TY - JOUR
T1 - Catalytic upcycling paper sludge for the recovery of minerals and production of renewable high-grade biofuels and bio-based chemicals
AU - He, Songbo
AU - Bijl, Anton
AU - Rohrbach, Leon
AU - Yuan, Qingqing
AU - Sukmayanda Santosa, Dian
AU - Wang, Zhiwen
AU - Jan Heeres, Hero
AU - Brem, Gerrit
N1 - Funding Information:
S. He, A. Bijl, and G. Brem are grateful for the financial support provided by the Technology Foundation STW, The Netherlands (Project Demonstrator Biofuels, No. 209.36.203). The in-kind contribution from Alucha Management B.V. The Netherlands is also acknowledged. Q. Yuan and Z. Wang acknowledge financial support from the China Scholarship Council (CSC). S. He thanks Dr. K.S.S. Gupta (NMR Facility, Leiden University), Dr. M.C.A. Stuart (Electron Microscopy Facility, University of Groningen), and J. van Dijken (Zernike Institute for Advanced Materials, University of Groningen) for their contributions in MAS ssNMR, TEM-EDX, and TG-DTG analyses.
Funding Information:
S. He, A. Bijl, and G. Brem are grateful for the financial support provided by the Technology Foundation STW, The Netherlands (Project Demonstrator Biofuels, No. 209.36.203). The in-kind contribution from Alucha Management B.V., The Netherlands is also acknowledged. Q. Yuan and Z. Wang acknowledge financial support from the China Scholarship Council (CSC). S. He thanks Dr. K.S.S. Gupta (NMR Facility, Leiden University), Dr. M.C.A. Stuart (Electron Microscopy Facility, University of Groningen), and J. van Dijken (Zernike Institute for Advanced Materials, University of Groningen) for their contributions in MAS ssNMR, TEM-EDX, and TG-DTG analyses.
Publisher Copyright:
© 2021 The Author(s)
Copyright:
Copyright 2021 Elsevier B.V., All rights reserved.
PY - 2021/9/15
Y1 - 2021/9/15
N2 - Paper sludge is a solid waste by-product abundantly produced in the paper industry and contains fine minerals and lignocellulosic biomass. In this contribution, the ex-situ catalytic fast pyrolysis of paper sludge with a high mineral content of ca. 71 wt% is reported for the first time and demonstrated in a pilot-scale unit (feeding rate of 11.3 kg h−1) using a granular Na2CO3/γ-Al2O3 catalyst (loading of 650 g) to produce a high-grade bio-oil at a fast pyrolysis temperature of 475 ± 5 °C (pre-screened using a pyroprobe) and a catalytic upgrading temperature of 500 °C. Besides, > 99 wt% minerals in the paper sludge could be recovered, including paper fillers such as CaCO3 (major) and talc. The bio-oil obtained at a carbon yield of 21 C.% has a low oxygen content of 3.2 wt%, a low total acidity number of 5.2 mg KOH g−1, low H2O content of 0.7 wt%, and a high higher heating value of 40.9 MJ kg−1. It consists of value-added bio-based chemicals such as paraffins, olefins, and low molecular weight aromatics. The results demonstrate that the use of paper sludge to recover minerals and to obtain fuels and chemicals using ex-situ catalytic pyrolysis is technically feasible at a pilot plant scale, which will be of importance for the development of future bio-based economy.
AB - Paper sludge is a solid waste by-product abundantly produced in the paper industry and contains fine minerals and lignocellulosic biomass. In this contribution, the ex-situ catalytic fast pyrolysis of paper sludge with a high mineral content of ca. 71 wt% is reported for the first time and demonstrated in a pilot-scale unit (feeding rate of 11.3 kg h−1) using a granular Na2CO3/γ-Al2O3 catalyst (loading of 650 g) to produce a high-grade bio-oil at a fast pyrolysis temperature of 475 ± 5 °C (pre-screened using a pyroprobe) and a catalytic upgrading temperature of 500 °C. Besides, > 99 wt% minerals in the paper sludge could be recovered, including paper fillers such as CaCO3 (major) and talc. The bio-oil obtained at a carbon yield of 21 C.% has a low oxygen content of 3.2 wt%, a low total acidity number of 5.2 mg KOH g−1, low H2O content of 0.7 wt%, and a high higher heating value of 40.9 MJ kg−1. It consists of value-added bio-based chemicals such as paraffins, olefins, and low molecular weight aromatics. The results demonstrate that the use of paper sludge to recover minerals and to obtain fuels and chemicals using ex-situ catalytic pyrolysis is technically feasible at a pilot plant scale, which will be of importance for the development of future bio-based economy.
KW - Bio-aromatics
KW - Biofuels
KW - Ex-situ catalytic fast pyrolysis
KW - Mineral recovery
KW - Solid waste recycling
UR - http://www.scopus.com/inward/record.url?scp=85104131343&partnerID=8YFLogxK
U2 - 10.1016/j.cej.2021.129714
DO - 10.1016/j.cej.2021.129714
M3 - Article
AN - SCOPUS:85104131343
SN - 1385-8947
VL - 420
JO - Chemical Engineering Journal
JF - Chemical Engineering Journal
IS - Part 1
M1 - 129714
ER -