In this paper, high active Ni-based catalysts for methanedecomposition were designed and prepared according to the growth mechanism of carbon filaments.
本文根据甲烷裂解过程中碳纤维的生长机理,设计并制备了具有高活性的纳米镍基催化剂。
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Thermal plasma which has high temperature and high enthalpy was used to study carbon dioxide decomposition, methanedecomposition and carbon dioxide reforming of methane.
Activated carbon (AC), carbon black (CB) and carbon nanotube (CNT) was employed to catalyze methanedecomposition to produce COx-free hydrogen and solid carbon in a fluidized-bed reactor.