收获、孵育和破裂的纳米叶绿体细胞浓缩浆液的流变特性

IF 2.35
Srinivas Mettu, Shunyu Yao, Sam Q. K. Law, Zheng Sun, Peter J. Scales, Muthupandian Ashokkumar, Gregory J. O. Martin
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引用次数: 9

摘要

微藻生物质的生物精制需要处理高固含量(10%)的浆料。迄今为止,人们对微藻细胞的削弱和破裂过程如何影响这些材料的流变特性知之甚少。为了填补这一文献空白,研究了海洋微藻纳米绿藻浓浆的流变特性与处理过程和固体浓度(12、20和24% w/w)的关系。新鲜收获、孵育(自溶)和高压均质(HPH)的浆料被发现剪切变薄,剪切速率约为200s / 1。在较高的浓度下,部分加工的藻膏比未加工的藻膏粘度增加更为显著。浆液粘度作为细胞体积分数的函数不能拟合Krieger-Dougherty模型,因为细胞外聚合物(EPS)和细胞内成分在孵卵和细胞破裂过程中释放的网络结构。当包含整个细胞(即收获和孵育的浆液)时,接近封闭极限的24%浆液比浓度较低的浆液粘稠得多。高ph的细胞破裂完全改变了浆料的特性,即使是浓度较低的浆料的粘度也会增加,并产生不可逆的剪切变薄行为。在本研究中观察到的粘度增加的幅度和不可逆的剪切变薄行为,对处理和优化藻浆的固体浓度具有重要意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Rheological properties of concentrated slurries of harvested, incubated and ruptured Nannochloropsis sp. cells

Rheological properties of concentrated slurries of harvested, incubated and ruptured Nannochloropsis sp. cells

Biorefining of microalgae biomass requires processing of high-solids (>?10%) slurries. To date there is little knowledge of how processes for weakening and rupturing microalgae cells affect the rheological properties of these materials. To fill this gap in the literature, the rheological properties of concentrated slurries of marine microalgae Nannochloropsis sp. were investigated as a function of processing and solids concentration (12, 20 and 24% w/w). Freshly harvested, incubated (autolysed), and high-pressure homogenised (HPH) slurries were found to be shear thinning up to a shear rate of approximately 200?s??1. Viscosity increases were far more prominent for partially processed versus unprocessed algal pastes at the higher concentrations. Slurry viscosity as a function of cell volume fraction could not be fitted to the Krieger-Dougherty model due to a network structure resulting from extracellular polymeric substances (EPS) and the intracellular cell components released during incubation and cell rupture. The 24% slurry, which was near the close packing limit, was much more viscous than the less concentrated slurries when comprising whole cells (i.e. harvested and incubated slurries). Cell rupture by HPH completely altered the characteristics of the slurry, increasing the viscosity of even the less concentrated slurries, and producing irreversible shear thinning behaviour. The magnitude of the increases in viscosities and the irreversible shear thinning behaviour observed in this study, have significant implications for processing and optimising the solids concentration of algal slurries.

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