Production of levulinic acid and gamma-valerolactone (GVL) from cellulose using GVL as a solvent in biphasic systems

Stephanie G. Wettstein; David Martin Alonso; Yuxuan Chong; James A. Dumesic

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Production of levulinic acid and gamma-valerolactone (GVL) from cellulose using GVL as a solvent in biphasic systems

机译：在双相体系中使用GVL作为溶剂由纤维素生产乙酰丙酸和γ-戊内酯（GVL）

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Cellulose deconstruction at 428 K was studied in biphasic reaction systems consisting of GVL and aqueous solutions containing HO (0.1-1.25 M) and a solute, such as salt or sugar. This biphasic system achieves high yields of levulinic and formic acids (e.g., 70%), and leads to complete solubilization of cellulose. The GVL solvent extracts the majority of the levulinic acid (e.g., greater than 75%), which can subsequently be converted to GVL over a carbon-supported Ku-Sn catalyst. This approach for cellulose conversion eliminates the need to separate the final product from the solvent, because the GVL product is the solvent. In addition, this approach eliminates the deposition of solid Ininiin species in the cellulose deconstruction reactor, allowing these species to be collected and used for other processing options.

机译：在由GVL和含HO（0.1-1.25 M）和溶质（如盐或糖）的水溶液组成的双相反应系统中研究了428 K下的纤维素解构。该双相系统实现了高产率的乙酰丙酸和甲酸（例如70％），并导致纤维素完全溶解。 GVL溶剂提取大部分乙酰丙酸（例如，大于75％），其随后可在碳载Ku-Sn催化剂上转化为GVL。这种用于纤维素转化的方法消除了将最终产物与溶剂分离的需要，因为GVL产物是溶剂。此外，这种方法消除了固态Ininiin物质在纤维素解构反应器中的沉积，从而可以收集这些物质并将其用于其他处理方法。

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《Energy & environmental science》 |2012年第8期|p.8199-8203|共5页
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Stephanie G. Wettstein; David Martin Alonso; Yuxuan Chong; James A. Dumesic;
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Department of Chemical and Biological Engineering, University of Wisconsin-Madison, 1415 Engineering Drive, Madison, Wisconsin 53706,USA,DOE Great Lakes Bioenergy Research Center, University of Wisconsin-Madison, Madison, Wisconsin, 53706, USA;

Department of Chemical and Biological Engineering, University of Wisconsin-Madison, 1415 Engineering Drive, Madison, Wisconsin 53706,USA;

Department of Chemical and Biological Engineering, University of Wisconsin-Madison, 1415 Engineering Drive, Madison, Wisconsin 53706,USA;

Department of Chemical and Biological Engineering, University of Wisconsin-Madison, 1415 Engineering Drive, Madison, Wisconsin 53706,USA,DOE Great Lakes Bioenergy Research Center, University of Wisconsin-Madison, Madison, Wisconsin, 53706, USA;

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1. Solvent effect of gamma-valerolactone (GVL) on cellulose and biomass hydrolysis in hot-compressed GVL/water mixtures [J] . Song Bing, Yu Yun, Wu Hongwei Fuel . 2018,第NOVa15期

机译：γ-戊内酯（GVL）对热压GVL /水混合物中纤维素和生物质水解的溶剂作用
2. Green synthesis of gamma-valerolactone (GVL) through hydrogenation of biomass-derived levulinic acid using non-noble metal catalysts: A critical review [J] . Dutta Shanta, Yu Iris K. M., Tsang Daniel C. W., Chemical engineering journal . 2019,第期

机译：使用非贵金属催化剂氢化生物质衍生的乙酰丙酸的绿色合成γ-戊酮（GV1）：临界评论
3. Selective conversion of furfuryl alcohol to levulinic acid by SO_3H-containing silica nanoflower in GVL/H_2O system [J] . Wang Ruoqing, Shen Feng, Tang Yiwei, Renewable energy . 2021,第Juna期

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4. Production of Levulinic Acid from Cellulose Catalyzed by Environmental-Friendly Catalyst [C] . Pan Wang, Sihui Zhan, Hongbing Yu International Forum on Ecological Environment Functional Materials and Ion Industry . 2009

机译：由环保型催化剂催化纤维素的紫水酸生产
5. Effect of Nanoparticle Size, Support, and Potassium Dopant on Ruthenium Activity for Levulinic Acid (LA) Hydrogenation to γ-Valerolactone (GVL) [D] . Cao, Shuo 2013

机译：纳米颗粒尺寸，载体和钾掺杂对钌对丙戊酸（LA）加氢生成γ-戊内酯（GVL）的活性的影响
6. Acid-Catalyzed Conversion of Cellulose Into Levulinic Acid With Biphasic Solvent System [O] . Changyue Ma, Bo Cai, Le Zhang, 2021

机译：用双相溶剂体系将纤维素催化纤维素转化为乙酰丙酸
7. Green synthesis of gamma-valerolactone (GVL) through hydrogenation of biomass-derived levulinic acid using non-noble metal catalysts: A critical review [O] . Shanta Dutta, Iris K.M. Yu, Daniel C.W. Tsang, 2019

机译：使用非贵金属催化剂氢化生物质衍生的乙酰丙酸的γ-戊内酯（GV1）的绿色合成：临界评论

Production of levulinic acid and gamma-valerolactone (GVL) from cellulose using GVL as a solvent in biphasic systems

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