, Germany Most lignite is used to generate electricity. until its closure in March 2017. The operation of traditional brown-coal plants, particularly in combination with
strip mining, is politically contentious due to environmental concerns. The
German Democratic Republic relied extensively on lignite to become energy
self-sufficient, and eventually obtained 70% of its energy requirements from lignite. Lignite was also an important chemical industry feedstock via
Bergius process or
Fischer-Tropsch synthesis in lieu of petroleum, which had to be imported for
hard currency following a change in policy by the
Soviet Union in the 1970s, which had previously delivered petroleum at below market rates. East German scientists even converted lignite into
coke suitable for metallurgical uses (
high temperature lignite coke) and much of the
railway network was dependent on lignite either through
steam trains or
electrified lines mostly fed with lignite derived power. while in 2014 in
Greece, lignite provided about 50 percent of its power needs. Germany has announced plans to
phase out lignite by 2038 at the latest. Greece has confirmed that the last coal plant will be shut in 2025 after receiving pressure from the
European Union and plans to heavily invest in
renewable energy.
Home heating Lignite was and is used as a replacement for or in combination with
firewood for home heating. It is usually pressed into
briquettes for that use. Due to the smell it gives off when burned, lignite was often seen as a fuel for poor people compared to higher value hard coals. In Germany, briquettes are still readily available to end consumers in
home improvement stores and supermarkets.
In agriculture An environmentally beneficial use of lignite is in agriculture. Lignite may have value as an environmentally benign
soil amendment, improving cation exchange and phosphorus availability in soils while reducing availability of heavy metals, and may be superior to commercial K humates. Lignite fly ash produced by combustion of lignite in power plants may also be valuable as a soil amendment and fertilizer. However, rigorous studies of the long-term benefits of lignite products in agriculture are lacking. Lignite may also be used for the cultivation and distribution of
biological control microbes that suppress plant pests. The carbon increases the
organic matter in the soil while the biological control microbes provide an alternative to chemical pesticides.
Leonardite is a soil conditioner rich in
humic acids that are formed by natural oxidation when lignite comes in contact with air. The process can be replicated artificially on a large scale. The less matured xyloid (wood-shaped) lignite also contains high amounts of humic acid.
As an industrial adsorbent Lignite may have potential uses as an industrial
adsorbent. Experiments show that its adsorption of
methylene blue falls within the range of
activated carbons currently used by industry.
In jewellery Jet is a form of lignite that has been used as a gemstone. The earliest jet artifacts date to 10,000 BCE and jet was used extensively in necklaces and other ornamentation in Britain from the
Neolithic until the end of
Roman Britain. Jet experienced a brief revival in
Victorian Britain. == Geology ==