Catalytic valorisation of various paper wastes into levulinic acid, hydroxymethylfurfural, and furfural: Influence of feedstock properties and ferric chloride

Shanta Dutta; Qiaozhi Zhang; Yang Cao; Chunfei Wu; Konstantinos Moustakas; Shicheng Zhang; Ka Hing Wong; Daniel C.W. Tsang

doi:10.1016/j.biortech.2022.127376

Catalytic valorisation of various paper wastes into levulinic acid, hydroxymethylfurfural, and furfural: Influence of feedstock properties and ferric chloride

Shanta Dutta, Qiaozhi Zhang, Yang Cao, Chunfei Wu, Konstantinos Moustakas, Shicheng Zhang, Ka Hing Wong, Daniel C.W. Tsang^*

^*Corresponding author for this work

School of Chemistry and Chemical Engineering

Research output: Contribution to journal › Article › peer-review

20 Citations (Scopus)

Abstract

Lignocellulosic paper waste constitutes a major waste stream globally, which should be valorised for chemical production. However, paper properties (e.g., feedstock composition, cellulosic crystallinity, and thermal stability/degradability) vary with raw materials and pulping processes. This study investigated levulinic acid (LA), hydroxymethylfurfural (HMF), and furfural production by H₂SO₄ and FeCl₃ catalysed conversion of nine types of paper wastes in a green solvent system (1:1 γ-valerolactone/water). At 160–180 °C for 1–20 min, ∼23–27 wt% LA yield was achieved from sanitary papers, tracing/parchment paper, and paper food box mainly containing crystalline cellulose, while a lower LA yield (∼10–20 wt%) was obtained from other paper wastes with high contents of ash and lignin. A higher selectivity towards HMF (∼12 mol%) was achieved in the presence of FeCl₃. A furfural yield of ∼ 4–7.5 wt% was also obtained from the hemicellulose content. This study elucidates crucial factors and desirable characteristics of paper waste for catalytic valorisation.

Original language	English
Article number	127376
Journal	Bioresource Technology
Volume	357
Early online date	26 May 2022
DOIs	https://doi.org/10.1016/j.biortech.2022.127376
Publication status	Published - Aug 2022

Bibliographical note

Funding Information:
The authors appreciate the financial support from the Hong Kong International Airport Environmental Fund (Phase 2) and Hong Kong Environment and Conservation Fund (Project 101/2020).

Publisher Copyright:
© 2022 Elsevier Ltd

Keywords

Circular economy
Green solvent
Lignocellulosic biomass
Platform chemicals
Sustainable biorefinery
Waste management/recycling

ASJC Scopus subject areas

Bioengineering
Environmental Engineering
Renewable Energy, Sustainability and the Environment
Waste Management and Disposal

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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title = "Catalytic valorisation of various paper wastes into levulinic acid, hydroxymethylfurfural, and furfural: Influence of feedstock properties and ferric chloride",

abstract = "Lignocellulosic paper waste constitutes a major waste stream globally, which should be valorised for chemical production. However, paper properties (e.g., feedstock composition, cellulosic crystallinity, and thermal stability/degradability) vary with raw materials and pulping processes. This study investigated levulinic acid (LA), hydroxymethylfurfural (HMF), and furfural production by H2SO4 and FeCl3 catalysed conversion of nine types of paper wastes in a green solvent system (1:1 γ-valerolactone/water). At 160–180 °C for 1–20 min, ∼23–27 wt% LA yield was achieved from sanitary papers, tracing/parchment paper, and paper food box mainly containing crystalline cellulose, while a lower LA yield (∼10–20 wt%) was obtained from other paper wastes with high contents of ash and lignin. A higher selectivity towards HMF (∼12 mol%) was achieved in the presence of FeCl3. A furfural yield of ∼ 4–7.5 wt% was also obtained from the hemicellulose content. This study elucidates crucial factors and desirable characteristics of paper waste for catalytic valorisation.",

keywords = "Circular economy, Green solvent, Lignocellulosic biomass, Platform chemicals, Sustainable biorefinery, Waste management/recycling",

author = "Shanta Dutta and Qiaozhi Zhang and Yang Cao and Chunfei Wu and Konstantinos Moustakas and Shicheng Zhang and Wong, {Ka Hing} and Tsang, {Daniel C.W.}",

note = "Funding Information: The authors appreciate the financial support from the Hong Kong International Airport Environmental Fund (Phase 2) and Hong Kong Environment and Conservation Fund (Project 101/2020). Publisher Copyright: {\textcopyright} 2022 Elsevier Ltd",

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doi = "10.1016/j.biortech.2022.127376",

language = "English",

volume = "357",

journal = "Bioresource Technology",

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AU - Dutta, Shanta

AU - Zhang, Qiaozhi

AU - Cao, Yang

AU - Wu, Chunfei

AU - Moustakas, Konstantinos

AU - Zhang, Shicheng

AU - Wong, Ka Hing

AU - Tsang, Daniel C.W.

N1 - Funding Information: The authors appreciate the financial support from the Hong Kong International Airport Environmental Fund (Phase 2) and Hong Kong Environment and Conservation Fund (Project 101/2020). Publisher Copyright: © 2022 Elsevier Ltd

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N2 - Lignocellulosic paper waste constitutes a major waste stream globally, which should be valorised for chemical production. However, paper properties (e.g., feedstock composition, cellulosic crystallinity, and thermal stability/degradability) vary with raw materials and pulping processes. This study investigated levulinic acid (LA), hydroxymethylfurfural (HMF), and furfural production by H2SO4 and FeCl3 catalysed conversion of nine types of paper wastes in a green solvent system (1:1 γ-valerolactone/water). At 160–180 °C for 1–20 min, ∼23–27 wt% LA yield was achieved from sanitary papers, tracing/parchment paper, and paper food box mainly containing crystalline cellulose, while a lower LA yield (∼10–20 wt%) was obtained from other paper wastes with high contents of ash and lignin. A higher selectivity towards HMF (∼12 mol%) was achieved in the presence of FeCl3. A furfural yield of ∼ 4–7.5 wt% was also obtained from the hemicellulose content. This study elucidates crucial factors and desirable characteristics of paper waste for catalytic valorisation.

AB - Lignocellulosic paper waste constitutes a major waste stream globally, which should be valorised for chemical production. However, paper properties (e.g., feedstock composition, cellulosic crystallinity, and thermal stability/degradability) vary with raw materials and pulping processes. This study investigated levulinic acid (LA), hydroxymethylfurfural (HMF), and furfural production by H2SO4 and FeCl3 catalysed conversion of nine types of paper wastes in a green solvent system (1:1 γ-valerolactone/water). At 160–180 °C for 1–20 min, ∼23–27 wt% LA yield was achieved from sanitary papers, tracing/parchment paper, and paper food box mainly containing crystalline cellulose, while a lower LA yield (∼10–20 wt%) was obtained from other paper wastes with high contents of ash and lignin. A higher selectivity towards HMF (∼12 mol%) was achieved in the presence of FeCl3. A furfural yield of ∼ 4–7.5 wt% was also obtained from the hemicellulose content. This study elucidates crucial factors and desirable characteristics of paper waste for catalytic valorisation.

KW - Circular economy

KW - Green solvent

KW - Lignocellulosic biomass

KW - Platform chemicals

KW - Sustainable biorefinery

KW - Waste management/recycling

U2 - 10.1016/j.biortech.2022.127376

DO - 10.1016/j.biortech.2022.127376

M3 - Article

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ER -

Catalytic valorisation of various paper wastes into levulinic acid, hydroxymethylfurfural, and furfural: Influence of feedstock properties and ferric chloride

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

UN SDGs

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