2007
DOI: 10.1016/j.cattod.2007.02.023
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A novel method for enhancing on-stream stability of fluid catalytic cracking (FCC) gasoline hydro-upgrading catalyst: Post-treatment of HZSM-5 zeolite by combined steaming and citric acid leaching

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Cited by 51 publications
(31 citation statements)
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“…This result indicates that grafting with TMCS has small effect on the total amount of Brønsted acid and Lewis acid, but changes their distribution on the surface. However, by-product HCl generated from reacting TMCS with OH groups dissolve in absolute ether to form HCl solution, which leads to the leaching of extraframework aluminum [42][43][44]. It is identified from the change of peak intensity at 27 ppm in 27 Al MAS NMR spectra that most of the pentacoordinated nonframework Al are removed after trimethylsilylation which result in sharply decrease of the total Lewis acid.…”
Section: Samplementioning
confidence: 95%
“…This result indicates that grafting with TMCS has small effect on the total amount of Brønsted acid and Lewis acid, but changes their distribution on the surface. However, by-product HCl generated from reacting TMCS with OH groups dissolve in absolute ether to form HCl solution, which leads to the leaching of extraframework aluminum [42][43][44]. It is identified from the change of peak intensity at 27 ppm in 27 Al MAS NMR spectra that most of the pentacoordinated nonframework Al are removed after trimethylsilylation which result in sharply decrease of the total Lewis acid.…”
Section: Samplementioning
confidence: 95%
“…It is reported that acid property of the catalyst is one of the crucial factors determining the catalytic performance in the hydrocracking of paraffin wax [38,39]. Therefore, some attempts have been made to correlate the acid property with hydrocracking activity of Pd/SA-X catalysts.…”
Section: Effect Of Acid Property On the Catalytic Performancementioning
confidence: 99%
“…As presented in Figure 5, the NH 3 -desorption profile exhibits a broad band at the range of 313-873 K. H-ZSM-5 exhibits two desorption peaks at about 400 and 683 K, corresponding to the weak acidic sites and strong acidic sites, respectively [31]. With the ion exchange of Fe(NO 3 ) 3 , the low-temperature peak migrates to lower temperature, suggesting that the acid strength become weaker probably because of the weaker acidity of Fe-OH-Si [32], and the amount weak acidic sites for Fe/ZSM-5 decrease with ferric species incorporation into the ZSM-5 framework [33]. Both H-ZSM-5-ST and Fe/ZSM-5-ST samples show much less acid amounts than samples without water steam treatment in Table 3, due to the serious dealumination of zeolite framework [34].…”
Section: Catalysts Aciditymentioning
confidence: 99%
“…Catalysts 2017, 7, x FOR PEER REVIEW 6 of 15 lower temperature, suggesting that the acid strength become weaker probably because of the weaker acidity of Fe-OH-Si [32], and the amount weak acidic sites for Fe/ZSM-5 decrease with ferric species incorporation into the ZSM-5 framework [33]. Both H-ZSM-5-ST and Fe/ZSM-5-ST samples show much less acid amounts than samples without water steam treatment in Table 3, due to the serious dealumination of zeolite framework [34].…”
Section: Catalysts Aciditymentioning
confidence: 99%