Catalytic liquefaction of wood for production of biocrude

Ramakrishna Jogi; Päivi Mäki-Arvela; Pasi Virtanen; Jyri-Pekka Mikkola

doi:10.31300/CTCT.14.2020.69-82

Catalytic liquefaction of wood for production of biocrude

Ramakrishna Jogi^*, Päivi Mäki-Arvela^*, Pasi Virtanen, Jyri-Pekka Mikkola

^*Corresponding author for this work

Technologies for a Sustainable Future

Research output: Contribution to journal › Review Article or Literature Review › peer-review

Abstract

Production of biofuels from second-generation biomass gives us an opportunity to minimise the dependence on fossil resources. Woody biomass is a valuable energy resource largerly composed of today underutilized hemicellulose and lignin. The third fraction, i.e. residual cellulose from wood liquefaction is frequently used as a starting material in pulping and packaging industry. The catalytic liquefaction of woody biomass, which can be performed even without drying of feedstock to produce biocrude, is a promising route to produce of biofuels and fine chemicals. This work emphasizes the use of heterogeneous catalysts in wood liquefaction to produce biocrude containing both phenolic compounds and sugars. The main parameters discussed are wood type, catalyst selection and reaction conditions, such as gas atmosphere, solvent, temperature, pressure and feedstock particle size. Several metals (Pd, Ru, Ni, Co, Mo, Fe) supported on active carbon, alumina and zeolites have been applied in wood liquefaction. In addition to heterogeneous catalysts, also co-catalysts, such as homogeneous acids and metal salts have been utilized to promote, in particular, lignin depolymerization. The liquid phase product distribution including sugars, phenolic monomers, dimers and oligomers over different catalysts will be discussed. Different catalytic approaches will also be elucidated. Finally, future research needs and process feasibility will also be summarized.

Original language	English
Pages (from-to)	69-82
Number of pages	14
Journal	Current Topics in Catalysis
Volume	14
DOIs	https://doi.org/10.31300/CTCT.14.2020.69-82
Publication status	Published - 2019
MoE publication type	A2 Review article in a scientific journal

Keywords

catalytic liquefaction,
hydrothermal liquefaction (HTL),
wood liquefaction,
hydrogen atmosphere,
Noble metal
non-noble metal selection

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@article{9eafb654f16a467494e886e2d86168c2,

title = "Catalytic liquefaction of wood for production of biocrude",

abstract = "Production of biofuels from second-generation biomass gives us an opportunity to minimise the dependence on fossil resources. Woody biomass is a valuable energy resource largerly composed of today underutilized hemicellulose and lignin. The third fraction, i.e. residual cellulose from wood liquefaction is frequently used as a starting material in pulping and packaging industry. The catalytic liquefaction of woody biomass, which can be performed even without drying of feedstock to produce biocrude, is a promising route to produce of biofuels and fine chemicals. This work emphasizes the use of heterogeneous catalysts in wood liquefaction to produce biocrude containing both phenolic compounds and sugars. The main parameters discussed are wood type, catalyst selection and reaction conditions, such as gas atmosphere, solvent, temperature, pressure and feedstock particle size. Several metals (Pd, Ru, Ni, Co, Mo, Fe) supported on active carbon, alumina and zeolites have been applied in wood liquefaction. In addition to heterogeneous catalysts, also co-catalysts, such as homogeneous acids and metal salts have been utilized to promote, in particular, lignin depolymerization. The liquid phase product distribution including sugars, phenolic monomers, dimers and oligomers over different catalysts will be discussed. Different catalytic approaches will also be elucidated. Finally, future research needs and process feasibility will also be summarized. ",

keywords = "catalytic liquefaction,, hydrothermal liquefaction (HTL),, wood liquefaction,, hydrogen atmosphere,, Noble metal, non-noble metal selection",

author = "Ramakrishna Jogi and P{\"a}ivi M{\"a}ki-Arvela and Pasi Virtanen and Jyri-Pekka Mikkola",

note = "tk. Hittar ingen info om parallellpublicering, bara den h{\"a}r texterna: {"}No part of the information contained herein may be reproduced, stored or utilized in any form or by any means, electronic or mechanical, including photocopying, recording or by any information storage and retrieval system, without written prior permission from Research Trends (P) Ltd.{"} {"}Authors are usually requested to make their articles open for free public accessthrough the {\textquoteleft}Open Access{\textquoteright} provision.{"} Har f{\"o}rs{\"o}kt registrera mej f{\"o}r att komma {\aa}t informationen, men det fungerar inte. Antagligen borde man kontakta f{\"o}rlaget. [25.6.2020 LN] info@researchtrends.net 11.1.2021 Publikationen {\"a}r nu {\"o}ppet tillg{\"a}nglig p{\aa} n{\"a}tet! Hybrid.",

year = "2019",

doi = "10.31300/CTCT.14.2020.69-82",

language = "English",

volume = "14",

pages = "69--82",

journal = "Current Topics in Catalysis",

issn = "0972-4508",

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TY - JOUR

T1 - Catalytic liquefaction of wood for production of biocrude

AU - Jogi, Ramakrishna

AU - Mäki-Arvela, Päivi

AU - Virtanen, Pasi

AU - Mikkola, Jyri-Pekka

N1 - tk. Hittar ingen info om parallellpublicering, bara den här texterna: "No part of the information contained herein may be reproduced, stored or utilized in any form or by any means, electronic or mechanical, including photocopying, recording or by any information storage and retrieval system, without written prior permission from Research Trends (P) Ltd." "Authors are usually requested to make their articles open for free public accessthrough the ‘Open Access’ provision." Har försökt registrera mej för att komma åt informationen, men det fungerar inte. Antagligen borde man kontakta förlaget. [25.6.2020 LN] info@researchtrends.net 11.1.2021 Publikationen är nu öppet tillgänglig på nätet! Hybrid.

PY - 2019

Y1 - 2019

N2 - Production of biofuels from second-generation biomass gives us an opportunity to minimise the dependence on fossil resources. Woody biomass is a valuable energy resource largerly composed of today underutilized hemicellulose and lignin. The third fraction, i.e. residual cellulose from wood liquefaction is frequently used as a starting material in pulping and packaging industry. The catalytic liquefaction of woody biomass, which can be performed even without drying of feedstock to produce biocrude, is a promising route to produce of biofuels and fine chemicals. This work emphasizes the use of heterogeneous catalysts in wood liquefaction to produce biocrude containing both phenolic compounds and sugars. The main parameters discussed are wood type, catalyst selection and reaction conditions, such as gas atmosphere, solvent, temperature, pressure and feedstock particle size. Several metals (Pd, Ru, Ni, Co, Mo, Fe) supported on active carbon, alumina and zeolites have been applied in wood liquefaction. In addition to heterogeneous catalysts, also co-catalysts, such as homogeneous acids and metal salts have been utilized to promote, in particular, lignin depolymerization. The liquid phase product distribution including sugars, phenolic monomers, dimers and oligomers over different catalysts will be discussed. Different catalytic approaches will also be elucidated. Finally, future research needs and process feasibility will also be summarized.

AB - Production of biofuels from second-generation biomass gives us an opportunity to minimise the dependence on fossil resources. Woody biomass is a valuable energy resource largerly composed of today underutilized hemicellulose and lignin. The third fraction, i.e. residual cellulose from wood liquefaction is frequently used as a starting material in pulping and packaging industry. The catalytic liquefaction of woody biomass, which can be performed even without drying of feedstock to produce biocrude, is a promising route to produce of biofuels and fine chemicals. This work emphasizes the use of heterogeneous catalysts in wood liquefaction to produce biocrude containing both phenolic compounds and sugars. The main parameters discussed are wood type, catalyst selection and reaction conditions, such as gas atmosphere, solvent, temperature, pressure and feedstock particle size. Several metals (Pd, Ru, Ni, Co, Mo, Fe) supported on active carbon, alumina and zeolites have been applied in wood liquefaction. In addition to heterogeneous catalysts, also co-catalysts, such as homogeneous acids and metal salts have been utilized to promote, in particular, lignin depolymerization. The liquid phase product distribution including sugars, phenolic monomers, dimers and oligomers over different catalysts will be discussed. Different catalytic approaches will also be elucidated. Finally, future research needs and process feasibility will also be summarized.

KW - catalytic liquefaction,

KW - hydrothermal liquefaction (HTL),

KW - wood liquefaction,

KW - hydrogen atmosphere,

KW - Noble metal

KW - non-noble metal selection

U2 - 10.31300/CTCT.14.2020.69-82

DO - 10.31300/CTCT.14.2020.69-82

M3 - Review Article or Literature Review

SN - 0972-4508

VL - 14

SP - 69

EP - 82

JO - Current Topics in Catalysis

JF - Current Topics in Catalysis

ER -

Catalytic liquefaction of wood for production of biocrude

Abstract

Keywords

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