his heat engine was not a success, as his prototype was designed to use birch wood as fuel, and would not work well with coal, which was the main fuel used in England.

Novelty

Notwithstanding the disappointment, he invented several other mechanisms instead based on steam, improving the heating process by adding fans to increase oxygen supply to the fire bed. In 1829 the steam engine he built with John Braithwaite, "Novelty", joined the Rainhill Trials, a competition arranged by the Liverpool and Manchester Railway. Although it was the fastest in the competition, it suffered recurring boiler problems and the competition was won by the English engineer George and his son Robert Stephenson with Rocket.

By helping to quell the celebrated Astor House fire, Ericsson's steam fire engine proved an outstanding technical success, but met with resistance from London's established 'Fire Laddies' and municipal authorities. An engine Ericsson constructed for Sir John Franklin's use failed under the Antarctic conditions for which, out of Franklin's desire to conceal his destination, it had not been designed. At this stage of Ercisson's career the most successful and enduring of his inventions was the steam condenser, which allowed a steamer to produce fresh water for its boilers while at sea. His 'deep sea lead,' a pressure-activated fathometer was another minor, but enduring success.

The commercial failure and development costs of some of the machines devised and built by Ericsson during this period put him into debtors' prison for an interval and at this time he also married 19-year-old Amelia Byam, a marriage that was nothing but a huge disaster and ended in the couple's separation until Amelia's death.

Propeller design

Engraving of Ericsson

He then improved the ship design with two screw-propellers moving in different directions (as opposed to earlier tests with this technology, which used a single screw). However, the Admiralty disapproved of the invention, which led to the fortunate contact with the encouraging American captain Robert Stockton who had Ericsson design a propeller steamer for him and told him to bring his invention to the United States of America, as it would supposedly be more welcomed in that place. As a result, Ericsson moved to New York in 1839. Stockton's plan was for Ericsson to oversee the development of a new class of frigate with Stockton using his considerable political connections to grease the wheels. Finally, after the succession to the Presidency by John Tyler, funds were allocated for a new design. Unfortunately they only received funding for a 700-ton sloop instead of a frigate. The sloop eventually became the USS Princeton, named after Stockton's hometown.

The ship took about three years to complete and was perhaps the most advanced warship of its time. In addition to twin screw propellers, it was originally designed to mount a 12-inch muzzle loading gun on a revolving pedestal. The gun had also been designed by Ericsson and used the hoop construction method to pre-tension the breech, adding to its strength and safely allowing the use of a larger charge. Other innovations on the ship design included a collapsible funnel and an improved recoil system.

The relations between Ericsson and Stockton had grown tense over time and, nearing the completion of the ship, Stockton began working to force Ericsson out of the project. Stockton carefully avoided letting outsiders know that Ericsson was the primary inventor. Stockton attempted to claim as much credit for himself as possible, even designing a second 12-inch gun to be mounted on the Princeton. Unfortunately, not understanding the design of the first gun (originally name "The Orator", renamed by Stockton to "The Oregon"), the second gun was fatally flawed.

When the ship was initially launched it was a tremendous success. On October 20, 1843 Princeton won a speed competition against the paddle-steamer SS Great Western, which had until then been regarded as the fastest steamer afloat. Unfortunately, during a demonstration firing of Stockton's gun the breech broke, killing the US Secretary of State Abel P. Upshur and the Secretary of the Navy Thomas Gilmer, as well as six others. Stockton attempted to deflect blame onto Ericsson with moderate success despite the fact that Ericsson's gun was sound and it was Stockton's gun that had failed. Stockton also refused to pay Ericsson and, using his political connections, Stockton managed to block the Navy from paying him. These actions led to Ericsson's deep resentment toward the US Navy.

Friendship with Cornelius H. DeLamater

When Ericsson arrived from England and settled in New York, he was persuaded by Samuel Risley of Greenwich Village to give his work to the Phoenix Foundry. There he met Cornelius H. DeLamater and soon a mutual attachment developed between the two, and rarely thereafter did Ericsson or DeLamater enter upon a business venture without first consulting the other."[1] Personally, their friendship never faltered, though strained by the pressures of business and Ericsson's quick temper, DeLamater called Ericsson "John" and Ericsson called DeLamater by his middle nick-name "Harry", intimacies almost unknown in Ericsson's other relationships.[2] In time, the DeLamater Iron Works became known as the Asylum where Capt Ericsson had free rein to experiment and attempt new feats. The Iron Witch was next constructed, the first iron steamboat.[3] The first hot-air invention of Capt Ericsson was first introduced in the ship Ericsson, built entirely by DeLamater. The DeLamater Iron Works also launched the first submarine boat, first self propelled torpedo, and first torpedo boat.[4] When DeLamater died on February 2, 1889, Ericsson could not be consoled. His death exactly one month to the day later was not surprising to his friends and acquaintances."[5]

Hot air engine

Ericsson then proceeded to invent independently the caloric, or hot air engine in the 1820s which used hot air, caloric in the scientific parlance of the day, instead of steam as a propellant. A similar device had been patented in 1816 by the Reverend Robert Stirling, whose technical priority of invention provides the usual term 'Stirling Engine' for the device. Ericsson's engine was not initially successful due to the differences in combustion temperatures between Swedish wood and British coal. In spite of his setbacks, Ericsson was awarded the Rumford Prize of the American Academy of Arts and Sciences in 1862 for his invention. In his later years, the caloric engine would render Ericsson comfortably wealthy, as its boilerless design made it a much safer and more practical means of power for small industry than steam engines. Ericsson's incorporation of a 'regenerator' heat sink for his engine made it tremendously fuel-efficient.

Ship design

On September 26, 1854 Ericsson presented Napoleon III of France with drawings of iron-clad armored battle ships with a dome-shaped gun tower, and even though the French emperor praised this invention, he did nothing to bring it to practical application.

USS Monitor

The Ericsson Mausoleum in Filipstad

Shortly after the American Civil War broke out in 1861, the Confederacy quickly began developing an ironclad based on the hull of the USS Merrimack which had been burned by Federal troops before the naval base at Norfolk - Gosport Navy Yard - had been captured by the recently seceded Commonwealth of Virginia. The United States Congress addressed this issue in August 1861 and recommend that armored ships be built for the Union Navy. Ericsson still had a dislike of the U.S. Navy but he was convinced by Cornelius Scranton Bushnell to work on an ironclad for them. Ericsson presented drawings of the USS Monitor, a totally unique and novel design of armoured ship, which after much controversy was eventually built and finished on March 6, 1862. The ship went from plans to launch in approximately 100 days, an amazing achievement.

On March 8, the Southern ironclad CSS Virginia was wreaking havoc on the Union Blockading Squadron in Virginia. Then, with the appearance of the Monitor, a battle on March 9, 1862 at Hampton Roads, Virginia, ended in a stalemate between the two iron warships, and saved the Northern fleet from defeat. After this, numerous monitors were built, and are believed to have considerably influenced the victory of the Northern states. Although primitive by modern standards, many basic design elements of the Monitor were copied in future warships by other designers.

Later, Ericsson worked with torpedo inventions, in particular "The Destroyer", a torpedo boat that could fire a cannon from an underwater port. He also provided some technical support for John Philip Holland in his early submarine experiments. In the book Contributions to the Centennial Exhibition (1877, reprinted 1976) he presented his "sun engines", which collected solar heat for a hot air engine. One of these designs earned Ericsson additional sums after being converted to work as a methane gas engine.

Although none of his inventions created any large industries, he is regarded as one of the most influential mechanical engineers ever. After his death in 1889 his remains were brought from the United States to Stockholm by USS Baltimore; his final resting place is at Filipstad, in Värmland.

Inventions

Fellowships

Monuments and memorials

John Ericsson in Battery Park, NYC
Statue of John Ericsson in Gothenburg, Sweden

Monuments in honor of John Ericsson have been erected at:

For ships named in his honor, see:

References

  1. ^ Legislative Document by New York State Legislature, vol 37, no. 117-118. J.B. Lyon Co. 1920. pp. 202-213. http://books.google.com/books?id=ig5LAAAAMAAJ&printsec=titlepage#PPA202,M1. 
  2. ^ Nelson, James L. (2005). Reign of Iron: The Story of the First Battling Ironclads. Harper Collins. ISBN 0060524049, 9780060524043. http://books.google.com/books?id=d8XD-j--EVsC&pg=PA149&lpg=PA149&dq=Delamater+Iron+works+monitor&source=bl&ots=wb-P4Hew0q&sig=QH7EKP0z-BCtWFqpPHrrQlQNNkw&hl=en&sa=X&oi=book_result&resnum=5&ct=result. 
  3. ^ "6". Old Steamboat Days on the Hudson River. The Grafton Press. 1907. http://www.hrmm.org/diglib/oldsteam/chapter6.html. 
  4. ^ "Honors for Capt Ericsson". The New York Times. December 11, 1921. http://query.nytimes.com/mem/archive-free/pdf?res=9505E3D71431EF33A25752C1A9649D946095D6CF. 
  5. ^ Carr, Edward A.T.; Michael W. Carr, Kari Ann Carr (1994). Faded Laurels, The History of Eaton's Neck and Asharoken. Heart of the Lakes Publishing. ISBN 1557871191, 9781557871190. http://books.google.com/books?id=OP4MAQAACAAJ&dq=faded+laurels. 

Trivia

Ambox style.png
 Lists of miscellaneous information should be avoided. Please relocate any relevant information into appropriate sections or articles. (June 2008)
  • In Harry Harrison's Stars and Stripes trilogy, the Monitor is just the beginning of Ericsson's contributions to the US war effort. New ocean-going ironclads are built by the inventor, superior to their British counterparts. He also creates an armored self-propelled gun platform using his own internal combustion engine as well as a heavily-armored mortar carrier ship, capable of leveling any fortification in under an hour. All these inventions allow General Sherman to implement his new lightning warfare strategy.

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Britannica Concise Encyclopedia. Britannica Concise Encyclopedia. © 2006 Encyclopædia Britannica, Inc. All rights reserved.  Read more
US Military History Companion. The Oxford Companion to American Military History. Copyright © 2000 by Oxford University Press, Inc. All rights reserved.  Read more
US Military Dictionary. The Oxford Essential Dictionary of the U.S. Military. Copyright © 2001, 2002 by Oxford University Press, Inc. All rights reserved.  Read more
Biography. © 2006 through a partnership of Answers Corporation. All rights reserved.  Read more
Columbia Encyclopedia. The Columbia Electronic Encyclopedia, Sixth Edition Copyright © 2003, Columbia University Press. Licensed from Columbia University Press. All rights reserved. www.cc.columbia.edu/cu/cup/ Read more
Actor. Copyright © 2009 All Media Guide, LLC. All rights reserved.  Read more
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