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。
The most important representatives are starch, glycogens, and cellulose. Starch is the most important carbohydrate used on fermentation processes.
最典型的代表是淀粉、糖原和纤维素。
Both starch and cellulose consist of sugar molecules, linked together in different ways, and sugar is what fermentation feeds on.
淀粉和纤维素都由多糖分子构成,只不过连结方式不同,而且发酵也以糖为能源。
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。
The analysis of the fermented product showed that the content of cellulose in straw powder was 22.34%, crude protein 22.08% and soluble sugar 3.87% after fermentation by using optimized process.
产物分析结果表明:采用优化工艺进行发酵,发酵后稻草粉的纤维素含量为22.34%;粗蛋白含量达22.08%,可溶性糖含量为3.87%。
By the end of fermentation, the contents of cellulose and hemicellulose reduced 7.39% and 43.76% respectively, while the lignin content had little change.
发酵结束时,纤维素和半纤维素含量分别降低了7.39%和43.76%,而木质素在整个发酵过程中分解很少。
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。
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。
To utilize the advantages of solid state fermentation for cellulose production, the solid state fermentation with double dynamic of gas phase was proposed.
为了充分利用纤维素酶固态发酵的优势,提出了纤维素酶气相双动态固态发酵的方式。
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。
Different raw materials including cellulose and starch for ethanol fermentation are compared, and some new methods, for instance, recombinant xylose microorganisms are also discussed.
对以淀粉和纤维素为原料的发酵制燃料酒精技术进行了比较,对木糖基因工程菌的构建及发酵工艺的国外新进展进行了讨论。
Xylanases could be produced selectively with coarse xylan mixed with cellulose as the carbon source, by controlling culture conditions in fed_batch fermentation.
以混有少量纤维素的粗木聚糖作碳源,通过分批补料及对培养条件的限制性控制里氏木霉可选择性合成木聚糖酶;
The use of monosaccharides and the way non-cellulose degraded in the fermentation process were studied integratedly.
本文对该菌种的单糖利用、草本纤维提取过程中非纤维素物质脱除规律与方式等进行了深入研究;
The biological oils are preferably produced by heterotrophic fermentation of one or more microorganisms using cellulose-containing feedstock as a main source of carbon.
生物油优选采用含纤维素作为主要的碳源的原料,由一种或多种微生物经异养发酵进行制备。
The biological oils are preferably produced by heterotrophic fermentation of one or more microorganisms using cellulose-containing feedstock as a main source of carbon.
生物油优选采用含纤维素作为主要的碳源的原料,由一种或多种微生物经异养发酵进行制备。
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