Increasing the revenue from lignocellulosic biomass: Maximizing feedstock utilization
David Martin Alonso,Sikander H. Hakim,Shengfei Zhou,Shengfei Zhou,Wangyun Won,Wangyun Won,Omid Hosseinaei,Jingming Tao,Valerie Garcia-Negron,Ali Hussain Motagamwala,Ali Hussain Motagamwala,Max A. Mellmer,Max A. Mellmer,Kefeng Huang,Carl J. Houtman,Nicole Labbé,David P. Harper,Christos T. Maravelias,Christos T. Maravelias,Troy Runge,Troy Runge,James A. Dumesic,James A. Dumesic +22 more
TLDR
This work proposes a biomass conversion strategy that maximizes the conversion of lignocellulosic biomass into high-value products that can be commercialized, providing the opportunity for successful translation to an economically viable commercial process.Abstract:
The production of renewable chemicals and biofuels must be cost- and performance- competitive with petroleum-derived equivalents to be widely accepted by markets and society We propose a biomass conversion strategy that maximizes the conversion of lignocellulosic biomass (up to 80% of the biomass to useful products) into high-value products that can be commercialized, providing the opportunity for successful translation to an economically viable commercial process Our fractionation method preserves the value of all three primary components: (i) cellulose, which is converted into dissolving pulp for fibers and chemicals production; (ii) hemicellulose, which is converted into furfural (a building block chemical); and (iii) lignin, which is converted into carbon products (carbon foam, fibers, or battery anodes), together producing revenues of more than $500 per dry metric ton of biomass Once de-risked, our technology can be extended to produce other renewable chemicals and biofuelsread more
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Journal ArticleDOI
Lignocellulosic Biorefinery Technologies: A Perception into Recent Advances in Biomass Fractionation, Biorefineries, Economic Hurdles and Market Outlook
Yogalakshmi K.N,T.M. Mohamed Usman,K. S.,S. Sachdeva,Shivani Thakur,Adish Kumar S,Rajesh Banu J +6 more
TL;DR: In this article , the main aim of this review is to focus on strategies needed for the progression of viable lignocellulosic biomass-based biorefineries (integrated approaches) to generate bio fuels and biochemicals.
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Promoting Effect of Ni on the Catalytic Production of Alanine from Lactic Acid over RuNi/AC Catalyst
TL;DR: In this article , a series of RuNi bimetallic catalysts supported on activated carbon were prepared to study the reductive amination of lactic acid, and the Ru6Ni4 catalyst was selected as the optimal catalyst.
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Energy plants (crops): potential natural and future designer plants
TL;DR: In this article , plants with higher oil (oleaginous) and hydrocarbon (petroplants) contents are considered energy plants, while food crops are considered food as well as energy plants.
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Bioadhesive Design Toward Renewable Composites: Adhesive Distribution and Molecular Adhesion
TL;DR: In this paper , the physical strength of wood composites increases with the content of soy protein isolate (SPI) with the number of hydrogen bonds (H•bonds) as primary driver; in MD simulations, the composite strength is highest at 3% epoxy, though higher epoxy doses results in more hydrogen bonds.
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Process Design and Economics for Biochemical Conversion of Lignocellulosic Biomass to Ethanol: Dilute-Acid Pretreatment and Enzymatic Hydrolysis of Corn Stover
David Humbird,Ryan Davis,Ling Tao,Christopher Kinchin,David D. Hsu,Andy Aden,P. Schoen,J. Lukas,B. Olthof,M. Worley,D. Sexton,D. Dudgeon +11 more
TL;DR: The conceptual design presented in this paper reports ethanol production economics as determined by 2012 conversion targets and 'nth-plant' project costs and financing for the biorefinery described here, processing 2,205 dry ton/day at 76% theoretical ethanol yield.