Sustainability 2022 , 14 , 4669
16of 18
10. Panda, S.N.; Biswal, S.K. De-Inking of ONP Paper by using Different Surfactants: In Dissolved Air Flotation Process. Int. J. Recent Technol. Eng. 2020 , 8 , 4609–4613. [CrossRef] 11. Arenales Rivera, J.; P é rezL ó pez, V.; Ramos Casado, R.; S á nchezHerv á s, J.M. Thermal degradation of paper industry wastes from a recovered paper mill using TGA. Characterization and gasification test. Waste Manag. 2016 , 47 , 225–235. [CrossRef] 12. European Paper Recycling Council. Monitoring Report 2019: European Declaration on Paper Recycling 2016–2020 ; 20AD; European Paper Recycling Council: Brussels, Belgium, 2019. 13. Blanco, A.; Negro, C.; Fuente, E.; S á nchez, L.M.; Blanco, A. Alternative use of deinking sludge as a source of fibers in fiber-cement manufacture. Cellul. Chem. Technol. 2008 , 42 , 89–95. 14. Likon, M.; Trebše, P. Recent Advances in Paper Mill Sludge Management. In Industrial Waste ; InTech Open: London, UK, 2012. [CrossRef] 15. European Commission Environmental. Economic and Social Impacts of the Use of Sewage Sludge on Land ; Consultation Rep. Op-tions Impacts, Report by RPA. Milieu Ltd WRc European Commission DG Environmental under Study Contract DG ENV.G.4/ETU/2008/0076r; European Commission Environmental: Brussels, Belgium, 2009; pp. 1–20. 16. Khanh Nguyen, V.; Kumar Chaudhary, D.; Hari Dahal, R.; Hoang Trinh, N.; Kim, J.; Chang, S.W.; Hong, Y.; Duc La, D.; Nguyen, X.C.; Hao Ngo, H.; et al. Review on pretreatment techniques to improve anaerobic digestion of sewage sludge. Fuel 2021 , 285 , 119105. [CrossRef] 17. Fericelli, P.D. Comparison of sludge treatment by gasification vs. incineration. In Proceedings of the Ninth LACCEI Latin American and Caribbean Conference, Medellin, Colombia, 3–5 August 2011; pp. 1–10. 18. Yaqoob, H.; Teoh, Y.H.; Jamil, M.A.; Gulzar, M. Potential of tire pyrolysis oil as an alternate fuel for diesel engines: A review. J. Energy Inst. 2021 , 96 , 205–221. [CrossRef] 19. Ayanog˘lu, A.; Yumrutas¸, R. Production of gasoline and diesel like fuels from waste tire oil by using catalytic pyrolysis. Energy 2016 , 103 , 456–468. [CrossRef] 20. Lupa, C.J.; Ricketts, L.J.; Sweetman, A.; Herbert, B.M.J. The use of commercial and industrial waste in energy recovery systems—A UK preliminary study. Waste Manag. 2011 , 31 , 1759–1764. [CrossRef] [PubMed] 21. Mart í nez, E.J.; Sotres, A.; Arenas, C.B.; Blanco, D.; Mart í nez,O.;G ó mez, X. Improving Anaerobic Digestion of Sewage Sludge by Hydrogen Addition: Analysis of Microbial Populations and Process Performance. Energies 2019 , 12 , 1228. [CrossRef] 22. Seggiani, M.; Vitolo, S.; Puccini, M.; Bellini, A. Cogasification of sewage sludge in an updraft gasifier. Fuel 2012 , 93 , 486–491. [CrossRef] 23. Jeong, Y.S.; Choi, Y.K.; Park, K.B.; Kim, J.S. Air co-gasification of coal and dried sewage sludge in a two-stage gasifier: Effect of blending ratio on the producer gas composition and tar removal. Energy 2019 , 185 , 708–716. [CrossRef] 24. Abdelrahim, A.; Brachi, P.; Ruoppolo, G.; Di Fraia, S.; Vanoli, L. Experimental and Numerical Investigation of Biosolid Gasi- fication: Equilibrium-Based Modeling with Emphasis on the Effects of Different Pretreatment Methods. Ind. Eng. Chem. Res. 2020 , 59 , 299–307. [CrossRef] 25. DeAndr é s, J.M.; Vedrenne, M.; Brambilla, M.; Rodr í guez, E. Modeling and model performance evaluation of sewage sludge gasification in fluidized-bed gasifiers using Aspen Plus. J. Air Waste Manag. Assoc. 2019 , 69 , 23–33. [CrossRef] [PubMed] 26. Leibbrandt, N.H.; Knoetze, J.H.; Görgens, J.F. Comparing biological and thermochemical processing of sugarcane bagasse: An energy balance perspective. Biomass Bioenergy 2011 , 35 , 2117–2126. [CrossRef] 27. Thomsen, T.P.; S á rossy, Z.; Gøbel, B.; Stoholm, P.; Ahrenfeldt, J.; Frandsen, F.J.; Henriksen, U.B. Low temperature circulating fluidized bed gasification and co-gasification of municipal sewage sludge. Part 1: Process performance and gas product characterization. Waste Manag. 2017 , 66 , 123–133. [CrossRef] 28. Mehrpooya, M.; Khalili, M.; Mehdi, M.; Sharifzadeh, M. Model development and energy and exergy analysis of the biomass gasification process (Based on the various biomass sources). Renew. Sustain. Energy Rev. 2018 , 91 , 869–887. [CrossRef] 29. Porpatham, E.; Ramesh, A.; Nagalingam, B. Effect of compression ratio on the performance and combustion of a biogas fuelled spark ignition engine. Fuel 2012 , 95 , 247–256. [CrossRef] 30. Costa, M.; Buono, A.; Caputo, C.; Carotenuto, A.; Cirillo, D.; Costagliola, M.A.; Di Blasio, G.; La Villetta, M.; Macaluso, A.; Martoriello, G.; et al. The “INNOVARE” project: Innovative plants for distributed poly-generation by residual biomass. Energies 2020 , 13 , 4020. [CrossRef] 31. Gao, N.; Kamran, K.; Quan, C.; Williams, P.T. Thermochemical conversion of sewage sludge: A critical review. Prog. Energy Combust. Sci. 2020 , 79 , 100843. [CrossRef] 32. Werle, S. Gasification of a dried sewage sludge in a laboratory scale fixed bed reactor. Energies 2015 , 8 , 8562–8572. [CrossRef] 33. DeAndr é s, J.M.; Narros, A.; Rodr í guez, M.E. Air-steam gasification of sewage sludge in a bubbling bed reactor: Effect of alumina as a primary catalyst. Fuel Process. Technol. 2011 , 92 , 433–440. [CrossRef] 34. Ouadi, M.; Brammer, J.G.; Kay, M.; Hornung, A. Fixed bed downdraft gasification of paper industry wastes. Appl. Energy 2013 , 103 , 692–699. [CrossRef] 35. Chen, Y.H.; Lan Thao Ngo, T.N.; Chiang, K.Y. Enhanced hydrogen production in co-gasification of sewage sludge and industrial wastewater sludge by a pilot-scale fluidized bed gasifier. Int. J. Hydrogen Energy 2021 , 46 , 14083–14095. [CrossRef] 36. Mun, T.Y.; Kim, J.W.; Kim, J.S. Air gasification of dried sewage sludge in a two-stage gasifier: Part 1. The effects and reusability of additives on the removal of tar and hydrogen production. Int. J. Hydrogen Energy 2013 , 38 , 5226–5234. [CrossRef]
Made with FlippingBook - Online magazine maker