Title

Autothermal Catalytic Pyrolysis Of Methane As A New Route To Hydrogen Production With Reduced Co2 Emissions

Keywords

Autothermal pyrolysis; Carbon; Catalyst; Hydrogen; Methane

Abstract

Hydrogen production plants are among major sources of CO2 emissions into the atmosphere. The objective of this paper is to explore new routes to hydrogen production from natural gas (or methane) with drastically reduced CO2 emissions. One approach analyzed in this paper is based on thermocatalytic decomposition (or pyrolysis) of methane into hydrogen gas and elemental carbon over carbon-based catalysts. Several heat input options to the endothermic process are discussed in the paper. The authors conduct thermodynamic analysis of methane decomposition in the presence of small amounts of oxygen in an autothermal (or thermo-neutral) regime using AspenPlus™ chemical process simulator. Methane conversion, products yield, effluent gas composition, process enthalpy flows as a function of temperature, pressure and O2/CH4 ratio has been determined. CO2 emissions (per m3 of H2 produced) from the process could potentially be a factor of 3-5 less than from conventional hydrogen production processes. Oxygen-assisted decomposition of methane over activated carbon (AC) and AC-supported iron catalysts over wide range of temperatures and O2/CH4 ratios was experimentally verified. Problems associated with the catalyst deactivation and the effect of iron doping on the catalyst stability are discussed. © 2006 Elsevier B.V. All rights reserved.

Publication Date

8-15-2006

Publication Title

Catalysis Today

Volume

116

Issue

3

Number of Pages

281-288

Document Type

Article

Personal Identifier

scopus

DOI Link

https://doi.org/10.1016/j.cattod.2006.05.070

Socpus ID

33746596560 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/33746596560

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