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Cellulose
Erschienen in: Cellulose 15/2019

22.07.2019 | Original Research

Effect of nickel loading approaches on the structure and hydrodeoxygenation performance of Ni/Al-SBA-15

verfasst von: Xiangping Li, Juping Liu, Jianguang Zhang, Bin Liu, Wenchao Ma, Chuanbin Wang, Guanyi Chen

Erschienen in: Cellulose | Ausgabe 15/2019

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Abstract

Lignocellulosic biomass-derived bio-oil is considered as a promising renewable biofuel. In this paper, incipient wetness impregnation method, ammonia grafting method and direct synthesis method were employed as nickel loading methods for the preparation of Ni/Al-SBA-15 catalysts. The effects of these nickel loading approaches on the structure and hydrodeoxygenation performance of Ni/Al-SBA-15 were studied. The structure of Ni/Al-SBA-15 was significantly influenced by the nickel loading methods, including the specific surface area, the pore volume, the wall thickness and so on. Nickel loading methods also affected the actual nickel content of nickel-based catalysts. Unsuccessful loading of nickel species was observed during the preparation of Ni/Al-SBA-15 using direct synthesis method. The conversion of eugenol and selectivity of products after hydrodeoxygenation in n-dodecane over Ni/Al-SBA-15 catalysts were investigated. Results showed that the conversion of eugenol nearly reached 100% for all the reaction, but the composition of product was significantly different when using different Ni/Al-SBA-15 as hydrodeoxygenation catalyst. The reaction pathway of eugenol hydrodeoxygenation in n-dodecane was also speculated in this paper.

Graphic Abstract

Effects of nickel loading approaches on the structure and hydrodeoxygenation performance of Ni/Al-SBA-15 were investigated. For the liquid phase hydrodeoxygenation of eugenol to hydrocarbon, catalysts prepared by ammonia grafting method exhibited the highest catalytic activity.
Vorheriger Artikel Ce modified Cu/Zn/Al catalysts for direct liquefaction of microcrystalline cellulose in supercritical methanol
Nächster Artikel A kinetic study on the hydrolysis of corncob residues to levulinic acid in the FeCl3–NaCl system

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Literatur
Ahmad MM, Fitrir M, Nordin R, Azizan MT (2010) Upgrading of bio-oil into high-value hydrocarbons via hydrodeoxygenation. Am J Appl Sci 7:746–755CrossRef
Andrei RD, Popa MI, Fajula F, Hulea V (2015) Heterogeneous oligomerization of ethylene over highly active and stable Ni-AlSBA-15 mesoporous catalysts. J Catal 323:76–84CrossRef
Avhad MR, Osborg MV, Marchetti JM (2019) Reusable Amberlyst 16 catalyst for acetic acid esterification relevant for pyrolysis bio-oil upgrading process. React Kinet Mech Catal 126:181–197CrossRef
Babu BH, Lee M, Dong WH, Kim YM, Chae HJ (2016) An integrated process for production of jet-fuel range olefins from ethylene using Ni-AlSBA-15 and Amberlyst-35 catalysts. Appl Catal A 530:48–55CrossRef
Baldwin RM, Feik CJ (2013) Bio-oil stabilization and upgrading by hot gas filtration. Energy Fuels 27:3224–3238CrossRef
Chen H, Wang Q, Zhang X, Wang L (2015) Effect of support on the NiMo phase and its catalytic hydrodeoxygenation of triglycerides. Fuel 159:430–435CrossRef
Chen G, Zhang R, Ma W, Liu B, Li X, Yan B, Cheng Z, Wang T (2018a) Catalytic cracking of model compounds of bio-oil over HZSM-5 and the catalyst deactivation. Sci Total Environ 631–632:1611–1622CrossRef
Chen S, Miao C, Luo Y, Zhou G, Xiong K, Jiao Z, Zhang X (2018b) Study of catalytic hydrodeoxygenation performance of Ni catalysts: effects of prepared method. Renewable Energy 115:1109–1117CrossRef
Chen S, Zhou G, Miao C (2019) Green and renewable bio-diesel produce from oil hydrodeoxygenation: strategies for catalyst development and mechanism. Renew Sustain Energy Rev 101:568–589CrossRef
Das SK, Bhunia MK, Bhaumik A (2010) Highly ordered Ti-SBA-15: efficient H2 adsorbent and photocatalyst for eco-toxic dye degradation. J Solid State Chem 183:1326–1333CrossRef
Dido CA, Caneppele CDG, Schneid AC, Pereira MB, Costa TMH, Benvenutti EV (2018) Small gold nanoparticles with narrow size distribution achieved in SBA-15 pores by using ionic silsesquioxane instead of thiol group as stabilizer and adhesion agent. Microporous Mesoporous Mater 270:48–56CrossRef
Frey AS, Hinrichsen O (2012) Comparison of differently synthesized Ni(Al)MCM-48 catalysts in the ethene to propene reaction. Microporous Mesoporous Mater 164:164–171CrossRef
Hellinger M, Carvalho HWP, Baier S, Wang D, Kleist W, Grunwaldt JD (2015) Catalytic hydrodeoxygenation of guaiacol over platinum supported on metal oxides and zeolites. Appl Catal A 490:181–192CrossRef
Hu ZP, Weng CC, Chen C, Yuan ZY (2018) Catalytic decomposition of ammonia to COx-free hydrogen over Ni/ZSM-5 catalysts: a comparative study of the preparation methods. Appl Catal A 562:49–57CrossRef
Jiang X, Zhou J, Zhao J, Shen D (2018) Catalytic conversion of guaiacol as a model compound for aromatic hydrocarbon production. Biomass Bioenerg 111:343–351CrossRef
Jongerius AL, Jastrzebski R, Bruijnincx PCA, Weckhuysen BM (2012) CoMo sulfide-catalyzed hydrodeoxygenation of lignin model compounds: an extended reaction network for the conversion of monomeric and dimeric substrates. J Catal 285:315–323CrossRef
Kim TS, Oh S, Kim JY, Choi IG, Choi JW (2014) Study on the hydrodeoxygenative upgrading of crude bio-oil produced from woody biomass by fast pyrolysis. Energy 68:437–443CrossRef
Kosslick H, Lischke G, Walther G, Storek W, Martin A, Fricke R (1997) Physico-chemical and catalytic properties of Al-, Ga- and Fe-substituted mesoporous materials related to MCM-41. Microporous Mater 9:13–33CrossRef
Kumar D, Pillai KT, Sudersanan V, Dey GK, Gupta NM (2003) Hydrothermal synthesis and characterization of uranium-containing MCM-48 samples. Chem Mater 15:3859–3865CrossRef
Li X, Xing J, Zhou M, Zhang H, Huang H, Zhang C, Song L, Li X (2014) Influence of crystal size of HZSM-5 on hydrodeoxygenation of eugenol in aqueous phase. Catal Commun 56:123–127CrossRef
Li X, Chen G, Liu C, Ma W, Yan B, Zhang J (2017) Hydrodeoxygenation of lignin-derived bio-oil using molecular sieves supported metal catalysts: a critical review. Renew Sustain Energy Rev 71:296–308CrossRef
Li X, Zhang J, Liu B, Liu J, Wang C, Chen G (2019) Hydrodeoxygenation of lignin-derived phenols to produce hydrocarbons over Ni/Al-SBA-15 prepared with different impregnants. Fuel 243:314–321CrossRef
Lin S, Shi L, Ribeiro Carrott MML, Carrott PJM, Rocha J, Li MR, Zou XD (2011) Direct synthesis without addition of acid of Al-SBA-15 with controllable porosity and high hydrothermal stability. Microporous Mesoporous Mater 142:526–534CrossRef
Lin S, Shi L, Zhang H, Zhang N, Yi X, Zheng A, Li X (2014) Tuning the pore structure of plug-containing Al-SBA-15 by post-treatment and its selectivity for C 16 olefin in ethylene oligomerization. Microporous Mesoporous Mater 184:151–161CrossRef
Lin Z, Wan W, Yao S, Chen JG (2018) Cobalt-modified molybdenum carbide as a selective catalyst for hydrodeoxygenation of furfural. Appl Catal B Environ 233:160–166CrossRef
Liu BS, Xu DF, Chu JX, Liu W, Au CT (2006) Deep desulfurization by the adsorption process of fluidized catalytic cracking (FCC) diesel over mesoporous Al − MCM-41 materials. Energy Fuels 21:250–255CrossRef
Liu X, Jiang Z, Feng S, Zhang H, Li J, Hu C (2019) Catalytic depolymerization of organosolv lignin to phenolic monomers and low molecular weight oligomers. Fuel 244:247–257CrossRef
Lu B, Ju Y, Abe T, Kawamoto K (2015) Grafting Ni particles onto SBA-15, and their enhanced performance for CO2 methanation. RSC Adv 5:56444–56454CrossRef
Luan Zhaohua, Hartmann Martin, Zhao Dongyuan, Wuzong Zhou A, Kevan Larry (1999) Alumination and ion exchange of mesoporous SBA-15 molecular sieves. Chem Mater 11:1621–1627CrossRef
Mortensen PM, Grunwaldt JD, Jensen PA, Jensen AD (2013) Screening of catalysts for hydrodeoxygenation of phenol as a model compound for bio-oil. ACS Catal 3:1774–1785CrossRef
Nan W, Krishna CR, Kim TJ, Wang LJ, Mahajan D (2014) Catalytic upgrading of switchgrass-derived pyrolysis oil using supported ruthenium and rhodium catalysts. Energy Fuels 28:4588–4595CrossRef
Neeli CKP, Narani A, Marella RK, Rao KSR, Burri DR (2013) Selective benzylic oxidation of alkylaromatics over Cu/SBA-15 catalysts under solvent-free conditions. Catal Commun 39:5–9CrossRef
Obalı Z, Sezgi NA, Doğu T (2011) The synthesis and characterization of aluminum loaded SBA-type materials as catalyst for polypropylene degradation reaction. Chem Eng J 176:202–210CrossRef
Olcese RN, Bettahar M, Petitjean D, Malaman B, Giovanella F, Dufour A (2012) Gas-phase hydrodeoxygenation of guaiacol over Fe/SiO2 catalyst. Appl Catal B 115–116:63–73CrossRef
Ozagac M, Bertino-Ghera C, Uzio D, Rivallan M, Laurenti D, Geantet C (2016) Impact of guaiacol on the formation of undesired macromolecules during catalytic hydroconversion of bio-oil: a model compounds study. Biomass Bioenerg 95:194–205CrossRef
Pandurangan A, Pichaikaran S (2016) Vapor phase hydrodeoxygenation of anisole over ruthenium and nickel supported mesoporous aluminosilicate. Green Chem 18:2888–2899CrossRef
Quan B, Lei H, Zacher AH, Lu W, Ren S, Jing L, Yi W, Liu Y, Tang J, Qin Z (2012) A review of catalytic hydrodeoxygenation of lignin-derived phenols from biomass pyrolysis. Biores Technol 124:470–477CrossRef
Ren R, Ma J (2015) Lamellar Ni/Al-SBA-15 fibers: preparation, characterization, and applications as highly efficient catalysts for amine and imine syntheses. RSC Adv 5:74802–74810CrossRef
Robinson AM, Ferguson GA, Gallagher JR, Cheah S, Beckham GT, Schaidle JA, Hensley JE, Medlin JW (2016) Enhanced hydrodeoxygenation of m-cresol over bimetallic Pt–Mo catalysts through an oxophilic metal-induced tautomerization pathway. ACS Catal 6:4356–4368CrossRef
Sankaranarayanan TM, Berenguer A, Ochoa-Hernández C, Moreno I, Jana P, Coronado JM, Serrano DP, Pizarro P (2015) Hydrodeoxygenation of anisole as bio-oil model compound over supported Ni and Co catalysts: effect of metal and support properties. Catal Today 243:163–172CrossRef
Si Z, Zhang X, Wang C, Ma L, Dong R (2017) An overview on catalytic hydrodeoxygenation of pyrolysis oil and its model compounds. Catalysts 7:1–22CrossRef
Subhan F, Liu BS, Zhang Y, Li XG (2012) High desulfurization characteristic of lanthanum loaded mesoporous MCM-41 sorbents for diesel fuel. Fuel Process Technol 97:71–78CrossRef
Ungureanu A, Dragoi B, Solinas V, Dumitriu E, Hulea V, Cacciaguerra T, Meloni D (2012) Effect of aluminium incorporation by the “pH-adjusting” method on the structural, acidic and catalytic properties of mesoporous SBA-15. Microporous Mesoporous Mater 163:51–64CrossRef
Verma AM, Agrawal K, Kishore N (2018) Binding of phenolic model compounds with noble metal doped graphene sheets. Comput Theor Chem 1134:37–46CrossRef
Wang W, Li L, Wu K, Zhang K, Jie J, Yang Y (2015) Preparation of Ni–Mo–S catalysts by hydrothermal method and their hydrodeoxygenation properties. Appl Catal A 495:8–16CrossRef
Wang GH, Cao Z, Gu D, Pfänder N, Swertz AC, Spliethoff B, Bongard HJ, Weidenthaler C, Schmidt W, Rinaldi R (2016) Nitrogen-doped ordered mesoporous carbon supported bimetallic PtCo nanoparticles for upgrading of biophenolics. Angew Chem 55:8850–8855CrossRef
Xu JM, Jiang JC, Sun YJ, Lu YJ (2008) Bio-oil upgrading by means of ethyl ester production in reactive distillation to remove water and to improve storage and fuel characteristics. Biomass Bioenerg 32:1056–1061CrossRef
Yao G, Wu G, Dai W, Guan N, Li L (2015) Hydrodeoxygenation of lignin-derived phenolic compounds over bi-functional Ru/H-beta under mild conditions. Fuel 150:175–183CrossRef
Yliniemi K, Nhat Truong N, Mohajernia S, Liu N, Wilson BP, Schmuki P, Lundstrom M (2018) A direct synthesis of platinum/nickel co-catalysts on titanium dioxide nanotube surface from hydrometallurgical-type process streams. J Clean Prod 201:39–48CrossRef
Yu MJ, Park SH, Jeon JK, Ryu C, Sohn JM, Kim SC, Park YK (2015) Hydrodeoxygenation of guaiacol over Pt/Al-SBA-15 catalysts. J Nanosci Nanotechnol 15:527–531CrossRef
Zeng S, Blanchard J, Breysse M, Shi Y, Shu X, Nie H, Li D (2005) Post-synthesis alumination of SBA15 in aqueous solution: a versatile tool for the preparation of acidic Al-SBA15 supports. Microporous Mesoporous Mater 85:297–304CrossRef
Zhang Y, Frank LYL, Yan Z, Hu X (2010) Mechanism of forming an ink-bottle-like pore structure based on SBA-15 by a novel MOCVD technique. Chin Sci Bull 55:446–451CrossRef
Zhao C, Lercher JA (2012) Upgrading pyrolysis oil over Ni/HZSM-5 by cascade reactions. Angew Chem 124:6037–6042CrossRef
Zhuang XJ, Xia QN, Wang YQ, Tsang SCE, Gong XQ (2016) Hydrodeoxygenation of butyric acid at multi-functional Nb2O5 catalyst: a density functional theory study. Int J Hydrogen Energy 41:18502–18508CrossRef
Metadaten
Titel
Effect of nickel loading approaches on the structure and hydrodeoxygenation performance of Ni/Al-SBA-15
verfasst von
Xiangping Li
Juping Liu
Jianguang Zhang
Bin Liu
Wenchao Ma
Chuanbin Wang
Guanyi Chen
Publikationsdatum
22.07.2019
Verlag
Springer Netherlands
Erschienen in
Cellulose / Ausgabe 15/2019
Print ISSN: 0969-0239
Elektronische ISSN: 1572-882X
DOI
https://doi.org/10.1007/s10570-019-02636-1

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