Chen Xiaowen, Shekiro Joseph, Pschorn Thomas, Sabourin Marc, Tucker Melvin P, Tao Ling
National Bioenergy Center, National Renewable Energy Lab, 1617 Cole Blvd, Golden, CO 80127 USA.
Andritz Inc., 3200 Upper Valley Pike, Springfield, OH USA.
Biotechnol Biofuels. 2015 Oct 29;8:173. doi: 10.1186/s13068-015-0358-0. eCollection 2015.
A novel, highly efficient deacetylation and disk refining (DDR) process to liberate fermentable sugars from biomass was recently developed at the National Renewable Energy Laboratory (NREL). The DDR process consists of a mild, dilute alkaline deacetylation step followed by low-energy-consumption disk refining. The DDR corn stover substrates achieved high process sugar conversion yields, at low to modest enzyme loadings, and also produced high sugar concentration syrups at high initial insoluble solid loadings. The sugar syrups derived from corn stover are highly fermentable due to low concentrations of fermentation inhibitors. The objective of this work is to evaluate the economic feasibility of the DDR process through a techno-economic analysis (TEA).
A large array of experiments designed using a response surface methodology was carried out to investigate the two major cost-driven operational parameters of the novel DDR process: refining energy and enzyme loadings. The boundary conditions for refining energy (128-468 kWh/ODMT), cellulase (Novozyme's CTec3) loading (11.6-28.4 mg total protein/g of cellulose), and hemicellulase (Novozyme's HTec3) loading (0-5 mg total protein/g of cellulose) were chosen to cover the most commercially practical operating conditions. The sugar and ethanol yields were modeled with good adequacy, showing a positive linear correlation between those yields and refining energy and enzyme loadings. The ethanol yields ranged from 77 to 89 gallons/ODMT of corn stover. The minimum sugar selling price (MSSP) ranged from $0.191 to $0.212 per lb of 50 % concentrated monomeric sugars, while the minimum ethanol selling price (MESP) ranged from $2.24 to $2.54 per gallon of ethanol.
The DDR process concept is evaluated for economic feasibility through TEA. The MSSP and MESP of the DDR process falls within a range similar to that found with the deacetylation/dilute acid pretreatment process modeled in NREL's 2011 design report. The DDR process is a much simpler process that requires less capital and maintenance costs when compared to conventional chemical pretreatments with pressure vessels. As a result, we feel the DDR process should be considered as an option for future biorefineries with great potential to be more cost-effective.
美国国家可再生能源实验室(NREL)最近开发了一种新型高效的脱乙酰化和盘磨精制(DDR)工艺,用于从生物质中释放可发酵糖。DDR工艺包括一个温和的稀碱脱乙酰化步骤,随后是低能耗的盘磨精制。DDR玉米秸秆底物在低至中等酶负载量下实现了高工艺糖转化率,并且在高初始不溶性固体负载量下也产生了高糖浓度糖浆。由于发酵抑制剂浓度低,源自玉米秸秆的糖浆具有高度可发酵性。这项工作的目的是通过技术经济分析(TEA)评估DDR工艺的经济可行性。
使用响应面方法设计了大量实验,以研究新型DDR工艺的两个主要成本驱动操作参数:精制能量和酶负载量。选择精制能量(128 - 468千瓦时/ODMT)、纤维素酶(诺维信的CTec3)负载量(11.6 - 28.4毫克总蛋白/克纤维素)和半纤维素酶(诺维信的HTec3)负载量(0 - 5毫克总蛋白/克纤维素)的边界条件,以涵盖最具商业实用性的操作条件。糖和乙醇产量的模型拟合良好,表明这些产量与精制能量和酶负载量之间呈正线性相关。乙醇产量范围为77至89加仑/ODMT玉米秸秆。最低糖销售价格(MSSP)范围为每磅50%浓缩单体糖0.191至0.212美元,而最低乙醇销售价格(MESP)范围为每加仑乙醇2.24至2.54美元。
通过TEA评估了DDR工艺概念的经济可行性。DDR工艺的MSSP和MESP落在与NREL 2011年设计报告中建模的脱乙酰化/稀酸预处理工艺相似的范围内。与使用压力容器的传统化学预处理相比,DDR工艺要简单得多,所需的资本和维护成本更低。因此,我们认为DDR工艺应被视为未来生物精炼厂的一个选择,具有更具成本效益的巨大潜力。
