Physics:Timeline of hydrogen technologies

From HandWiki
Short description: None

This is a timeline of the history of hydrogen technology.

Timeline of future development of hydrogen technologies as a key enabler of the energy transition

Timeline

16th century

  • c. 1520 – First recorded observation of hydrogen by Paracelsus through dissolution of metals (iron, zinc, and tin) in sulfuric acid.

17th century

  • 1625 – First description of hydrogen by Johann Baptista van Helmont. First to use the word "gas".
  • 1650 – Turquet de Mayerne obtains a gas or "inflammable air" by the action of dilute sulphuric acid on iron.
  • 1662 – Boyle's law (gas law relating pressure and volume).
  • 1670 – Robert Boyle produces hydrogen by reacting metals with acid.
  • 1672 – "New Experiments touching the Relation between Flame and Air" by Robert Boyle.
  • 1679 – Denis Papin – safety valve.
  • 1700 – Nicolas Lemery shows that the gas produced in the sulfuric acid/iron reaction is explosive in air.

18th century

  • 1755 – Joseph Black confirms that different gases exist. / Latent heat
  • 1766 – Henry Cavendish publishes in "On Factitious Airs" a description of "dephlogisticated air" by reacting zinc metal with hydrochloric acid and isolates a gas 7 to 11 times lighter than air.
  • 1774 – Joseph Priestley isolates and categorizes oxygen.
  • 1780 – Felice Fontana discovers the water-gas shift reaction.
  • 1783 – Jacques Charles makes the first flight with his hydrogen-filled gas balloon or Charlière.
  • 1783 – Antoine Lavoisier and Pierre Laplace measure the heat of combustion of hydrogen using an ice calorimeter.
  • 1784 – Jean-Pierre Blanchard attempts a dirigible hydrogen balloon, but it will not steer.
  • 1784 – The invention of the Lavoisier Meusnier iron-steam process,[1] generating hydrogen by passing water vapor over a bed of red-hot iron at 600 °C.[2]
  • 1785 – Jean-François Pilâtre de Rozier builds the hybrid Rozière balloon.
  • 1787 – Louis-Bernard Guyton de Morveau and others give hydrogen its name (Gk: hydro = water, -genes = born of).
  • 1787 – Charles's law (gas law, relating volume and temperature).
  • 1789 – Jan Rudolph Deiman and Adriaan Paets van Troostwijk use an electrostatic machine and a Leyden jar for the first electrolysis of water.
  • 1800 – William Nicholson and Anthony Carlisle decompose water into hydrogen and oxygen by electrolysis with a voltaic pile.
  • 1800 – Johann Wilhelm Ritter duplicates the experiment with a rearranged set of electrodes to collect the two gases separately.

19th century

20th century

  • 1901 – Wilhelm Normann introduces the hydrogenation of fats.
  • 1903 – Konstantin Eduardovich Tsiolkovskii publishes "The Exploration of Cosmic Space by Means of Reaction Devices".[10]
  • 1907 – Lane hydrogen producer.
  • 1909 – Count Ferdinand Adolf August von Zeppelin make the first long distance flight with the Zeppelin LZ5.
  • 1909 – Linde–Frank–Caro process.
  • 1910 – The first Zeppelin passenger flight with the Zeppelin LZ7.
  • 1910 – Fritz Haber patents the Haber process.
  • 1912 – The first scheduled international Zeppelin passenger flights with the Zeppelin LZ13.
  • 1913 – Niels Bohr explains the Rydberg formula for the spectrum of hydrogen by imposing a quantization condition on classical orbits of the electron in hydrogen.
  • 1919 – The first Atlantic crossing by airship with the Beardmore HMA R34.
  • 1920 – Hydrocracking, a plant for the commercial hydrogenation of brown coal is commissioned at Leuna in Germany.[11]
  • 1923 – Steam reforming, the first synthetic methanol is produced by BASF in Leuna.
  • 1923 – J. B. S. Haldane envisions in Daedalus; or, Science and the Future "great power stations where during windy weather the surplus power will be used for the electrolytic decomposition of water into oxygen and hydrogen".
  • 1926 – Wolfgang Pauli and Erwin Schrödinger show that the Rydberg formula for the spectrum of hydrogen follows from the new quantum mechanics.
  • 1926 – Partial oxidation, Vandeveer and Parr at the University of Illinois use oxygen in the place of air for the production of syngas.
  • 1926 – Cyril Norman Hinshelwood describes the phenomenon of chain reaction.
  • 1926 – Umberto Nobile makes the first flight over the North Pole with the hydrogen airship Norge.
  • 1929 – Paul Harteck and Karl Friedrich Bonhoeffer achieve the first synthesis of pure parahydrogen.
  • 1929 – The hydrogen-filled LZ 127 Graf Zeppelin makes a 33,234 km (20,651 mi; 17,945 nmi) circumnavigation of the world. It is the first and only airship to do so, and the second circumnavigation of the globe by air. The voyage took a total of 21 days, 5 hours, and 31 minutes.
  • 1930 – Rudolf Erren – Erren engine – patent CH148238A – Improvements in and relating to internal combustion engines using a mixture of hydrogen and oxygen as fuel.[12]
  • 1935 – Eugene Wigner and H.B. Huntington predict metallic hydrogen.
  • 1937 – The Zeppelin LZ 129 Hindenburg is destroyed by fire.
  • 1937 – The Heinkel HeS 1 experimental gaseous hydrogen-fueled centrifugal jet engine is tested at Hirth in March – the first working jet engine.
  • 1937 – The first hydrogen-cooled turbogenerator goes into service at Dayton, Ohio.
  • 1938 – The first 240 km hydrogen pipeline Rhine-Ruhr.[13]
  • 1938 – Igor Sikorsky from Sikorsky Aircraft proposes liquid hydrogen as a fuel.
  • 1939 – Rudolf Erren – Erren engine – US patent 2,183,674 – Internal combustion engine using hydrogen as fuel.
  • 1939 – Hans Gaffron discovers that algae can switch between producing oxygen and hydrogen.
  • 1941 – The first mass application of hydrogen in internal combustion engines: Russian lieutenant Boris Shelishch in the besieged Leningrad converts some hundreds cars "GAZ-AA" which serve posts of barrage balloons of air defense.
  • 1943 – Liquid hydrogen is tested as rocket fuel at Ohio State University.
  • 1943 – Arne Zetterström describes hydrox.
  • 1947 – Willis Lamb and Robert Retherford measure the small energy shift (the Lamb shift) between the 2S1/2 and 2P1/2 orbitals of hydrogen, providing a great stimulus to the development of quantum electrodynamics.
  • 1949 – Hydrodesulfurization (catalytic reforming) is commercialized under the name "platforming process".
  • 1951 – Underground hydrogen storage.[14]
  • 1952 – Ivy Mike, the first successful test of a nuclear explosive based on hydrogen (actually, deuterium) fusion.
  • 1952 – Non-refrigerated transport Dewar.
  • 1955 – W. Thomas Grubb modifies the fuel cell design by using a sulphonated polystyrene ion-exchange membrane as the electrolyte.
  • 1957 – Pratt & Whitney's model 304 jet engine using liquid hydrogen as fuel tested for the first time as part of the Lockheed CL-400 Suntan project.[15]
  • 1957 – The specifications for the U-2 a double axle liquid hydrogen semi-trailer are issued.[16]
  • 1958 – Leonard Niedrach devises a way of depositing platinum onto the membrane, known as the Grubb-Niedrach fuel cell.
  • 1958 – Allis-Chalmers demonstrates the D 12, the first 15 kW fuel cell tractor.[17]
  • 1959 – Francis Thomas Bacon builds the Bacon Cell, the first practical 5 kW hydrogen-air fuel cell to power a welding machine.
  • 1960 – Allis-Chalmers builds the first fuel cell forklift.[18]
  • 1961 – RL-10 liquid hydrogen-fuelled rocket engine first flight.
  • 1964 – Allis-Chalmers builds a 750-watt fuel cell to power a one-man underwater research vessel.[19]
  • 1965 – The first commercial use of a fuel cell in Project Gemini.
  • 1965 – Allis-Chalmers builds the first fuel cell golf carts.
  • 1966 – General Motors presents Electrovan, the world's first fuel cell automobile.[20]
  • 1966 – Slush hydrogen.
  • 1966 – J-2 (rocket engine) liquid hydrogen rocket engine flies..
  • 1967 – Akira Fujishima discovers the Honda-Fujishima effect, used for photocatalysis in the photoelectrochemical cell.
  • 1967 – Hydride compressor.
  • 1970 – Nickel hydrogen battery.[21]
  • 1970 – John Bockris or Lawrence W. Jones coins the term hydrogen economy.[22][23]
  • 1973 – The 30 km hydrogen pipeline in Isbergues.
  • 1973 – Linear compressor.
  • 1975 – John Bockris – Energy, The Solar-Hydrogen AlternativeISBN:0-470-08429-4.
  • 1979 – HM7B rocket engine.
  • 1981 – Space Shuttle Main Engine first flight.
  • 1988 – First flight of Tupolev Tu-155, a variant of the Tu-154 airliner designed to run on hydrogen.
  • 1990 – The first solar-powered hydrogen production plant Solar-Wasserstoff-Bayern becomes operational.
  • 1996 – Vulcain rocket engine.
  • 1997 – Anastasios Melis discovers that the deprivation of sulfur will cause algae to switch from producing oxygen to producing hydrogen.
  • 1998 – Type 212 submarine.
  • 1999 – Hydrogen pinch.
  • 2000 – Peter Toennies demonstrates superfluidity of hydrogen at 0.15 K.

21st century

  • 2001 – The first type IV hydrogen tanks for compressed hydrogen at 700 bar (10000 PSI) are demonstrated.
  • 2002 – Type 214 submarine.
  • 2002 – The first hydrail locomotive is demonstrated in Val-d'Or, Quebec.[24]
  • 2004 – DeepC, an autonomous underwater vehicle propelled by an electric motor powered by a hydrogen fuel cell.
  • 2005 – Ionic liquid piston compressor.
  • 2013 – The first commercial 2 megawatt power to gas installation in Falkenhagen comes online for 360 cubic meters of hydrogen per hour hydrogen storage into the natural gas grid.[25]
  • 2014 – The Japanese fuel cell micro combined heat and power (mCHP) ENE FARM project passes 100,000 sold systems.[26]
  • 2016 – Toyota releases its first hydrogen fuel cell car, the Mirai.
  • 2017 – Hydrogen Council is formed to expedite development and commercialization of hydrogen and fuel cell technologies.
  • 2019 – Researchers at the KU Leuven university, Belgium, develop a solar hydrogen panel that is able to produce 250l of H2 per day directly from sunlight and water vapor utilizing phytocatalytic water splitting, reporting a conversion efficiency of 15%[27] – about a 150-fold improvement of the efficiency figure ten years back (0.1%).[28]
  • 2019 – Powerpaste, a magnesium and hydrogen-based fluid magnesium hydride paste that releases hydrogen in a predictable manner when it reacts with water, is developed and patented by the Fraunhofer-Gesellschaft.[29]
  • 2021 – Enapter, co-founded by Vaitea Cowan, is awarded the 2021 Earthshot Prize for the ‘Fix our Climate’ category for its AEM Electrolyser technology, which turns renewable electricity into emission-free hydrogen gas.[30]
  • 2022 – Researchers in Cambridge develop floating artificial leaves for light-driven hydrogen production. The lightweight, flexible devices are scalable and can float on water similar to lotus leaves.[31]
  • 2023 – Toyota's liquid hydrogen powered Corolla participates in the Super Taikyu Fuji 24 Hours Race where it beats gaseous hydrogen powered Corolla's previous record by completing 358 laps (1,634 km).[32]

See also

  • Timeline of sustainable energy research 2020–present
  • List of years in science (2024 in science)

References

  1. 1784 Experiments
  2. Langins, Janis (8 Jun 1983). "Hydrogen production for ballooning during the French Revolution: An early example of chemical process development". Annals of Science (Taylor & Francis) 40 (6): 531–558. doi:10.1080/00033798300200381. 
  3. 1809 – Fleming, History of Meteorology 25 Pag. 25
  4. "Pibal History". http://www.csulb.edu/~mbrenner/history.htm. 
  5. "The Monthly Magazine". 1809. https://books.google.com/books?id=tCkAAAAAYAAJ&pg=PA554. 
  6. "The Hydrogen Engine". http://www.eng.cam.ac.uk/DesignOffice/projects/cecil/engine.html. 
  7. 1820 Cecil the letter
  8. Jules Verne. "The Mysterious Island by Jules Verne: Chapter 33". http://www.online-literature.com/verne/mysteriousisland/33/. 
  9. 1896 Weather balloon
  10. Tsiolkovsky's Исследование мировых пространств реактивными приборами – The Exploration of Cosmic Space by Means of Reaction Devices (Russian paper)
  11. "A Students Guide to Refining – Energy – Articles – Chemical Engineering – Frontpage – Cheresources.com". Cheresources.com Community. http://www.cheresources.com/refining5.shtml. 
  12. Improvements in and relating to internal combustion engines using a mixture of hydrogen and oxygen as fuel
  13. The Technological Steps of Hydrogen Introduction – pag 24
  14. Template:Cite tech report
  15. Sloop, John L. (1978). Liquid hydrogen as a propulsion fuel, 1945-1959. (The NASA history series) (NASA SP-4404). National Aeronautics and Space Administration. pp. 154–157. http://www.hq.nasa.gov/office/pao/History/SP-4404/ch8-9.htm. 
  16. "ch8-11". https://history.nasa.gov/SP-4404/ch8-11.htm. 
  17. 1958 D 12 – Pag. 7
  18. "Fuel Cell History – Fuel Cell Today". http://www.fuelcelltoday.com/about-fuel-cells/history. 
  19. "1964 Allis Chalmers Pag.1". http://www.aesc-inc.com/download/Ishii_Fuel_Cell_Paper.pdf. 
  20. Eberle, Ulrich; Mueller, Bernd; von Helmolt, Rittmar. "Fuel cell electric vehicles and hydrogen infrastructure: status 2012". Energy & Environmental Science. https://www.researchgate.net/publication/233987484. 
  21. Nickel-Hydrogen Battery Technology—Development and Status
  22. Christina H. "SaveOnEnergy's Learning Center – Helping Customers since 2003". http://www.getenergysmart.org/Files/Schools/Hydrogen/3HistoryofHydrogen.pdf. 
  23. Lawrence W. Jones Toward a liquid hydrogen fuel economy, University of Michigan Engineering Technical Report UMR2320, March 13, 1970
  24. Sandia Corporation (2004). Fuel-Cell-Powered Mine Locomotive . Sandia National Laboratories.
  25. "E.ON inaugurates power-to-gas unit in Falkenhagen in eastern Germany". 28 August 2013. http://www.eon.com/en/media/news/press-releases/2013/8/28/eon-inaugurates-power-to-gas-unit-in-falkenhagen-in-eastern-germany.html. 
  26. "HyER » Enfarm, enefield, eneware!". http://www.hyer.eu/2014/enfarm-enefield-eneware. 
  27. Heremans, Gino; Trompoukis, Christos (2017). "Vapor-fed solar hydrogen production exceeding 15% efficiency using earth abundant catalysts and anion exchange membrane". Sustainable Energy & Fuels 1 (10): 2061–2065. doi:10.1039/C7SE00373K. https://www.researchgate.net/publication/320033354. Retrieved 2020-11-09. 
  28. Gallucci, Maria (2019-03-13). "Solar Panel Splits Water to Produce Hydrogen". IEEE. https://spectrum.ieee.org/energywise/green-tech/fuel-cells/solar-panel-prototype-splits-water-to-produce-hydrogen. "A research team in Belgium says its prototype panel can produce 250 liters of hydrogen gas per day" 
  29. Template:Cite tech report
  30. "EarthShot Prizewinners 2021 - Climate". https://earthshotprize.org/london-2021/the-earthshot-prize-winners-finalists/climate/. 
  31. Andrei, Virgil; Ucoski, Geani M.; Pornrungroj, Chanon; Uswachoke, Chawit; Wang, Qian; Achilleos, Demetra S.; Kasap, Hatice; Sokol, Katarzyna P. et al. (2022-08-17). "Floating perovskite-BiVO4 devices for scalable solar fuel production" (in en). Nature 608 (7923): 518–522. doi:10.1038/s41586-022-04978-6. ISSN 1476-4687. PMID 35978127. Bibcode2022Natur.608..518A. https://www.nature.com/articles/s41586-022-04978-6. 
  32. CORPORATION, TOYOTA MOTOR. "NEWSCAST|Liquid Hydrogen Corolla's World-First 24-Hour Challenge|TOYOTA TIMES" (in en). https://toyotatimes.jp/en/newscast/020.html.