Английская Википедия:Anthracite iron
Шаблон:Short description Anthracite iron or anthracite pig iron is iron extracted by the smelting together of anthracite coal and iron ore, that is using anthracite coal instead of charcoal in iron smelting. This was an important technical advance in the late-1830s, enabling a great acceleration of the Industrial Revolution in the United States and in Europe.[1]
History
Unlike many seminal advances, the contributors, place and date of this epoch are well recorded within specific moments in the late 1830s. The first repeatable and reliably successful furnaces and smelts were managed by the same person in both the United Kingdom and the United States, in the principal control and supervision of ironmaster David Thomas, who began experimenting with attempts to use locally available Welsh anthracite deposits as early as 1820 soon after he became in charge at Yniscedewin Iron Works in Wales.
Around this 1837-38 timeframe, experiments were also being made in Pennsylvania near Port Carbon[2] and in present-day Jim Thorpe but with overall better success than in Wales. Lehigh Coal & Navigation Company (LC&N) and their two founders, Josiah White and Erskine Hazard, began systematic experiments to smelt using anthracite in two furnaces in Jim Thorpe in 1832–1837 with intermittent but sporadically improved successes using cold blast processes with two differently designed furnaces.
After experimenting for nearly a decade in two cold blast furnaces built in present-day Jim Thorpe, Pennsylvania, LC&N Co.'s White and Hazard went recruiting in Wales after news reached them Anthracite pig iron was regularly and reliably being produced in George Crane's Yniscedwyn Iron Works, by David Thomas. Catasauqua Creek, about six miles below the Lehigh Gap and Шаблон:Convert from the company offices in Mauch Chunk, now known as Jim Thorpe, was chosen for a new joint venture by LC&N and David Thomas, the Lehigh Crane Iron Works. After building infrastructure, including a firebrick works, a second blast furnace was under construction when on July 4, 1840, the first hot blast furnace in North America produced Anthracite pig iron, a necessary precursor to producing wrought iron and cast iron.
The first American smelt of anthracite pig iron was performed July 4, 1840 by principal-partners David Thomas, Josiah White and Erskine Hazard at their Lehigh Crane Iron Works in their first hot blast furnace along Catasauqua Creek aided by Samuel Thomas and the employees of the LCIW, in what became Catasauqua, Pennsylvania in the Lehigh Valley region of eastern Pennsylvania. The technology enabled industries the chance to produce cast iron sufficient to demand and eventually adapt production to also feed the demand to generate wrought iron and steel. These useful materials are achieved by adding additional processing—by taking pig iron as an ingredient into a reverberatory furnace (and in later years, a Bessemer converter).
Anthracite, also known as stone coal or rock coal, is very difficult to ignite,[3] mine, clean, and break into smaller chunks and requires correct conditions to build heat or hold temperature and sustain burning—which oft depend upon the size and uniformity of the coal particles. Yet American cities were cramped for fuels, woodlands were exhausted near bigger towns and Philadelphia, largest city in America needed fuels for mills and foundries as well to sustain manufacturing. Inventor and industrialist Josiah White (owner of a wire mill, foundry and nail factory), had determined how to burn anthracite in iron working processing furnaces during the War of 1812,[4] but its use in smelting operations was hit or miss, dependent upon the material packing geometries of any particular charging load in a cold blast furnace.[5] The earlier development of coking of bituminous coal, as well anthracite coke enabled the smelting of iron using local coal sources with cold blast air in blast furnaces after the latter 1830s allowed the production of the vast quantities of iron that built the fundamental infrastructure of the early North American Industrial Revolution—which was built on iron products and only some steel. At the time, iron was used minimally with respect to wood. Even most railroad tracks were laid with wooden rails, sometimes covered by iron strapping. As more iron became available, more uses were found for iron, creating a cycle of increasing demand, experimentation and improvements—part of the revolution in industrial revolution.
Development of the process
During the United States' first energy crisis stands of forest near larger towns and America's Eastern Seaboard cities became farther and farther from population and factory centers, raising the price of fuel for heating and smithies, especially clean burning charcoal—long the fuel of preference for smelting and glass making, creating a decades long search for alternative fuels. By mid-1792 prominent Philadelphians had formed the Lehigh Coal Mine Company (LHCM Co.) to bring anthracite to cities reachable via the Delaware River Valley, especially Philadelphia, the nation's largest and most industrialized city at the time, though no one fully understood how to use anthracite as a sole fuel—just that it 'could' burn 'some' of the time with a hot enough base fire, so could augment furnace fuels.
The LHCM Co. had great difficulty getting many ark-loads of coal to the docks in Philadelphia, much less having capabilities to make reliable deliveries of the fuel to industries risking its use, for the Шаблон:Convert trip from Lausanne along the Lehigh River's variable water height and many rocks and rapids then surviving the over Шаблон:Convert on the equally untamed Delaware River. In the midst of the War of 1812 iron industry magnate Josiah White set his foremen to systematically conducting experiments as how stone coal could be made to burn reliably. It was recognized as some use aiding other fuels, and pack animal loads occasionally reached the city, which had mills and foundries desperately needing to circumvent the British Naval Blockade, so Bituminous Coal coastal shipments up from Virginia might resume. These experiments established a bottom draught, and closed doors were the key.
Before the war, Baltimore, Boston, Newark, New Haven, New York City, and Philadelphia industrialists were importing bituminous via shipload from Virginia and Great Britain, and these supplies became difficult to obtain or blocked politically by the war and its preceding embargoes on British goods. After the war, the sanctions continued until various boundary disputes were resolved as far away as The Oregon Country and the Columbia River basin.
Historical backdrop
Between 1814 and 1818, industries along the Eastern seaboard were still thirsting for energy relief when inquiries to the LHCM Co. by Hazard and White indicated the operation and rights of the company were available.Шаблон:Sfn Frustrated by the sluggish progress of improvements that would become the Schuylkill Canal, White and Hazard applied to the Pennsylvania legislature for the rights to improve and operate navigations upon the rapids-strewn Lehigh River initiating the process that lead to the Lehigh Canal, which was the beginning of regular high volume and reliable coal deliveries in late 1820. The flood of anthracite proved influential in the industrialization of the next century.
Iron from Anthracite smelting
Research into the smelting of iron using anthracite coal (without coking it first) began in the 1820s in Wales by Thomas,[1] experiments in France, most notably by Gueymard and Robin at Vizille in 1827,[6] and in the 1830s in Pottsville[6] and Jim Thorpe, Pennsylvania.[4] Early attempts tried to gradually substitute anthracite for other fuels, such as coke or charcoal, but all failed due to the use of cold blast techniques, which generated insufficient heat to keep the anthracite in regenerative combustion.[6] In the same time-frame, Thomas had also continued experimenting with mixes of Anthracite and other fuels, before he combined those experiments and the new hot blast processing.
In the United States, where the Lehigh Coal & Navigation Company (LC&N) had begun shipping anthracite to Philadelphia in 1820 because the principles could not obtain sufficient fuels for their iron works at the 'Falls of the Schuylkill' —so had built the Lehigh Canal and taken over the works of the haphazard Lehigh Coal Mine Company—by the late 1820s having established works that were running smoothly, after building America's second operating railroad in 1827, they'd great interest in exploiting the great anthracite deposits of Schuylkill County for ironmaking, which mills foundries were their principle businesses.
The Franklin Institute, in 1830, offered a gold medal to the manufacturer of the greatest quantity of anthracite iron, and Nicholas Biddle and his associates offered a prize of $5,000 to the first individual to smelt a certain quantity of iron ore within a given time, using anthracite. The Lehigh Coal & Navigation, by then an industrial giant of the times, also offered free water power and discount rates on coal and shipping to encourage the development of the process.[7]
The first key breakthrough occurred in 1828–29,[1] when Scotsman James Beaumont Neilson patented the hot blast technique & process, which he had conceived in an attempt to improve the efficiency of conventionally fueled furnaces.[8] The first person to employ the hot blast technique to anthracite smelting was Dr. Frederick W. Gesenhainer, who filed for a patent on the process in 1831 and received it in 1833. In 1836, he tried smelting anthracite iron on a practical scale at his property, Valley Furnace, near Pottsville, Pennsylvania, while in the same year White & Hazard's LC&N Co. built two experimental blast furnaces in Jim Thorpe, Pennsylvania. He produced a small quantity of iron, but due to mechanical breakdowns, could not keep the furnace in operation for more than two months.[9] While distinguished visitors, including Governor Joseph Ritner, acknowledged his success, he sold out his share in Valley Furnace and went to New York City.[10]
The research was proceeding along parallel lines across the Atlantic. George Crane, owner, and David Thomas, superintendent of the Yniscedwyn Iron Works, had themselvesШаблон:Efn conceived of the idea of using hot blast to smelt anthracite. Thomas was sent to Scotland to examine Neilson's installation and reproduced it at Yniscedwyn. Crane filed for a British patent on smelting iron with anthracite and hot blast in 1836 and received it in 1837. By the time the patent was sealed, Yniscedwyn was producing about 35 tons of iron using anthracite only as a fuel.[11]
Inspired both by Geisenhainer and Crane (whose success was closely followed by the LC&N), experiments in the US continued. Baughman, Guiteau and Company used an old furnace near Jim Thorpe, Pennsylvania, to produce some anthracite iron during late 1837. They built another experimental furnace nearby, which was worked for about two months during fall and winter 1838 and for some time in 1839,[12][13] but mechanical deficiencies led them to abandon the furnace at the end of 1839.[14] In the meantime, Pioneer Furnace, in Pottsville, was blown in using anthracite fuel in 1839.[15] It was built by William Lyman obtained the aid of a Welsh emigrant, Benjamin Perry, who was familiar with Neilson's process and the Yniscedwyn works, for the blowing-in. The furnace ran for three months on anthracite alone and fulfilled the conditions to win the $5,000 prize.[16][17] In the design of Pioneer Furnace, Lyman had also been assisted by David Thomas, who had arrived in the United States in May 1839. Thomas was engaged by the LC&N to set up the Lehigh Crane Iron Company and its first furnace at Catasauqua, which went into blast in 1840, along with five other anthracite furnaces. This marked the commercial establishment of anthracite iron production in the United States.[18][19]
Decline
The opening of bituminous coal deposits suitable for coking in the western part of the Allegheny Plateau resulted in the gradual displacement of anthracite as a fuel. The production of coke-fired furnaces overtook that of anthracite-fired furnaces in 1875,[20] and the last anthracite furnaces in the US, the former Lock Ridge Iron Company, converted to coke in 1914.[21]
Explanatory notes
Citations
Sources
General references
Шаблон:Iron and steel production Шаблон:Authority control
- ↑ 1,0 1,1 1,2 Thomas, Samuel, Шаблон:Plain linkШаблон:Void
- ↑ Шаблон:Cite book
- ↑ Шаблон:Cite book
- ↑ 4,0 4,1 Bartholomew, Metz, & Kneis, pp.4-6
- ↑ Шаблон:Cite web
- ↑ 6,0 6,1 6,2 Bartholomew & Metz, pp. 14–15
- ↑ Korson, p. 104
- ↑ Bartholomew & Metz, p. 16
- ↑ Bartholomew & Metz, p. 17
- ↑ Korson, p. 106
- ↑ Bartholomew & Metz, pp. 17–18
- ↑ Bartholomew & Metz, p. 19
- ↑ Gordon, pp. 155–156
- ↑ Korson, p. 107
- ↑ Gordon, p. 156
- ↑ Gordon p. 156
- ↑ Bartholomew & Metz, pp. 31–32
- ↑ Bartholomew & Metz, pp. 32–33
- ↑ Gordon, pp. 156–157
- ↑ Gordon, p. 158
- ↑ Bartholomew & Metz, p. 79