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- Title
Methanol Conversion to Hydrocarbons (MTH) Over H-ITQ-13 (ITH) Zeolite.
- Authors
Skistad, Wegard; Teketel, Shewangizaw; Bleken, Francesca; Beato, Pablo; Bordiga, Silvia; Nilsen, Merete; Olsbye, Unni; Svelle, Stian; Lillerud, Karl
- Abstract
Product flexibility is key to meeting fluctuating chemicals demands in the future. In this contribution, the methanol to hydrocarbons (MTH) reaction was investigated over two Ge-containing H-ITQ-13 samples, one with needle-like (H-ITQ-13(N), with (Si+Ge)/Al) = 42) and another with plate-like (H-ITQ-13(P), with (Si+Ge)/Al > 100) morphology. The samples were characterised using XRD, BET, SEM/EDS and FTIR spectroscopy, and their MTH performance was compared with the performance of H-ZSM-5 and H-ZSM-22. Similar specific surface areas (413 and 455 m g for H-ITQ-13(N) and (P), respectively) and similar acid strength (Δν ~ −327(−310) cm) was observed for the two H-ITQ-13 samples. Testing of H-ITQ-13(N) at weight hourly space velocity (WHSV) = 2-8 h at 350-450 °C revealed that C alkenes were the main products (35-45 % selectivity at 400 °C), followed by propene and butene. A low but significant selectivity for aromatic products was observed (6-8 % selectivity at 400 °C). Product selectivity was found to be independent of deactivation. The methanol conversion capacity of H-ITQ-13(N) was 120-150 g methanol g catalyst at 400 °C. Testing H-ITQ-13 at high (30 atm) and ambient pressure, respectively, at 350 °C showed that a high pressure led to enhanced C selectivity, but close to a tenfold decrease in methanol conversion capacity. H-ITQ-13(P) was tested at 400 °C and 2 h. It gave lower conversion than H-ITQ-13(N). Furthermore, when compared at the same conversion level, H-ITQ-13(P) gave higher C alkene selectivity, lower aromatics selectivity, and a higher propene to ethene ratio than H-ITQ-13(N). The H-ITQ-13 samples yielded a product spectrum intermediate of H-ZSM-22 and H-ZSM-5. The effluent product cut-off of H-ITQ-13 was similar to that of H-ZSM-5 with tetramethylbenzene as the largest significant product, while H-ZSM-22 produced mainly linear and branched alkenes. The lifetime of H-ITQ-13(N) was clearly enhanced compared to H-ZSM-22, but inferior to H-ZSM-5.
- Subjects
METHANOL; HYDROCARBONS; ZEOLITES; ENERGY conversion; ENERGY consumption; CHEMICAL reactions; GERMANIUM; FOURIER transform infrared spectroscopy
- Publication
Topics in Catalysis, 2014, Vol 57, Issue 1-4, p143
- ISSN
1022-5528
- Publication type
Article
- DOI
10.1007/s11244-013-0170-7