(434h) Direct Coupling of Bromine-Mediated Methane Activation and Coal Gasification: Albr3 Assisted Conversion of Methyl Bromide to Light Hydrocarbons and Quantitative Catalyst Regeneration
AIChE Annual Meeting
2006
2006 Annual Meeting
Catalysis and Reaction Engineering Division
Catalytic Fuel Processing
Wednesday, November 15, 2006 - 5:27pm to 5:45pm
Bromine mediated methane activation has been proposed as a possible route to large scale hydrocarbon production from methane but suffers from long-term catalyst instability and corrosion problems associated with methyl bromide, free bromine and hydrogen bromide [1] The process could in principle make extensive use of the selective mono-bromination of methane (>99 %) as discovered by G. Olah in 1985 [2] and may use methyl bromide as a first intermediate before conversion to higher hydrocarbons (see below).
In order to overcome these limitations, we have investigated the use of a completely oxide, oxygen or water free system as to reduce chemical transport of oxide catalysts and corrosion. Catalyst instability was inherently removed by applying a homogeneous alternative, AlBr3. This highly active system allowed conversion of methyl bromide at very low temperature (180 to 210 °C) enabling the broader use of fluorocarbons for reactor lining and overcomes the corrosion problem. The absence of any oxide catalysts removes chemical transport of partially volatile constituents, re-deposition and deactivation. Volatile aluminium bromide is fully stable can be fully regenerated.
The inherent formation of carbonaceous deposits during conversion of methylen equivalents (CH3Br = -CH2- + HBr; also MeOH) was integrated into the process by direct conversion of the deposits into the desired range of products. The process therefore avoids carbon loss due to coke burn-off and results in competitive product yields [3].
The results are discussed in terms of possible large-scale implementation and estimated energy requirements.
References:
[1] I. Lorkovic, M. Noy, M. Weiss, J. Sherman, E. McFarland, G.D. Stucky, P.C. Ford,C1 Coupling via bromine activation and tandem catalytic condensation and neutralization over CaO/zeolite composites, Chem. Commun. 2004, 566 ? 567.
[2] G. A. Olah, B. Gupta, M. Farina, J. D. Feldberg, W. M. Ip, A. husain, R. Karpeles, K. Lammertsma, A. K. Melhotra, N. J. Trivedi, Journal of the American Chemical society 1985, 107, 7097.
[3] Neil Osterwalder and Wendelin J. Stark, European Patent Application EP 06 005 927.6 and US provisional application 2006.