Bacterial Cellulose is one of the bio-material research hotspot in the world.
细菌纤维素是当今国内外生物材料研究的热点之一。
Hu W. -l., Chen S. -y., Wang H. -p. Template synthesis based on bacterial cellulose.
胡伟立,陈仕艳,王华平细菌纤维素模板合成研究进展。
As one of the newest biomaterials, bacterial cellulose is turning to be the hotspot.
细菌纤维素作为一种新型的生物材料,逐渐成为近年来的研究热点。
The dynamical model of static fermentation of Bacterial Cellulose was studied and established.
对静态发酵生产细菌纤维素的动力学模型进行了研究。
At last, the wet membrane of bacterial cellulose was determined by dielectric constant and DTA.
最后,还对纤维素湿膜作了介电系数和差热分析。
Helen Fink and her colleagues have modified the bacterial cellulose so that these cells adhere better.
海伦·芬克及其同事已对细菌纤维素进行修复,以便于这些细胞粘附得更好。
To prepare the biomaterial bacterial cellulose (BC) and observe the characteristic of its ultra-structure.
制备细菌纤维素,观察纳米细菌纤维素的超微结构特点。
Bacterial cellulose, as a new biological material with unique functions, is attracting the interest of the scientists.
细菌纤维素作为一种新型的生物材料,由于其独特的功能性正受到科学界的广泛关注。
Effects of culturing conditions and the subsequent treatment on the properties of bacterial cellulose were summarized.
简要概述了细菌纤维素的培养条件及后续处理过程对其性能的影响。
The findings indicated that the principal constituent of this strain producing gelatinous membrane is bacterial cellulose.
研究结果表明该菌所产凝胶膜的主要成分是细菌纤维素。
Adding bacterial cellulose to fresh milk to ferment, the optimum fermented condition was studied by orthogonal experiment.
把细菌纤维素添加到鲜奶中进行发酵,采用正交实验设计确定乳酸菌发酵的最佳条件。
Bacterial cellulose is a new kind of biologic compound material and it has many advantages more excellent than foliage fiber.
细菌纤维素是一种新型生物合成原料,它有许多优于植物纤维的特点。
We use a sugary green tea solution to which is added a bacterial cellulose culture, which also contains yeasts and other organisms.
我们使用含糖的绿茶了解决,增加了细菌纤维素,其中也包含酵母菌和其他生物。
Modification of bacterial cellulose includes bio-modification during fermentation and chemical modification after purification.
细菌纤维素的改性方法包括细菌发酵时的生物改性及纤维素提纯之后的化学改性。
After bacterial cellulose was added to fresh milk to ferment, the optimum fermented condition was studied by orthogonal experiment.
将其添加到新鲜牛奶中进行乳酸菌发酵,采用正交实验设计确定乳酸菌的最佳发酵条件,研制出细菌纤维素酸奶。
In the paper, the effects of adding bacterial cellulose to the process of fiber recycle on the pulp drainage property and paper physical...
本文重点探讨在二次纤维回用过程中添加细菌纤维后对浆料的滤水性能以及成纸物理性能的影响。
It was found that nine bacterial can produce bacterial cellulose, among them the wood acid bacilli cellulose has the most effective produtivity.
目前已经发现有九个菌属可以产生细菌纤维素,其中以醋酸杆菌属的木醋杆菌产纤维素能力最强。
This article mainly introduced bacterial cellulose unique nature, synthesis and secretion process, and bacterial cellulose commercial applications.
本文主要介绍了细菌纤维素的独特性质、合成和分泌过程,及细菌纤维素的商业用途。
It is holding a self-optimized culture bank of Acetobacter and its core patented technology (ZL96100534.3) to produce bacterial cellulose with biological fermentation.
同时,拥有自己优化的醋酸杆菌菌种库及生物发酵法生产细菌纤维素的核心技术。
The paper mainly studied the dynamical model of the static fermentation of Bacterial Cellulose(BC). Thus the dynamical model of BC in static fermentation was established.
对静态发酵生产细菌纤维素的动力学模型进行了研究,初步建立了细菌纤维素静态发酵生产的动力学模型。
The modified bacterial cellulose was synthesized by the addition of polysaccharide such as sodium alginate, carboxymethye cellulose and carboxymethye chitosan to the culture medium.
合成细菌纤维素时向培养基中添加了海藻酸钠、羧甲基纤维素、 羧甲基壳聚糖等多糖,制备出了性能更优异的改性细菌纤维素。
Comparing bacterial cellulose yogurt to common yogurt, the result showed the concretionary state, texture, oral feel and function of bacterial cellulose yogurt could improve greatly.
生产出的细菌纤维素酸奶和普通酸奶相比较,凝固状态、质地、口感以及功能性都有了很大的改善。
The structure and performance of bacterial cellulose is presented. The production and application is also recommended. It is expected that in the future bacterial cellulose is a promising product.
对细菌纤维素的结构、性质、生产和应用进行了介绍,指出细菌纤维素是一种有广阔前景的产品。
TU-103 is the first bacterial strain found in nature (not genetically engineered) to produce butanol directly from cellulose.
103是第一个自然界中发现的(非基因改造的)能够直接从纤维素产生丁醇的细菌。
Bacterial fermentation helps to break cellulose down in the digestive tract, but of pachyderms' average daily intake of 150kg or so of plant matter, about 60% passes right through.
细菌的发酵作用有助于分解消化道内的植物纤维,但由于大象平均每天要吃150公斤左右的植物,其中约有60%都是直接排出体外。
There is evidence that pigs do have a limited capability for digesting cellulose with the bacterial flora of the large intestine and caecum.
事实表明:猪大肠和盲肠中的细菌确有一定的消化纤维素的能力。
There is evidence that pigs, do have a limited capability for digesting cellulose with the bacterial flora of the large intestine and caecum.
事实表明:猪大肠和盲肠中的细菌确有一定的消化纤维素的能力。
There is evidence that pigs, do have a limited capability for digesting cellulose with the bacterial flora of the large intestine and caecum.
事实表明:猪大肠和盲肠中的细菌确有一定的消化纤维素的能力。
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