Albright and Wilson was founded in 1856 as a United Kingdom manufacturer of potassium chlorate and white phosphorus for the match industry. For much of its first 100 years of existence, phosphorus-derived chemicals formed the majority of its products.
It was set up as a partnership between two Quakers, Arthur Albright, and John Edward Wilson. [1] [2] It became a private limited company, Albright & Wilson Ltd, in 1892; and it remained a double family-owned firm, for nearly 100 years, until 5 March 1948, when it became a public company. [3]
Albright and Wilson expanded considerably into silicones, detergents, food additives, metal finishing chemicals, strontium based chemicals and chromium based chemicals. It was the second largest chemical manufacturer in the United Kingdom; although it was always very much smaller than ICI. [4]
In 1971 Tenneco bought a part of Albright and Wilson's share holdings; and in 1978 obtained full ownership. [5] In the short term, the company retained its own identity; however many of its subsidiaries were sold off. In 1995, Tenneco divested many of its assets; and parts of the original core of Albright and Wilson were transferred into a new public company, Albright and Wilson Plc which was floated on the stock market, in February of that year. However, just four years later, following disappointing results, the French chemical company Rhodia acquired Albright and Wilson in March 2000 [6] and the century-and-a-half old name finally disappeared except in India, Australia, New Zealand and the Philippines. [7]
Parts of the original Albright and Wilson company are now owned by the Huntsman Corporation after their sale in 2000. [8]
After a large fire at its Avonmouth plant in 1996, which caused the temporary closure of local motorways and rail services, Albright and Wilson were fined £60,000. [9]
In 1842 Arthur Albright, a trained chemist, became a Partner in the Birmingham chemical firm of John and Edmund Sturge [10] ; his sister had married Edmund Sturge who was also a Quaker. [11] The Sturges were already manufacturing potassium chlorate for the match industry, at their chemical works at Selly Oak, adjacent to the Worcester and Birmingham Canal. [12] Albright therefore added the production of white phosphorus in 1844.
In 1850 the production of potassium chlorate and white phosphorus was moved to Langley Green, Oldbury, West Midlands; and production of white phosphorus restarted in 1851. [13]
The new site was located next door to the firm of Chance and Hunt in order to obtain access to a supply of sulfuric acid and hydrochloric acid; and of coal from the Black Country coal fields. It was also adjacent to two different arms of the Birmingham Canal Navigations, (the BCN), one leading off the Titford Canal, so it had good transport links. [13]
Production of the red form of phosphorus, "amorphous phosphorus" was commenced by Arthur Albright in 1851, by heating white phosphorus in a sealed crucible under a vacuum. It had been discovered by Professor Schrötter, in Vienna and patented by him. However, it was explosive to make and Albright discovered a safe means of production.
On 31 December 1854 Albright terminated his partnership with the Sturges. He formed Albright and Wilson with John Edward Wilson, a merchant, the following year. [10] In 1856 John Edward Wilson became a partner, and the new partnership was known as Albright and Wilson. In 1857 John Wilson married the sister of Rachel Albright (Albright's wife).
The Sturge Brothers continued as manufacturing chemists at Birmingham, but moved their works to Stirchley; and no longer had any involvement with phosphorus.
Oldbury remained the Headquarters of Albright and Wilson for most of the company's existence, eventually becoming known as the Oldbury Division. The Oldbury site was also the location of its central Research Laboratories.
The business was so highly regarded in Oldbury that a new secondary school opened in the town in the 1930s was named Albright Secondary Modern School.
The firm also maintained a leased London office, at Knightsbridge Green. In October 1974 it moved its Industrial Chemicals Divisional Offices, from Oldbury, to Warley. The six-storey office block, A&W House, at 210–222 Hagley Road, was originally rented for 25 years. Fifteen years later, parts of the Head Office were moved from Knightsbridge Green to A&W House. In October 1991 the Head Office moved to A&W House; and in 1997 the freehold of the building was purchased. A&W House was sold in 2001; and is now known as Quadrant West. [14] Archived 30 September 2007 at the Wayback Machine
In the early days, white phosphorus was obtained from bone ash by treating them with hydrochloric acid to produce precipitated phosphates. Then heating the meta phosphate for several days in a sealed crucible, in a retort, and distilling off phosphorus vapour, under water. Huge quantities of coal were needed for heating these retorts.
The production of white phosphorus was improved by using phosphate rock and sulfuric acid instead of bone ash and hydrochloric acid; and by the use of reverberatory furnaces instead of the direct-heated furnaces.
White and amorphous phosphorus remained the main product of Albright and Wilson until World War I.
White phosphorus was poisonous to match makers, causing Phossy jaw. Albright and Wilson exhibited amorphous phosphorus at the Great Exhibition of 1851, at The Crystal Palace. A sample was taken away for testing by the two Swedish brothers Lundström, to make an experimental match composition. In 1855, just before the Paris Exhibition, John Edvard Lundstrom found that the matches were still usable. He placed a large order for amorphous phosphorus with Albright and Wilson and this led to the foundation of the Swedish Safety Match Industry.
In 1899 Albright and Wilson added phosphorus sesquisulfide production. They were the first company to produce phosphorus sesquisulfide commercially: it was fiery and dangerous to make. Two French chemists, Savene and Cahen, proved that year that it was non-poisonous and could be used to make safety matches. Savene and Cahen Patented the match formula.
In 1929 the British Match Corporation, formerly known as Bryant and May, set up a jointly-owned company with Albright and Wilson: The A & W Match Phosphorus Company. It took over ownership of a small part of the Oldbury site concerned with producing amorphous phosphorus and phosphorus sesquisulfide.
Albright and Wilson expanded both by opening new sites and by buying up its rivals. The original phosphorus-based part of the company became known as the Oldbury Division. As they moved into new areas, they set up new Divisions.
Just after the end of World War I, Albright and Wilson took over the Holmes' Marine Life Protection Association. It remained within Oldbury Division.
The works in Widnes, Cheshire, were used for Phosphorus production from 1933. The works started with 2 furnaces and gradually extended to 5. The manufacture of Phosphates continued as well as the production of Calgon (water softener). All the products produced here were based on Phosphoric Acid. [15] In 1983, Albright and Wilson celebrated 50 Years at Ann Street. [15]
Albright and Wilson was taken over by Rhodia and subsequently by Thermphos and operated until it closed in 2013, with the loss of 25 jobs. In 2010, 69 jobs were axed when production of food phosphates was transferred to Germany and the Netherlands, as a result of lower production costs abroad. [16] As of 2015 [update] , the premises are being demolished, after Thermphos went into administration in September 2012 and following the full closure of the plant in 2013. [17]
In 1888 a patent was granted to four people from Wolverhampton covering the use of an electric furnace to produce white phosphorus from phosphate rock; and in 1890 they set up a works at Wednesfield to produce phosphorus. Albright and Wilson bought the patent and the works; and ran it for two years whilst they built their own furnace at Oldbury. The Wednesfield works was then closed down.
White phosphorus continued in production at Oldbury until 1972 when production was moved to Newfoundland. Bulk liquid white phosphorus was then transferred by special bulk tanker ship back to Portishead, Somerset. Unfortunately the move to Newfoundland had been inadequately planned and the Company encountered serious production problems with its new giant electric furnaces – several times larger than the Oldbury machines – and with the availability of skilled local labour. These problems contributed to the company's poor financial performance and precipitated the take-over by Tenneco.
In 1955 Albright and Wilson purchased Marchon Products Ltd [18] based in Whitehaven, which produced phosphorus-based detergents by the "wet" process. The A&W Group now controlled production of phosphorus compounds by both important manufacturing routes. However, the phosphate detergent business, which was the bread-and-butter market for Marchon, ran into terminal decline in the late 1970s as the eutrophication of inland waterways by pollution from detergent phosphate residues pressed the detergent formulators to move away from phosphates, thus removing Marchon's prime product application area.
The name "Marchon" ended when the French company, Rhodia, took over Albright and Wilson in 1999. [19]
The site closed down in 2005 and was demolished between 2007 and 2012.
Phosphorus is a chemical element; it has 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 Earth. It has a concentration in the Earth's crust of about one gram per kilogram. In minerals, phosphorus generally occurs as phosphate.
A match is a tool for starting a fire. Typically, matches are made of small wooden sticks or stiff paper. One end is coated with a material that can be ignited by friction generated by striking the match against a suitable surface. Wooden matches are packaged in matchboxes, and paper matches are partially cut into rows and stapled into matchbooks. The coated end of a match, known as the match "head", consists of a bead of active ingredients and binder, often colored for easier inspection. There are two main types of matches: safety matches, which can be struck only against a specially prepared surface, and strike-anywhere matches, for which any suitably frictional surface can be used.
Phosphoric acid is a colorless, odorless phosphorus-containing solid, and inorganic compound with the chemical formula H3PO4. It is commonly encountered as an 85% aqueous solution, which is a colourless, odourless, and non-volatile syrupy liquid. It is a major industrial chemical, being a component of many fertilizers.
A period 3 element is one of the chemical elements in the third row of the periodic table of the chemical elements. The periodic table is laid out in rows to illustrate recurring (periodic) trends in the chemical behavior of the elements as their atomic number increases: a new row is begun when chemical behavior begins to repeat, meaning that elements with similar behavior fall into the same vertical columns. The third period contains eight elements: sodium, magnesium, aluminium, silicon, phosphorus, sulfur, chlorine and argon. The first two, sodium and magnesium, are members of the s-block of the periodic table, while the others are members of the p-block. All of the period 3 elements occur in nature and have at least one stable isotope.
Potassium chlorate is a compound containing potassium, chlorine and oxygen, with the molecular formula KClO3. In its pure form, it is a white crystalline substance. After sodium chlorate, it is the second most common chlorate in industrial use. It is a strong oxidizing agent and its most important application is in safety matches. In other applications it is mostly obsolete and has been replaced by safer alternatives in recent decades. It has been used
Oldbury is a market town in the Metropolitan Borough of Sandwell, West Midlands, England. It is the administrative centre of the borough. At the 2011 census, the town had a population of 13,606, while the 2017 population of the wider built-up area was estimated at 25,488. Sandwell Metropolitan Borough Council, which defines Oldbury Town as consisting of the wards of Bristnall, Langley, Oldbury, and Old Warley, gave the population as 50,641 in 2011.
Phosphorite, phosphate rock or rock phosphate is a non-detrital sedimentary rock that contains high amounts of phosphate minerals. The phosphate content of phosphorite (or grade of phosphate rock) varies greatly, from 4% to 20% phosphorus pentoxide (P2O5). Marketed phosphate rock is enriched ("beneficiated") to at least 28%, often more than 30% P2O5. This occurs through washing, screening, de-liming, magnetic separation or flotation. By comparison, the average phosphorus content of sedimentary rocks is less than 0.2%.
Phosphorus pentoxide is a chemical compound with molecular formula P4O10 (with its common name derived from its empirical formula, P2O5). This white crystalline solid is the anhydride of phosphoric acid. It is a powerful desiccant and dehydrating agent.
Struvite (magnesium ammonium phosphate) is a phosphate mineral with formula: NH4MgPO4·6H2O. Struvite crystallizes in the orthorhombic system as white to yellowish or brownish-white pyramidal crystals or in platy mica-like forms. It is a soft mineral with Mohs hardness of 1.5 to 2 and has a low specific gravity of 1.7. It is sparingly soluble in neutral and alkaline conditions, but readily soluble in acid.
Laundry detergent is a type of detergent used for cleaning dirty laundry (clothes). Laundry detergent is manufactured in powder and liquid form.
Phosphorus sesquisulfide is the inorganic compound with the formula P4S3. It was developed by Henri Sevene and Emile David Cahen in 1898 as part of their invention of friction matches that did not pose the health hazards of white phosphorus. This yellow solid is one of two commercially produced phosphorus sulfides. It is a component of "strike anywhere" matches.
Bryant & May was a British match manufacturer, which today only exists as a brand name owned by Swedish Match. The company was formed in the mid-19th century as a dry goods trader, with its first match works, the Bryant & May Factory, located in Bow, London. It later opened other factories in the United Kingdom, Australia, and other parts of the world.
Rhodia was a group founded in 1988 that specialized in fine chemistry, synthetic fibers, and polymers.
Elemental phosphorus can exist in several allotropes, the most common of which are white and red solids. Solid violet and black allotropes are also known. Gaseous phosphorus exists as diphosphorus and atomic phosphorus.
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A soap substitute is a natural or synthetic cleaning product used in place of soap or other detergents, typically to reduce environmental impact or health harms or provide other benefits.
The Thermphos International B.V. was a venture of the chemical industry, which produced phosphorus and inorganic phosphorus compounds. In 2005, it earned about 550 Million Euros and employed about 1200 people. It was Europe's only producer of elemental phosphorus. The company was also involved in recycling phosphorus. It used to be a former affiliate of the German chemicals company Hoechst AG and was taken over in 2003 by a group of private investors, led by the Italian-Israeli businessman Nahum Galmor.
Edmund Sturge, was a Quaker businessman and campaigner for liberal causes.
Triphosphorus pentanitride is an inorganic compound with the chemical formula P3N5. Containing only phosphorus and nitrogen, this material is classified as a binary nitride. While it has been investigated for various applications this has not led to any significant industrial uses. It is a white solid, although samples often appear colored owing to impurities.
Theodore Swann was an American industrialist and early leader of the chemical industry. He was described by one historian as "a flamboyant Birmingham mogul and New South industrialist."