基于响应面法的联结翼气动设计及优化

联结翼布局与常规布局相比具有结构重量轻、诱导阻力小、升力系数大、稳定性良好的特点。本文选取5个对联结翼布局影响明显的设计变量,利用数值模拟的方法研究不同设计变量对联结翼气动特性的影响。同时,应用了旨在提高优化计算效率的响应面方法。在优化设计中采用模拟退火算法对目标函数进行优化求解。研究结果表明,在机翼面积不变的情况下,增大前、后翼弦向距离以及两翼间的翼隔,采用V型翼差角布局方式,能有效降低两翼间的相互干扰,增大升阻比。

响应面法优化黑曲霉产α-葡萄糖苷酶发酵条件

在液体发酵单因素研究的基础上,通过二水平设计的Plackett-Burman试验确定3个对黑曲霉产α-葡萄糖苷酶影响的关键因素:玉米淀粉用量、装液量和温度。再通过最陡爬坡实验逼近最大酶活区。最后利用响应面法中的Box-Behnken试验设计,进行三因素三水平的响应面分析,以期获得黑曲霉产α-葡萄糖苷酶最优的发酵培养基和发酵条件。优化结果表明,黑曲霉产葡萄糖苷酶最优条件为:玉米淀粉55.8 g/L,玉米浆干粉30 g/L,接种量4%(体积分数),装液量49.3 m L(500 m L摇瓶),摇床转速240 r/min,初始p H4.8,发酵温度36.3℃。优化后α-葡萄糖苷酶活为375.5 U/m L。

龟裂链霉菌高产土霉素菌株的诱变筛选及其发酵条件

对出发菌株186-6冻存的孢子悬液进行了活化及复性,先后经过6轮筛选,获得1株高产菌株,命名为P-11.与186-6相比,高产菌株的发酵效价提高了20.75%.对高产菌株进行5次斜面传代,对其遗传特性进行考察,与原始效价相比,高产菌株的效价分别为99.8%,100.2%,98.5%,97.4%,96.6%,说明高产菌株的遗传稳定性良好.对高产菌株特性考察的结果表明:菌种纯度为98.4%,磷耐受性比原始菌株186#有很大提高.代谢参数研究表明,其前期代谢较186#菌株慢.对原发酵培养基进行优化,得到新配方:淀粉120g/L,黄豆饼粉15.5g/L,棉籽饼粉5g/L,CaCO315g/L,(NH4)2SO414.5g/L,NaCl 4.7g/L,玉米浆10g/L,KH2PO40.1g/L,消沫剂0.1g/L,CoCl 0.01g/L,淀粉酶0.12g/L.与原配方相比,土霉素发酵效价提高了25%左右.不同氨基酸对土霉素效价的影响结果表明:对提高土霉素效价起积极作用的3种氨基酸是Thr,Ser和Phe.

Fabrication, characterization and evaluation of mesoporous activated carbons from agricultural waste： Jerusalem artichoke stalk as an example

This work explores the feasibility of Jerusalem artichoke stem （JAS）, an agricultural waste, as an alternative precursor for fabrication of mesoporous activated carbon （MAC） via conventional ZnC12 activation. The as-prepared JAS-MACs were characterized by thermogravimetric, nitrogen gas adsorption isotherm and high resolution scanning electron microscopy analysis. The interacting effects of chemical dosage, activation temperature and time on the mesoporosity, mesopore volume and carbon yield were investigated, and further optimized by response surface methodology （RSM）. The Brunauer-Emmett-Teller surface area, mesoporosity and mesopore volume of the JAS-MAC prepared under optimum condition were identified to be 1631 m^2·g ^-1, 90.16% and 1.11 cm3·g ^-1, respectively. Compared with commercial activated carbons, this carbon exhibited a comparable monolayer adsorption capacity of 374.5 mg .g 1 for Methylene Blue dye. The findings suggest that RSM could be an effective approach for optimizing the pore structure of fabricated activated carbons.