Lignin from bark as a resource for aromatics production by hydrothermal liquefaction

Schuler, Julia; Hornung, Ursel; Dahmen, Nicolaus; Sauer, Jörg

doi:10.1111/gcbb.12562

Cited by 31 publications

(16 citation statements)

References 24 publications

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“…Value chains analysed in the modular lignocellulosic biorefinery concept of the Baden‐Württemberg Lignocellulose Research Network. The coloured lines indicate selected value chains described in one of the research articles of this special issue: Seibert‐Ludwig et al () (light blue), Rohde et al () (medium blue), Schuler et al () (dark blue), Siebenhaller et al (), Horlamus et al (), (dark green), Dörsam et al (), Lange et al () (brown). Other data are taken from Lange et al () (medium green)…”

Section: Which Processes May Be Contained In a Future Lignocellulosicmentioning

confidence: 99%

“…The same is true for many other biobased chemicals under development today. A kinetic model has been developed by Schuler, Hornung, Dahmen, and Sauer () that predicts the product composition when hydrothermal liquefaction is applied to different types of biomass, at different reaction temperatures and with different reaction times. As with other lignin depolymerization processes, hydrothermal liquefaction leads to several products.…”

Section: Which Processes May Be Contained In a Future Lignocellulosicmentioning

confidence: 99%

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Integrated lignocellulosic value chains in a growing bioeconomy: Status quo and perspectives

et al. 2019

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Lignocellulose is the most abundant biomass on Earth, with an estimated 181.5 billion tonnes produced annually. Of the 8.2 billion tonnes that are currently used, about 7 billion tonnes are produced from dedicated agricultural, grass and forest land and another 1.2 billion tonnes stem from agricultural residues. Economic and environmentally efficient pathways for production and utilization of lignocellulose for chemical products and energy are needed to expand the bioeconomy. This opinion paper arose from the research network “Lignocellulose as new resource platform for novel materials and products” funded by the German federal state of Baden‐Württemberg and summarizes original research presented in this special issue. It first discusses how the supply of lignocellulosic biomass can be organized sustainably and suggests that perennial biomass crops (PBC) are likely to play an important role in future regional biomass supply to European lignocellulosic biorefineries. Dedicated PBC production has the advantage of delivering biomass with reliable quantity and quality. The tailoring of PBC quality through crop breeding and management can support the integration of lignocellulosic value chains. Two biorefinery concepts using lignocellulosic biomass are then compared and discussed: the syngas biorefinery and the lignocellulosic biorefinery. Syngas biorefineries are less sensitive to biomass qualities and are technically relatively advanced, but require high investments and large‐scale facilities to be economically feasible. Lignocellulosic biorefineries require multiple processing steps to separate the recalcitrant lignin from cellulose and hemicellulose and convert the intermediates into valuable products. The refining processes for high‐quality lignin and hemicellulose fractions still need to be further developed. A concept of a modular lignocellulosic biorefinery is presented that could be flexibly adapted for a range of feedstock and products by combining appropriate technologies either at the same location or in a decentralized form.

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Section: Which Processes May Be Contained In a Future Lignocellulosicmentioning

confidence: 99%

Section: Which Processes May Be Contained In a Future Lignocellulosicmentioning

confidence: 99%

Integrated lignocellulosic value chains in a growing bioeconomy: Status quo and perspectives

et al. 2019

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“…The properties of water under sub-and supercritical conditions enhance both the dissolution and degradation of lignin. Lignin degradation occurs via different reactions, such as hydrolysis, alkylation and repolymerization reactions [95,96]. It is well documented that the low solubility of salts in (near) supercritical water leads to pipes getting fouled up and blocked [67,78,[81][82][83][84][85][86].…”

Section: Hydrothermal Liquefaction (Htl)mentioning

confidence: 99%

“…The properties of water under sub-and supercritical conditions enhance both the dissolution and degradation of lignin. Lignin degradation occurs via different reactions, such as hydrolysis, alkylation and repolymerization reactions [95,96]. The separation of the liquid product occurs in a phase separator, where the non-polar bio-oil fraction separates from the aqueous fraction containing polar organic compounds, i.e., water soluble organics [61].…”

Section: Hydrothermal Liquefaction (Htl)mentioning

confidence: 99%

Sub- and Supercritical Water Liquefaction of Kraft Lignin and Black Liquor Derived Lignin

et al. 2020

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To mitigate global warming, humankind has been forced to develop new efficient energy solutions based on renewable energy sources. Hydrothermal liquefaction (HTL) is a promising technology that can efficiently produce bio-oil from several biomass sources. The HTL process uses sub- or supercritical water for producing bio-oil, water-soluble organics, gaseous products and char. Black liquor mainly contains cooking chemicals (mainly alkali salts) lignin and the hemicellulose parts of the wood chips used for cellulose digestion. This review explores the effects of different process parameters, solvents and catalysts for the HTL of black liquor or black liquor-derived lignin. Using short residence times under near- or supercritical water conditions may improve both the quality and the quantity of the bio-oil yield. The quality and yield of bio-oil can be further improved by using solvents (e.g., phenol) and catalysts (e.g., alkali salts, zirconia). However, the solubility of alkali salts present in black liquor can lead to clogging problem in the HTL reactor and process tubes when approaching supercritical water conditions.

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“…Several contributions to this issue describe how these intermediates can be further processed into final products. Schuler, Hornung, Dahmen, and Sauer () illustrate the use of lignin from bark for the production of aromatics by hydrothermal liquefaction. Wang et al () have developed recombinant Pseudomonas putida strains that use hemicellulose‐derived pentoses or wheat straw hydrolysate as their sole carbon source.…”

Section: Lignocellulose and Modelling Sectionsmentioning

confidence: 99%

Biobased value chains for a growing bioeconomy

Lewandowski¹,

Bahrs²,

Dahmen³

et al. 2019

GCB Bioenergy

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This special issue covers three important fields of the bioeconomy: sustainable biogas value chains, bio‐based products from lignocellulose, and the use of microalgae as a biomass resource and for the production of food and feed. In order to develop sustainable products and processes, an interdisciplinary systemic approach to the analysis of entire value chains is necessary. For this reason, the contributions cover aspects of the complete biobased value chain from biomass production, pretreatment, and conversion, through to the manufacture and marketing of biobased products, and in addition, include socio‐economic and ecological assessments.

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Lignin from bark as a resource for aromatics production by hydrothermal liquefaction

Cited by 31 publications

References 24 publications

Integrated lignocellulosic value chains in a growing bioeconomy: Status quo and perspectives

Integrated lignocellulosic value chains in a growing bioeconomy: Status quo and perspectives

Sub- and Supercritical Water Liquefaction of Kraft Lignin and Black Liquor Derived Lignin

Biobased value chains for a growing bioeconomy

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