We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
Engineering evaluation of direct methane to methanol conversion.
- Authors
Klerk, Arno
- Abstract
Investigations into direct methane to methanol conversion are justified based on the avoidance of synthesis gas generation, which accounts for around 60% of the capital cost of synthesis gas to methanol conversion. A significant body of information already exists on the process chemistry, but little has been reported on the engineering of such a process. An engineering evaluation of the process was performed and the potential of this process as a platform technology for small-scale gas-to-liquids ( GTL) applications was evaluated. It was found that direct methane to methanol conversion had 35% carbon efficiency and 28% thermal efficiency, which were about half of the process efficiencies of indirect methanol synthesis using synthesis gas. The poor process efficiency was mainly a consequence of the irreversible loss of carbon to CO x during conversion. The direct methane to methanol process also required an air separation unit, which eroded the stated benefit of avoiding a synthesis gas generation step in the process. The utility footprint was typical of GTL processes, with large gas compression duties and cooling duties. Overall, the engineering evaluation indicated there was no benefit to employ direct methane to methanol conversion instead of indirect methanol synthesis (the industry standard), and there was no specific benefit of direct methane to methanol conversion, irrespective of scale, for GTL applications.
- Subjects
METHANE synthesis; PRODUCTION engineering; CAPITAL costs; SYNTHESIS gas; METHANE industry
- Publication
Energy Science & Engineering, 2015, Vol 3, Issue 1, p60
- ISSN
2050-0505
- Publication type
Article
- DOI
10.1002/ese3.51