Hydrogenation of bio-oil via gas-liquid two-phase discharge reaction system

Process Safety and Environmental Protection

Volumn 118, Issue , 2018, Pages 167-177

  Zhao, Weidong ^a   Zhang, Xiaoyin ^a   Huang, Jianquan ^a   Ni, Kang ^a   Wang, Junfeng ^a  

^a JIANGSU UNIVERSITY   (China)

Author keywords

Bio oil; Gas liquid two phase discharge; Hydrogenation; Non thermal plasma

Indexed keywords

CATALYSTS; FLOW OF GASES; GASES; HYDROGEN; HYDROGENATION; KETONES; LIQUIDS;

BIO OIL; HIGH HYDROGEN PRESSURE; NONTHERMAL PLASMA; NORMAL TEMPERATURE AND PRESSURES; OPERATING TEMPERATURE; ORTHOGONAL EXPERIMENT; SINGLE-FACTOR EXPERIMENTS; TWO PHASE;

BIOFUELS;

EID: 85049480883     PISSN: 09575820     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.psep.2018.03.035     Document Type: Article

References (28)

1. Alkawareek, M.Y., Algwari, Q.T., Laverty, G., et al. Eradication of pseudomonas aeruginosa biofilms by atmospheric pressure non-thermal plasma. PLoS One, 7(8), 2012, 1036.
2. Chen, J.H., Liang, L.U., Wang, S.R., Mild hydrogenation of simulated bio-oil based on molecular distillation. J. Fuel Chem. Technol. 45:9 (2017), 1056–1063.
3. Cherkasov, N., Jadvani, V., Mann, J., et al. Hydrogenation of bio-oil into higher alcohols over Ru/Fe3O4-SiO2 catalysts. Fuel Process. Technol. 167 (2017), 738–746.
4. Gholizadeh, M., Gunawan, R., Hu, X., et al. Effects of temperature on the hydrotreatment behaviour of pyrolysis bio-oil and coke formation in a continuous hydrotreatment reactor. Fuel Process. Technol. 148 (2016), 175–183.
5. Gholizadeh, M., Gunawan, R., Hu, X., et al. Effects of temperature on the hydrotreatment behaviour of pyrolysis bio-oil and coke formation in a continuous hydrotreatment reactor. Fuel Process. Technol. 148 (2016), 175–183.
6. Isa, K.M., Daud, S., Hamidin, N., et al. Thermogravimetric analysis and the optimisation of bio-oil yield from fixed-bed pyrolysis of rice husk using response surface methodology (RSM). Ind. Crops Prod. 33:2 (2011), 481–487.
7. Kaneko, T., Takahashi, S., Hatakeyama, R., Control of nanoparticle synthesis using physical and chemical dynamics of gas-liquid interfacial non-equilibrium plasmas. Plasma Phys. Controlled Fusion 54:12 (2012), 3145–3171.
8. Lawson, J., Baosman, A., Lawson, J.A., et al. Chemical Synthesis Methods Using Electro-Catalysis. 2010, Ecr Technologies.
9. Liu, G., Wright, M.M., Zhao, Q., et al. Catalytic fast pyrolysis of duckweed: effects of pyrolysis parameters and optimization of aromatic production. J. Anal. Appl. Pyrolysis 112 (2015), 29–36.
10. Luo, Y., Hassan, E., Guda, V., et al. Upgrading of syngas hydrotreated fractionated oxidized bio-oil to transportation grade hydrocarbons. Energy Convers. Manage. 115 (2016), 159–166.
11. Lup, A.N.K., Abnisa, F., Wan, M.A.W.D., et al. A review on reaction mechanisms of metal-catalyzed deoxygenation process in bio-oil model compounds. Appl. Catal. A Gen. 541 (2017), 87–106.
12. Mahfud, F.H., Ghijsen, F., Heeres, H.J., Hydrogenation of fast pyrolyis oil and model compounds in a two-phase aqueous organic system using homogeneous ruthenium catalysts. J. Mol. Catal. A Chem. 264:1–2 (2007), 227–236.
13. Mortensen, P.M., Grunwaldt, J.D., Jensen, P.A., et al. A review of catalytic upgrading of bio-oil to engine fuels. Appl. Catal. A Gen. 407:1-2 (2011), 1–19.
14. Mosallanejad, A., Taghvaei, H., Mirsoleimani-Azizi, S.M., et al. Plasma upgrading of 4methylanisole: a novel approach for hydrodeoxygenation of bio oil without using a hydrogen source. Chem. Eng. Rese. Des., 2017, 121.
15. Nabgan, W., Abdullah, T.A.T., Mat, R., et al. Renewable hydrogen production from bio-oil derivative via catalytic steam reforming: an overview. Renewable Sustainable Energy Rev. 79:2017 (2017), 347–357.
16. Ognier, S., Iya-sou, D., Fourmond, C., Cavadias, S., Analysis of mechanisms at the plasma–liquid interface in a gas–liquid discharge reactor used for treatment of polluted water. Plasma Chem. Plasma Process. 29 (2009), 261–273.
17. Qiu, Z., Intensification of Liquid-Liquid Contacting Processes. 2010, University of Kansas.
18. Saber, M., Nakhshiniev, B., Yoshikawa, K., A review of production and upgrading of algal bio-oil. Renew. Sustain. Energy Rev. 58:1 (2016), 918–930.
19. Shi, L., Qian, M.Y., Xiao, K.X., et al. Simulation study on hydrogen penning source discharge at low pressure. Acta Phys. Sin. 62:17 (2013), 2964–2969.
20. Wang, H., Male, J., Wang, Y., Recent advances in hydrotreating of pyrolysis bio-oil and its oxygen-containing model compounds. ACS Catal. 3:3 (2013), 1047–1070.
21. Wildschut, J., Mahfud, F.H., Venderbosch, R.H., et al. Hydrotreatment of fast pyrolysis oil using heterogeneous noble-metal catalysts. Ind. Eng. Chem. Res. 48:23 (2009), 10324–10334.
22. Xiaoyan, D.A.I., et al. Plasma selective hydrogenation of C18 acid. J. Sichuan Univ. (Eng. Sci. Ed.) 32:4 (2000), 50–52.
23. Xiu, Shuangning, Abolghasem Shahbazi bio-oil production and upgrading research: a review. Renew. Sustain. Energy Rev. 16:7 (2012), 4406–4414.
24. Yang, H.M., Zhao, W., Norinaga, K., et al. Separation of phenols and ketones from bio-oil produced from ethanolysis of wheat stalk. Sep. Purif. Technol., 2015, 152.
25. Yongxiang, Y.I.N., et al. Atmospheric pressure glow discharge plasma gas-liquid chemical reactor. Nucl. Fusion Plasma Phys., 1997, 46–49.
26. Yu, W.J., Tang, Y., Mo, L.Y., et al. One-step hydrogenation-esterification of furfural and acetic acid over bifunctional Pd catalysts for bio-oil upgrading. Bioresour. Technol. 102:17 (2011), 8241–8246.
27. Zhang, Yuchun, Yan, Jing., Zhao, Shangqian, et al. Engineering double-walled carbon nanotubes by Ar plasma. Chin. Phys. Lett. 31:8 (2014), 96–99.
28. Zhang, S., Xu, J., Cai, Q., et al. Production of aromatic hydrocarbons by hydrogenation-cocracking of bio-oil and methanol. Fuel Process. Technol., 2016, 161.