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Saturday, February 10, 2018

Open hearth furnaces at the Taganrog iron and steel works Stock ...
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Open hearth furnaces are one of a number of kinds of furnace where excess carbon and other impurities are burnt out of pig iron to produce steel. Since steel is difficult to manufacture due to its high melting point, normal fuels and furnaces were insufficient and the open hearth furnace was developed to overcome this difficulty. Compared to Bessemer steel, which it displaced, its main advantages were that it did not expose the steel to excessive nitrogen (which would cause the steel to become brittle), was easier to control, and it permitted the melting and refining of large amounts of scrap iron and steel.

Open hearth furnace was first developed by German-born engineer Carl Wilhelm Siemens. In 1865, the French engineer Pierre-Émile Martin took out a license from Siemens and first applied his regenerative furnace for making steel. Their process was known as the Siemens-Martin process, and the furnace as an "open-hearth" furnace. Most open hearth furnaces were closed by the early 1990s, not least because of their slow operation, being replaced by the basic oxygen furnace or electric arc furnace.

While arguably the first primitive open hearth furnace was the Catalan forge, invented in Spain in the 8th century, it is usual to confine the term to certain 19th-century and later steelmaking processes, thus excluding bloomeries (including the Catalan forge), finery forges, and puddling furnaces from its application.


Video Open hearth furnace



Open hearth process

The open hearth process is a batch process and a batch is called a "heat". The furnace is first inspected for possible damage. Once it is ready or repaired, it is charged with light scrap, such as sheet metal, shredded vehicles or waste metal. The furnace is heated using burning gas. Once it has melted, heavy scrap, such as building, construction or steel milling scrap is added, together with pig iron from blast furnaces. Once all the steel has melted, slag forming agents, such as limestone, are added. The oxygen in iron oxide and other impurities decarburize the pig iron by burning excess carbon away, forming steel. To increase the oxygen contents of the heat, iron ore can be added to the heat.


The process is far slower than that of Bessemer converter and thus easier to control and sample for quality assessment. Preparing a heat usually takes 8 h to 8 h 30 min to complete into steel. As the process is slow, it is not necessary to burn all the carbon away as in Bessemer process, but the process can be terminated at any given point when desired carbon contents has been achieved.

The furnace is tapped the same way a blast furnace is tapped; a hole is drilled on the side of the hearth and the raw steel flows out. Once all the steel has been tapped, the slag is skimmed away. The raw steel may be cast into ingots; this process is called teeming, or it may be used on continuous casting for the rolling mill.

The regenerators are the distinctive feature of the furnace and consist of fire-brick flues filled with bricks set on edge and arranged in such a way as to have a great number of small passages between them. The bricks absorb most of the heat from the outgoing waste gases and return it later to the incoming cold gases for combustion.


Maps Open hearth furnace



History

Sir Carl Wilhelm Siemens developed the Siemens regenerative furnace in the 1850s, and claimed in 1857 to be recovering enough heat to save 70-80% of the fuel. This furnace operates at a high temperature by using regenerative preheating of fuel and air for combustion. In regenerative preheating, the exhaust gases from the furnace are pumped into a chamber containing bricks, where heat is transferred from the gases to the bricks. The flow of the furnace is then reversed so that fuel and air pass through the chamber and are heated by the bricks. Through this method, an open-hearth furnace can reach temperatures high enough to melt steel, but Siemens did not initially use it for that.

In 1865, the French engineer Pierre-Émile Martin took out a license from Siemens and first applied his regenerative furnace for making steel. The most appealing characteristic of the Siemens regenerative furnace is the rapid production of large quantities of basic steel, used for example to construct high-rise buildings. The usual size of furnaces is 50 to 100 tons, but for some special processes they may have a capacity of 250 or even 500 tons.

The Siemens-Martin process complemented rather than replaced the Bessemer process. It is slower and thus easier to control. It also permits the melting and refining of large amounts of scrap steel, further lowering steel production costs and recycling an otherwise troublesome waste material. Its worst drawback is the fact that melting and refining a charge takes several hours. This was an advantage in the early 20th century, as it gave plant chemists time to analyze the steel and decide how much longer to refine it. But by about 1975, electronic instruments such as atomic absorption spectrophotometers had made analysis of the steel much easier and faster. The work environment around an open hearth furnace is said to be extremely dangerous, although that may be even more true of the environment around a basic oxygen or electric arc furnace.

Basic oxygen steelmaking eventually replaced the open hearth furnace. It rapidly superseded both the Bessemer process and Siemens-Martin process in Western Europe by the 1950s and in Eastern Europe by the 1980s. The open hearth steelmaking had superseded Bessemer process in UK by 1900, but elsewhere in Europe, especially in Germany, the Bessemer and Thomas processes were used until the late 1960s when they were superseded by basic oxygen steelmaking. The last open hearth furnace in the former East Germany was stopped in 1993. In the US, steel production using the Bessemer process ended in 1968 and the open hearth furnaces had stopped by 1992. In Hunedoara steel works, Romania the last 420-tonne capacity open hearth furnace was shut down on 12 June 1999, demolished and scrapped between 2001 and 2003, but the eight smokestacks of the furnaces remained until February 2011. The last open hearth shop in China was shut down in 2001. The nation with the highest share of steel produced with open hearth furnaces (almost 50%) is Ukraine. The process is still in use in both India and Russia.


Open-hearth furnace stock photo. Image of metallurgy - 15053662
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See also

  • Bessemer process
  • Cementation (metallurgy) process
  • Methods of crucible steel production
  • AJAX furnace, oxygen based open hearth process

Open hearth furnaces at the Taganrog iron and steel works Stock ...
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References


Very Rare View Of Working Open Hearth Furnace Stock Image - Image ...
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Further reading

  • Barraclough, K. (1990), Steelmaking 1850-1900, Institute of Metals, London, pp. 137-203 
  • Gale, W. K. V. (1969), Iron and Steel, Longmans, London, pp. 74-77 
  • Siemens, C. W. (June 1862). "On a regenerative gas furnace, as applied to glasshouses, puddling, heating, etc". Proceedings of the Institution of Mechanical Engineers 1847-1982. Institution of Mechanical Engineers. 13: 21-26. doi:10.1243/PIME_PROC_1862_013_007_02. 

Open Hearth Furnace Stock Photos & Open Hearth Furnace Stock ...
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External links

  • Precursors to the Blast Furnace
  • "Administering Doses of Liquid Iron to Steel Furnaces", Popular Science, February 1919, page 64, scanned by Google Books.

Source of the article : Wikipedia

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