sustainable conversion of lignocellulose to high

Supporting Information for: Sustainable Conversion of

S1 Supporting Information for: Sustainable Conversion of Lignocellulose to High Purity, Highly Crystalline Flake Potato Graphite Authors: Nathan A. Banek, Dustin T. Abele, Kevin R. McKenzie Jr., and Michael J. S2 Figure S1. XRD patterns of bio-char/Fe pellet

Revisiting Alkaline Pretreatment of Lignocellulose:

Herein, sodium hydroxide (NaOH) pretreatment of lignocellulose is performed to investigate the structural evolution of lignin, cellulose, and hemicellulose. It is found that most of hemicellulose and part of cellulose are hydrolyzed/converted to monosaccharide, alcohols, and carboxylic acids.

Revisiting Alkaline Pretreatment of Lignocellulose:

Herein, sodium hydroxide (NaOH) pretreatment of lignocellulose is performed to investigate the structural evolution of lignin, cellulose, and hemicellulose. It is found that most of hemicellulose and part of cellulose are hydrolyzed/converted to monosaccharide, alcohols, and carboxylic acids.

Biochemical conversion

Biochemical value chains for production of biofuels Introduction The most common biochemical conversion used for biofuel production is yeast-fermentation to ethanol. First generation ethanol is derived from sugar or starch produced by food crops (e.g. wheat, corn

Valorization of Lignocellulosic and Microalgae Biomass

2020/7/3Thermochemical conversion techniques involve the use of heat or chemicals for the conversion of biomass into fuel and heat (as in the case of combustion and gasification). The thermochemical means is sometimes preferred since it requires limited time, little or no pre-treatment, and generation of variable end-products as compared to biochemical means.

Revisiting Alkaline Pretreatment of Lignocellulose:

Herein, sodium hydroxide (NaOH) pretreatment of lignocellulose is performed to investigate the structural evolution of lignin, cellulose, and hemicellulose. It is found that most of hemicellulose and part of cellulose are hydrolyzed/converted to monosaccharide, alcohols, and carboxylic acids.

Lignocellulose Liquefaction to Biocrude:ATutorial Review

Lignocellulose liquefaction is certainly no new research area. The oil crisis of 1973 spurred much research in the conversion of biomass to biocrude and, eventually,tofuels. Excellent re-views from White et al.,[12] Bouvier et al.,[13] Moffat and Over-end,[14] [15]

Structural Analysis of Lignocellulose Biomass Using Nuclear

lignocellulose-based bio-refineries have been studied recently in an effort to replace oil-based resources and contribute to a more sustainable energy source.(1) An increase in the utilization of bio-resources requires efficient processing, conversion, and

Construction of consolidated bio

Lignocellulose is the most abundant sustainable carbon source. The conversion of lignocellulosic biomass, especially those considered to be agricultural wastes, is of worldwide importance in terms of both environmental protection and substitution of fossil sources [1,2,3].].

Production of Ethanol from Lignocellulosic Biomass

Matano Y, Hasunuma T, Kondo A. Cell recycle batch fermentation of high-solid lignocellulose using a recombinant cellulase-displaying yeast strain for high yield ethanol production in consolidated bioprocessing. Bioresour Technol. 2013;135:403–9. PubMed

Advances in catalytic conversion of lignocellulose to

Advances in catalytic conversion of lignocellulose to chemicals and liquid fuels In response to the awareness of limited fossil resources and environmental concerns, catalytic conversion of renewable lignocellulose biomass to value-added chemicals and fuels is of great significance and attractive for sustainable chemistry.

Liquefaction of Lignocellulose in Light Cycle Oil: A Process

A direct liquefaction process converts wood to biocrude in a refinery stream at a high yield (∼60 C%), and the resulting biocrude has low oxygen content and high energy density. Liquefaction of Lignocellulose in Light Cycle Oil: A Process Concept Study - ACS Sustainable Chemistry Engineering (ACS Publications)

Ethanol: A Promising Green Solvent for the Deconstruction

2018/10/24Recent thermochemical conversion studies are frequently directed at converting biomass into high-quality liquid fuel precursors or chemicals in a single step. Supercritical ethanol has been selected as a promising solvent medium to deconstruct lignocellulosic biomass because ethanol has extraordinary solubility towards lignocellulosic biomass and can be resourced from cellulosic ethanol

SBIR Phase I: Direct Conversion of Lignocellulosic

Additionally, high value commercial products will be evaluated including waxes, biolubricants, and nutraceuticals. Preliminary lab bench studies have shown conversion of wheat straw to lipids ideal for biodiesel at 80g lipid/kg dry weight and the goal of this study is to produce 110 lipids/kg, which cost analysis studies indicate would be competitive with fossil fuels.

Profiling microbial lignocellulose degradation and

The use of plant materials to generate renewable biofuels and other high-value chemicals is the sustainable and preferable option, but will require considerable improvements to increase the rate and efficiency of lignocellulose depolymerization.

Production of Biofuels from Cellulose of Woody

2011/11/3The biotransformation of carbohydrates to hydrogen by cell-free synthetic pathway (enzymes) has numerous advantages: high production yield (12 H 2 /glucose unit), selectivity, high energy conversion efficiency (122% based on combustion energy), high

Different acid pretreatments at room temperature boost

Fermentable sugars are a group of pivotal intermediates and platform compounds achieved by the conversion of lignocellulose. Fast pyrolysis, as a little-explored way to liberate levoglucosan from biomass, may have a potential capability to overcome the technical barriers and fundamental limitations for efficient saccharification. Pretreatment prior to fast pyrolysis is essential to improve

Conversion of lignocellulose to biofuels and chemicals via

Conversion of lignocellulose to biofuels and chemicals via sugar platform: An updated review on chemistry and mechanisms of acid hydrolysis of lignocellulose Author links open overlay panel Ziyuan Zhou a b Dehua Liu a b Xuebing Zhao a b

First Proof of Concept of Sustainable Metabolite Production from High

First Proof of Concept of Sustainable Metabolite Production from High Solids Fermentation of Lignocellulosic Biomass Using a Bacterial Co-Culture and Cycling Flush System Notes/Citation Information Published inBioresource Technology, v. 173, p. 216-223.

Biocatalytic conversion of lignocellulose to platform

Biocatalytic conversion of lignocellulose to platform chemicals Biocatalytic conversion of lignocellulose to platform chemicals Jger, Gernot; Bchs, Jochen 2012-09-01 00:00:00 Naturally occurring lignocellulose can be used as a renewable resource for the sustainable production of platform chemicals that can in turn be converted to valuable fine chemicals, polymers, and fuels.

Microbial bioprospecting for lignocellulose degradation at a

2020/8/29chemicals sector on fossil fuels remains high (Cherubini 2010). These circumstances necessitate the use of alter-native sources for the production of fuels and other in-dustrial chemicals. The biorefinery concept, which is based on the sustainable conversion

Chemocatalytic Conversion of Cellulose into Key Platform Chemicals

2018/5/2up sustainable societies. Cellulose, the first most abundant constituent of lignocellulosic biomass, has received extensive attention for its comprehensive utilization of resource, such as its catalytic conversion into high value-added chemicals and fuels (e.g

University of Groningen Sustainable pathways to chemicals and fuels from lignocellulose

Chapter 4 Catalytic Conversion of Lignocellulose Derived Alcohols to Fuel-range Alkanes In Chapter 3, we designed the LignoFlex process which transformed lignocellulose to aromatic and aliphatic alcohols (SMix).In this chapter I will continue this work

Bio‐Based Cycloalkanes: The Missing Link to

This Review describes recent efforts to develop efficient routes for the conversion of crude biomass sources (e. g., lignocellulose) to cycloalkanes. These cycloalkanes impart advantageous properties to jet fuels, including increased density, higher volumetric heat of combustion, and enhanced operability.

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