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Methane Pyrolysis in Molten Potassium Chloride: An Experimental and Economic Analysis

Jinho Boo, Eun Hee Ko, No‐Kuk Park, Changkook Ryu, Yo-Han Kim, Jinmo Park, Dohyung Kang

2021Energies36 citationsDOIOpen Access PDF

Abstract

Although steam methane reforming (CH4 + 2H2O → 4H2 + CO2) is the most commercialized process for producing hydrogen from methane, more than 10 kg of carbon dioxide is emitted to produce 1 kg of hydrogen. Methane pyrolysis (CH4 → 2H2 + C) has attracted much attention as an alternative to steam methane reforming because the co-product of hydrogen is solid carbon. In this study, the simultaneous production of hydrogen and separable solid carbon from methane was experimentally achieved in a bubble column filled with molten potassium chloride. The melt acted as a carbon-separating agent and as a pyrolytic catalyst, and enabled 40 h of continuous running without catalytic deactivation with an apparent activation energy of 277 kJ/mole. The resultant solid was purified by water washing or acid washing, or heating at high temperature to remove salt residues from the carbon. Heating the solid product at 1200 °C produced the highest purity carbon (97.2 at%). The economic feasibility of methane pyrolysis was evaluated by varying key parameters, that is, melt loss, melt price, and carbon revenue. Given a potassium chloride loss of <0.1 kg of salt per kg of produced carbon, the carbon revenue was calculated to be USD > 0.45 per kg of produced carbon. In this case, methane pyrolysis using molten potassium chloride may be comparable to steam methane reforming with carbon capture storage.

Topics & Concepts

MethanePyrolysisCarbon fibersChemistryInorganic chemistryHydrogenSteam reformingPotassiumCatalysisMolten saltMethane reformerChemical engineeringOrganic chemistryWaste managementHydrogen productionMaterials scienceComposite materialEngineeringComposite numberChemical Looping and Thermochemical ProcessesMolten salt chemistry and electrochemical processesCatalysts for Methane Reforming
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