采用类似有机溶剂法的生物质分级分离在经济上是否可行？概念设计研究。

Is biomass fractionation by Organosolv-like processes economically viable? A conceptual design study.

机构信息

Aachener Verfahrenstechnik - Process Systems Engineering, RWTH Aachen University, Turmstr. 46, 52064 Aachen, Germany.

出版信息

Bioresour Technol. 2013 Dec;150:89-97. doi: 10.1016/j.biortech.2013.09.078. Epub 2013 Sep 27.

DOI:10.1016/j.biortech.2013.09.078

Abstract

In this work, the conceptual designs of the established Organosolv process and a novel biphasic, so-called Organocat process are developed and analyzed. Solvent recycling and energy integration are emphasized to properly assess economic viability. Both processes show a similar energy consumption (approximately 5 MJ/kg(dry biomass)). However, they still show a lack of economic attractiveness even at larger scale. The Organocat process is more favorable due to more efficient lignin separation. The analysis uncovers the remaining challenges toward an economically viable design. They largely originate from by-products formation, product isolation, and solvent recycling. Necessary improvements in process chemistry, equipment design, energy efficiency and process design are discussed to establish economically attractive Organosolv-like processes of moderate capacity as a building block of a future biorefinery.

摘要

在这项工作中，开发并分析了已建立的有机溶剂法和新型两相、所谓的 Organocat 工艺的概念设计。强调溶剂回收和能量集成以正确评估经济可行性。这两个过程的能耗相似（约 5MJ/kg(干生物质)）。然而，即使在更大的规模下，它们仍然缺乏经济吸引力。Organocat 工艺由于木质素分离更有效而更具优势。该分析揭示了经济可行设计中仍存在的挑战。它们主要源于副产物形成、产物分离和溶剂回收。为了建立具有适度产能的经济上有吸引力的类似于有机溶剂法的工艺作为未来生物精炼厂的构建模块，讨论了在工艺化学、设备设计、能源效率和工艺设计方面进行必要改进的必要性。

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采用类似有机溶剂法的生物质分级分离在经济上是否可行？概念设计研究。

Is biomass fractionation by Organosolv-like processes economically viable? A conceptual design study.

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