gptkbp:instanceOf
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gptkb:chemical_compound
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gptkbp:alsoKnownAs
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gptkb:Haber–Bosch_method
gptkb:Haber_process
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gptkbp:catalyzes
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iron
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gptkbp:category
|
catalysis
inorganic chemistry
industrial processes
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gptkbp:developedBy
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gptkb:Carl_Bosch
gptkb:BASF
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gptkbp:environmentalImpact
|
CO2 emissions
|
https://www.w3.org/2000/01/rdf-schema#label
|
Haber–Bosch process
|
gptkbp:industry
|
fertilizer production
explosives production
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gptkbp:introducedIn
|
1909
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gptkbp:inventedBy
|
gptkb:Fritz_Haber
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gptkbp:locationOfFirstPlant
|
gptkb:Oppau,_Germany
|
gptkbp:minimumPressure
|
150–250 atm
|
gptkbp:namedAfter
|
gptkb:Carl_Bosch
gptkb:Fritz_Haber
|
gptkbp:NobelPrizeYear
|
Carl Bosch (1931 Nobel Prize in Chemistry)
Fritz Haber (1918 Nobel Prize in Chemistry)
|
gptkbp:operatingSystem
|
400–500 °C
|
gptkbp:powerSource
|
high
|
gptkbp:product
|
ammonia
|
gptkbp:reactant
|
hydrogen
nitrogen
|
gptkbp:reactionEquation
|
N2 + 3H2 → 2NH3
|
gptkbp:significance
|
enabled large-scale food production
|
gptkbp:UNESCOWorldHeritageSite
|
2015
|
gptkbp:usedIn
|
production of nitric acid
production of synthetic fertilizers
|
gptkbp:bfsParent
|
gptkb:Carl_Bosch
|
gptkbp:bfsLayer
|
4
|