BASF

Coordinates: 49°29′47″N 8°25′57″E / 49.49639°N 8.43250°E / 49.49639; 8.43250

BASF SE
Societas Europaea
Traded as FWB: BAS
DAX Component
Industry Chemicals
Founded 6 April 1865 (6 April 1865) (as Badische Anilin und Soda Fabrik)
Mannheim
Headquarters Ludwigshafen, Germany
Key people
 Jürgen Hambrecht (Chairman of the supervisory board), Martin Brudermüller (CEO and Chairman of the executive board)
Products Chemicals, plastics, performance chemicals, catalysts, coatings, crop technology, crude oil and natural gas exploration and production
Revenue Increase 64.475 billion (2017)[1]
Increase €8.328 billion (2017)[1]
Increase €6.078 billion (2017)[1]
Total assets Increase €78.768 billion (end 2017)[2]
Total equity Increase €34.756 billion (end 2017)[2]
Number of employees
 Increase 115,490 (end 2017)[1]
Website basf.com

BASF SE is a German chemical company and the largest chemical producer in the world.[3][4][5] The BASF Group comprises subsidiaries and joint ventures in more than 80 countries and operates six integrated production sites and 390 other production sites in Europe, Asia, Australia, the Americas and Africa.[6] Its headquarters is located in Ludwigshafen, Germany. BASF has customers in over 190 countries and supplies products to a wide variety of industries. Despite its size and global presence, BASF has received relatively little public attention since it abandoned manufacturing and selling BASF-branded consumer electronics products in the 1990s.

At the end of 2017, the company employed around 115,490 people, with over 52,000 in Germany alone. In 2015, BASF posted sales of €70.4 billion and income from operations before special items of about €6.7 billion. The company is currently expanding its international activities with a particular focus on Asia. Between 1990 and 2005, the company invested €5.6 billion in Asia, for example in sites near Nanjing and Shanghai, China and Mangalore, India.

BASF is listed on the Frankfurt Stock Exchange, London Stock Exchange, and Zurich Stock Exchange. The company delisted its ADR from the New York Stock Exchange in September 2007. The company is a component of the Euro Stoxx 50 stock market index.[7][8]

History

BASF Werk in Ludwigshafen, 1865

BASF (Badische Anilin und Soda Fabrik, or, in English, Baden Aniline and Soda Factory) was founded on 6 April 1865 in Mannheim, in the German-speaking country of Baden by Friedrich Engelhorn. It had been responsible for setting up a gasworks and street lighting for the town council in 1861. The gasworks produced tar as a byproduct, and Engelhorn used this for the production of dyes. BASF was set up in 1865 to produce other chemicals necessary for dye production, notably soda and acids. The plant, however, was erected on the other side of the Rhine river at Ludwigshafen because the town council of Mannheim was afraid that the air pollution of the chemical plant could bother the inhabitants of the town. In 1866 the dye production processes were also moved to the BASF site.[9]

Dyes

BASF Werk in Ludwigshafen, 1881

The discovery in 1857 by William Henry Perkin that aniline could be used to make intense colouring agents had led to the commercial production of synthetic dyes in England from aniline extracted from coal tar. BASF recruited Heinrich Caro, a German chemist with experience of the dyestuffs industry in England, to be the first head of research.[10] Caro developed a synthesis for alizarin (a natural pigment in madder), and applied for a British patent on 25 June 1869. Coincidentally Perkin applied for a virtually identical patent on 26 June 1869, and the two companies came to a mutual commercial agreement about the process.[9]

Further patents were granted for the synthesis of methylene blue and eosin, and in 1880 research began to try to find a synthetic process for indigo dye, though this was not successfully brought to the market until 1897. In 1901, some 80% of the BASF production was dyestuffs.[9]

Soda

BASF main laboratory in Ludwigshafen, 1887

Sodium carbonate (soda) was produced by the Leblanc process until 1880 when the much cheaper Solvay process became available. BASF ceased to make its own and bought it from the Solvay company thereafter.[9]

Sulfuric acid

Indigo production at BASF in 1890

Sulfuric acid was initially produced by the lead chamber process, but in 1890 a unit using the contact process was brought on stream, producing the acid at higher concentration (98% instead of 80%), and at a lower cost. This followed extensive research and development by Rudolf Knietsch, for which he received the Liebig Medal in 1904.[9]

Ammonia

The development of the Haber process from 1908 to 1912 made it possible to synthesize ammonia (a major industrial chemical as the primary source of nitrogen), and, after acquiring exclusive rights to the process, in 1913 BASF started a new production plant in Oppau, adding fertilizers to its product range. BASF also acquired and began mining anhydrite for gypsum at the Kohnstein in 1917.[11]

IG Farben

In 1916, BASF started operations at a new site in Leuna, where explosives were produced during the First World War. On 21 September 1921, an explosion occurred in Oppau, killing 565 people. The Oppau explosion was the biggest industrial accident in German history. Under the leadership of Carl Bosch - a critic of Nazi policies - BASF founded IG Farben with Hoechst, Bayer, and three other companies, thus losing its independence. BASF was the nominal survivor, as all shares were exchanged for BASF shares prior to the merger. Rubber, fuels, and coatings were added to the range of products.

World War II

Following the appointment of Adolf Hitler as Chancellor in 1933, IG Farben collaborated with the Nazi regime, profiting from guaranteed volumes and prices, and from the slave labor provided by the government's Nazi concentration camps. IG Farben also achieved notoriety owing to its production of Zyklon-B, the lethal gas used to murder prisoners in Nazi extermination camps. In 1935, IG Farben and AEG presented the magnetophon – the first tape recorder – at the Radio Exhibition in Berlin.[12]

The Ludwigshafen site was almost completely destroyed during the Second World War and was subsequently rebuilt. The allies dissolved IG Farben in November 1945.

Both the Ludwigshafen and Oppau plants were of strategic importance for the war because the German military needed many of their products, e.g. synthetic rubber and gasoline. As a result, they were major targets for air raids. Over the course of the war, Allied bombers attacked the plants 65 times.

Shelling took place from the autumn of 1943 and saturation bombing inflicted extensive damage. Production virtually stopped by the end of 1944.

Due to a shortage of male workers during the war, women were conscripted to work in the factories, and later prisoners of war and foreign civilians. Concentration camp inmates did not work at the Ludwigshafen and Oppau plants.

In July 1945, the American military administration confiscated the entire assets of IG Farben. That same year, the Allied Commission decreed that IG Farben should be dissolved. The sites at Ludwigshafen and Oppau were controlled by French authorities.

BASF refounded

On 28 July 1948, an explosion occurred at a BASF site in Ludwigshafen, killing 207 people and injuring 3818.[13] In 1952, BASF was refounded under its own name following the efforts of former Nazi Party member and Third Reich Wehrwirtschaftsführer (war economy leader) Carl Wurster.[14] With the German economic miracle in the 1950s, BASF added synthetics such as nylon to its product range. BASF developed polystyrene in the 1930s and invented Styropor in 1951.

Production abroad

In the 1960s, production abroad was expanded and plants were built in Argentina, Australia, Belgium, Brazil, France, India, Italy, Japan, Mexico, Spain, United Kingdom and the United States. Following a change in corporate strategy in 1965, greater emphasis was placed on higher-value products such as coatings, pharmaceuticals, pesticides and fertilizers. Following German reunification, BASF acquired a site in Schwarzheide, eastern Germany, on 25 October 1990. It expanded to Podolsk, Russia, in 2012, and to Kazan in 2013.[15]

Takeovers

In 1968 BASF (together with Bayer AG) bought the German coatings company Herbol. BASF completely took over the Herbol branches in Cologne and Würzburg in 1970. Under new management the renewal and expansion of the trademark continued. After an extensive reorganisation and an increasing international orientation of the coatings business Herbol became part of the new founded Deco GmbH in 1997.

BASF bought the Wyandotte Chemical Company, and its Geismar, Louisiana chemical plant in the early 1980s.[16] The plant produced plastics, herbicides and antifreeze. BASF soon tried to operate union-free, having already reduced or eliminated union membership in several other US plants. Challenging the Geismar OCAW union resulted in a labor dispute that saw members locked out from 1984-1989 and eventually winning their case. A worker solidarity committee at BASF's headquarters plant in Ludwigshafen, Germany, took donations from German workers to support the American strikers and organized rallies and publicity in support. The dispute was the subject of an academic study[17] The union also exposed major accidental releases of phosgene, toluene and other toxic gases, these being publicized in the local media and through a video, Out of Control[16][18]. A court threw out a $66,700 fine against BASF for five environmental violations as "too small".[16]

BASF's European coatings business was taken over by AkzoNobel in 1999. BASF bought the Engelhard Corporation for $4.8 billion in 2006. Other acquisitions in 2006 were the purchase of Johnson Polymer and the construction chemicals business of Degussa.

The acquisition of Johnson Polymer was completed on 1 July 2006. The purchase price was $470 million on a cash and debt-free basis. It provided BASF with a range of water-based resins that complements its portfolio of high solids and UV resins for the coatings and paints industry and strengthened the company’s market presence, particularly in North America.

BASF Portsmouth Site in the West Norfolk area of Portsmouth, Virginia, United States. The plant is served by the Commonwealth Railway.

The acquisition Degussa AG's construction chemicals business was completed in 2006. The purchase price for equity was about €2.2 billion. In addition, the transaction was associated with debt of €500 million.

The company agreed to acquire Ciba (formerly part of Ciba-Geigy) in September 2008.[19] The proposed deal was reviewed by the European Commissioner for Competition. On 9 April 2009, the acquisition was officially completed.[20][21]

On 19 December 2008, BASF acquired U.S.-based Whitmire Micro-Gen together with U.K.-based Sorex Ltd, Widnes, Great Britain.[22] Sorex is a manufacturer of branded chemical and non-chemical products for professional pest management. In March 2007 Sorex was put up for sale with a price tag of about £100 million.[23]

In May 2015, BASF agreed to sell parts of its pharmaceutical ingredients business to Swiss drug manufacturer Siegfried Holding for a fee of €270 million, including assumed debt.[24]

In October 2017, BASF announced it would buy seed and herbicide businesses from Bayer for €5.9 billion ($7 billion), as part of its acquisition of Monsanto.[25][26]

Business segments

Former BASF building in Ludwigshafen
BASF headquarters, Ludwigshafen, Germany

BASF operates in a variety of markets. Its business is organized in the segments Chemicals, Plastics, Performance Products, Functional Solutions, Agricultural Solutions and Oil & Gas.

Chemicals

BASF produces a wide range of chemicals, for example, solvents, amines, resins, glues, electronic-grade chemicals, industrial gases, basic petrochemicals, and inorganic chemicals. The most important customers for this segment are the pharmaceutical, construction, textile, and automotive industries.

Plastics

BASF's plastic products include high-performance materials in thermoplastics, foams, and urethanes.[27]

Engineering Plastics
BASF's Engineering Plastics consists of the "4 Ultras" - Ultramid polyamide (PA) nylon-based resins, Ultradur, polybutylene terephthalate (PBT), Ultraform, polyacetal (POM), and Ultrason, polysulfone (PSU) and polyethersulfone (PES).

Styrenics
BASF Styrenics consists of the Foams and Copolymers. BASF's styrenic copolymers have applications in electronics, building and construction, and automotive components. In 2011 BASF and INEOS blended their global business activities in the fields of styrene monomers (SM), polystyrene (PS), acrylonitrile butadiene styrene (ABS), styrene butadiene copolymers (SBC) and other styrene-based copolymers (SAN, AMSAN, ASA, MABS) into a joint venture named Styrolution.[28]

Polyurethanes
BASF's Polyurethanes business consists of diverse technologies and finished products. Urethane chemicals are raw materials used in rigid and flexible foams commonly used for insulation in the construction and appliance industries, furniture, packaging, and transportation.

Foams
Foams like Styropor are generally used as insulating materials. They are eco-efficient and offer advantages over other materials in terms of cost-effectiveness, preservation of resources and environmental protection. Investments made for insulating materials usually pay for themselves within a short time and contribute to retaining and even enhancing the value of buildings.

Polyamides and Intermediates
BASF manufactures polyamide precursors and polyamide.

Biodegradable plastics
BASF developed a biodegradable plastic with a high content of polylactic acid.

Performance products

BASF produces a range of performance chemicals, coatings and functional polymers. These include raw materials for detergents, textile and leather chemicals, pigments and raw materials for adhesives, paper chemicals. Customers are the automotive, oil, paper, packaging, textile, sanitary products, detergents, construction materials, coatings, printing and leather industries.

Functional Solutions

BASF-sponsored Museum for Laquerware in Münster, Germany
BASF in Ludwigshafen

BASF's Functional Solutions segment consists of the Catalysts, Construction Chemicals and Coatings divisions. These divisions develop innovative, customer-specific products and system solutions, in particular for the automotive and construction industries.

Agricultural

BASF supplies agricultural products and chemicals including fungicides, herbicides, insecticides and seed treatment products.[29][30] The company also researches nutrigenomics.[31] BASF opened a new crop protection technology center in Limburgerhof, Germany in 2016.[32]

Biotechnology

BASF is cooperating with Monsanto Company in research, development and marketing of biotechnology.[33]

The BASF Plant Science subsidiary produces the Amflora and Starch Potato genetically modified potato with reduced amylose.[34][35] In 2010 BASF conducted Department of Environment, Food and Rural Affairs approved trials of genetically modified potatoes in the United Kingdom.[36] Starch Potato was authorised for use in USA[35] in 2014.

Other GM crops are Phytaseed Canola varieties with phytase, sulfonylurea herbicide tolerant soybean[37] and drought tolerant corn (with cold shock protein B) developed with Monsanto.[38]

Oil and gas

BASF explores for and produces oil and gas through its subsidiary Wintershall Holding AG. In Central and Eastern Europe, Wintershall works with its Russian partner Gazprom.

Investors

75% of the BASF shares are held by institutional investors (BlackRock more than 5%). 36% of the shares are held in Germany, 11% in the UK and 17% in the U.S.

Production

Ludwigshafen production site at night.

BASF's recent success is characterized by a focus on creating resource efficient product lines after completely abandoning consumer products. This strategy was reflected in production by a re-focus towards integrated production sites. The largest such integrated production site is located in Ludwigshafen employing 33,000 people.

Integrated production sites are characterized by co-location of a large number of individual production lines (producing a specific chemical), which share an interconnected material flow. Piping is used ubiquitously for volume materials. All production lines use common raw material sourcing and feed back waste resources, which can be used elsewhere (e.g. steam of various temperatures, sulfuric acid, carbon monoxide). The economic incentive for this approach is high resource and energy efficiency of the overall process, reduced shipping cost and associated reduced risk of accidents. Due to the high cost of such an integrated production site, it establishes a high entry barrier for competitors trying to enter the market for volume chemicals.

BASF built a new chemical complex in Dahej, Gujarat at a cost of $100 million. This facility has South Asia's first methylene diphenyl diisocyanate (MDI) splitter for processing crude MDI. BASF has 8 production facilities in India.[39]

BASF SE has succeeded in developing a semi-crystalline polyamide that allows light to pass through largely unhindered. Ultramid Vision combines very high light transmission with low light scattering. This makes it the world’s first semi-crystalline polyamide for semi-transparent or transparent components in chemically challenging environments. Additionally, the unique polyamide is UV and temperature resistant, scratch-proof as well as suitable for flame-retardant requirements. Ultramid Vision can be used in various application fields: It recommends itself especially for parts for visual check, illumination or light design. Ultramid Vision presents a versatile alternative to commonly used materials such as amorphous aliphatic polyamides, polycarbonate or styrene-acrylonitrile copolymers.[40]

Environmental record

In 2006 BASF was included in the Climate Leadership Index for their efforts in relation to climate change and greenhouse gas emissions.[41]

BASF has created filters for wastewater treatment plants that help to reduce emissions.[42]

The BASF Company and Columbia University formed a partnership to further research “environmentally benign and sustainable energy sources”. The company has recently reported their emissions in 2006 to be “1.50 million metric tons of waste,” which is a decrease from previous years. The amount of waste BASF produces has continued to fall.[42]

While BASF publishes its environmental information in the US and Europe, Greenpeace has expressed deep concerns at BASF's refusal to release environmental information on its operations in China.[43]

In May 2009, a BASF Plant in Hannibal, Missouri, United States, accidentally discharged chromium into the Mississippi River. The local Department of Natural Resources performed tests in December 2009 showing the chromium levels did not exceed regulatory safety limits.[44] BASF worked with the Missouri Department of Natural Resources (MoDNR) to resolve questions regarding the elevated level of hexavalent chromium that was detected in the effluent from one of its permitted outfalls into the Mississippi River. The state department of health reviewed the test results and determined that the amounts found were well below recommended public health screening levels.[45]

In 2013, BASF reported a spill of several hundred kilograms of the chelating agent Trilon-B (tetrasodium EDTA) into the river Rhine from BASF's headquarters in Ludwigshafen, Germany.[46]

See also

Dow Chemical Company

References

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  44. Maguire, Kim; Messenger, Tony (8 January 2010). "New tests find higher level of chemical Hannibal water results prompt questions about state's disclosure delay". St. Louis Post-Dispatch. Retrieved 3 February 2016.
  45. Henley, Danny (12 February 2010). "BPW: Chromium-6 findings require no water treatment changes" Archived 23 July 2011 at the Wayback Machine.. Hannibal Courier-Post. Retrieved 9 March 2010.
  46. "Chemical Product Spill at BASF – 600 kg Trilon B Leaked into Rhine River". Retrieved 3 February 2016.

Further reading

  • Abelshauser, Werner; von Hippel, Wolfgang; Johnson, Jeffrey Allan; Stokes, Raymond G. (2003). German Industry and Global Enterprise. BASF: The History of a Company. New York: Cambridge University Press.
  • Beer, John J. The Emergence of the German Dye Industry (1959).
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