Deposition of NiO nanoparticles on nanosized zeolite NaY for production of biofuel via yydrogen-free deoxygenation
Nickel-based catalysts play an important role in the hydrogen-free deoxygenation for the production of biofuel. The yield and quality of the biofuel are critically affected by the physicochemical properties of NiO supported on nanosized zeolite Y (Y65, crystal size of 65 nm). Therefore, 10 wt% NiO s...
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my.um.eprints.365682024-10-30T02:08:22Z http://eprints.um.edu.my/36568/ Deposition of NiO nanoparticles on nanosized zeolite NaY for production of biofuel via yydrogen-free deoxygenation Choo, Min-Yee Oi, Lee Eng Daou, T. Jean Ling, Tau Chuan Lin, Yu-Chuan Centi, Gabriele Ng, Eng-Poh Juan, Joon Ching Q Science (General) QD Chemistry Nickel-based catalysts play an important role in the hydrogen-free deoxygenation for the production of biofuel. The yield and quality of the biofuel are critically affected by the physicochemical properties of NiO supported on nanosized zeolite Y (Y65, crystal size of 65 nm). Therefore, 10 wt% NiO supported on Y65 synthesized by using impregnation (IM) and deposition-precipitation (DP) methods were investigated. It was found that preparation methods have a significant effect on the deoxygenation of triolein. The initial rate of the DP method (14.8 g(oil)center dot h(-1)) was 1.5 times higher than that of the IM method (9.6 g(oil)center dot h(-1)). The DP-Y65 showed the best deoxygenation performance with a 80.0% conversion and a diesel selectivity of 93.7% at 380 degrees C within 1 h. The outstanding performance from the DP method was due to the smaller NiO particle size (3.57 +/- 0.40 nm), high accessibility (H.F value of 0.084), and a higher Bronsted to Lewis acidity (B/L) ratio (0.29), which has improved the accessibility and deoxygenation ability of the catalyst. The NH(4)(+)released from the decomposition of the urea during the DP process increased the B/L ratio of zeolite NaY. As a result, the pretreatment to convert Na-zeolite to H-zeolite in a conventional zeolite synthesis can be avoided. In this regard, the DP method offers a one-pot synthesis to produce smaller NiO-supported nanosized zeolite NaY with a high B/L ratio, and it managed to produce a higher yield with selectivity towards green dieselviadeoxygenation under a hydrogen-free condition. MDPI 2020-07 Article PeerReviewed Choo, Min-Yee and Oi, Lee Eng and Daou, T. Jean and Ling, Tau Chuan and Lin, Yu-Chuan and Centi, Gabriele and Ng, Eng-Poh and Juan, Joon Ching (2020) Deposition of NiO nanoparticles on nanosized zeolite NaY for production of biofuel via yydrogen-free deoxygenation. Materials, 13 (14). ISSN 19961944, DOI https://doi.org/10.3390/ma13143104 <https://doi.org/10.3390/ma13143104>. 10.3390/ma13143104 |
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Q Science (General) QD Chemistry Choo, Min-Yee Oi, Lee Eng Daou, T. Jean Ling, Tau Chuan Lin, Yu-Chuan Centi, Gabriele Ng, Eng-Poh Juan, Joon Ching Deposition of NiO nanoparticles on nanosized zeolite NaY for production of biofuel via yydrogen-free deoxygenation |
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Nickel-based catalysts play an important role in the hydrogen-free deoxygenation for the production of biofuel. The yield and quality of the biofuel are critically affected by the physicochemical properties of NiO supported on nanosized zeolite Y (Y65, crystal size of 65 nm). Therefore, 10 wt% NiO supported on Y65 synthesized by using impregnation (IM) and deposition-precipitation (DP) methods were investigated. It was found that preparation methods have a significant effect on the deoxygenation of triolein. The initial rate of the DP method (14.8 g(oil)center dot h(-1)) was 1.5 times higher than that of the IM method (9.6 g(oil)center dot h(-1)). The DP-Y65 showed the best deoxygenation performance with a 80.0% conversion and a diesel selectivity of 93.7% at 380 degrees C within 1 h. The outstanding performance from the DP method was due to the smaller NiO particle size (3.57 +/- 0.40 nm), high accessibility (H.F value of 0.084), and a higher Bronsted to Lewis acidity (B/L) ratio (0.29), which has improved the accessibility and deoxygenation ability of the catalyst. The NH(4)(+)released from the decomposition of the urea during the DP process increased the B/L ratio of zeolite NaY. As a result, the pretreatment to convert Na-zeolite to H-zeolite in a conventional zeolite synthesis can be avoided. In this regard, the DP method offers a one-pot synthesis to produce smaller NiO-supported nanosized zeolite NaY with a high B/L ratio, and it managed to produce a higher yield with selectivity towards green dieselviadeoxygenation under a hydrogen-free condition. |
| format |
Article |
| author |
Choo, Min-Yee Oi, Lee Eng Daou, T. Jean Ling, Tau Chuan Lin, Yu-Chuan Centi, Gabriele Ng, Eng-Poh Juan, Joon Ching |
| author_facet |
Choo, Min-Yee Oi, Lee Eng Daou, T. Jean Ling, Tau Chuan Lin, Yu-Chuan Centi, Gabriele Ng, Eng-Poh Juan, Joon Ching |
| author_sort |
Choo, Min-Yee |
| title |
Deposition of NiO nanoparticles on nanosized zeolite NaY for production of biofuel via yydrogen-free deoxygenation |
| title_short |
Deposition of NiO nanoparticles on nanosized zeolite NaY for production of biofuel via yydrogen-free deoxygenation |
| title_full |
Deposition of NiO nanoparticles on nanosized zeolite NaY for production of biofuel via yydrogen-free deoxygenation |
| title_fullStr |
Deposition of NiO nanoparticles on nanosized zeolite NaY for production of biofuel via yydrogen-free deoxygenation |
| title_full_unstemmed |
Deposition of NiO nanoparticles on nanosized zeolite NaY for production of biofuel via yydrogen-free deoxygenation |
| title_sort |
deposition of nio nanoparticles on nanosized zeolite nay for production of biofuel via yydrogen-free deoxygenation |
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MDPI |
| publishDate |
2020 |
| url |
http://eprints.um.edu.my/36568/ |
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1814933200835706880 |