1) BACF
生物活性碳纤维
1.
Biological Activated Carbon Fiber(BACF),as new technique of water treatment,was investigated for organics removal from water.
实验以预处理和改性的活性碳纤维(AC F)为载体,经菌种筛选、驯化和生物循环挂膜,形成生物活性碳纤维(BAC F),然后将苯酚模拟废水通过BACF柱,检测了BACF去除苯酚模拟废水的性能。
2) biological activated carbon fiber
生物活性炭纤维
1.
Treatment of restaurant wastewater by immobilized biological activated carbon fiber;
固定化生物活性炭纤维处理餐饮污水
2.
Treatment of slightly polluted water by using the technique of ozone-biological activated carbon fiber;
臭氧-生物活性炭纤维处理微污染原水的研究
3.
Application of Biological Activated Carbon Fiber Technics in Micro-polluted Waterhead;
生物活性炭纤维工艺在微污染水源处理中的应用
3) bioactive fiber
生物活性纤维
1.
Investigation on forming principle and technology of bioactive fiber
生物活性纤维成形机理及技术的研究
2.
Improving mechanics performance of biomaterials as implants requires bioactive fiber for reinforcing composition.
生物材料为改善其作为植入体的力学性能需要生物活性纤维增强。
4) activated carbon fibers
活性碳纤维
1.
Design and control on the structure and function of activated carbon fibers;
活性碳纤维结构设计及功能控制
2.
Design of activated carbon fibers/epoxy resin composites;
活性碳纤维/树脂复合吸波材料的设计
5) active carbon fiber
活性碳纤维
1.
Formaldehyde adsorption and degradation was conducted in the presence of TiO2/ACF(active carbon fiber) photocatalyst prepared from TiO2 sol and ACF.
采用TiO2溶胶和活性碳纤维(ACF)制备的TiO2/ACF光催化剂吸附-降解空气中微量的甲醛。
2.
The main performance of active carbon fiber and TiO_2 composites were introduced and the application and the latest development were summarized.
简要介绍了用于空气净化的活性碳纤维负载二氧化钛复合材料的发展概况、基本性能、应用及其吸附性能研究的意义,并对活性碳纤维负载二氧化钛的主要研究思路作了简要的阐述。
3.
The removing effects of CS 2 with 6# carbon fiber,1# copper fiber,active carbon fiber and AF material are good.
不同滤料对CS2 的消除效果亦不相同 ,其中 6号碳纤维、 1号铜纤维、活性碳纤维及AF材料对CS2 的消除效果较好。
6) activated carbon fiber (ACF)
活性碳纤维
1.
The effect of the operating parameters on the ozonation of phenol aqueous solution in the presence of activated carbon fiber (ACF) was studied.
研究了活性碳纤维(ACF)催化臭氧化降解苯酚过程中各种参数的影响。
2.
Tubers residue was made into activated carbon fiber (ACF) by a series of processes: carbonization at 300℃ for 30 minutes after being alkalized to remove soluble low molecular composites; activation at 800℃ with ZnCl 2 as a catalyst for 30 minutes.
通过利用薯渣经过预氧化处理、碳化和活化等工艺条件试验 ,得到了薯渣开发成活性碳纤维的最佳工艺条件 :薯渣经碱化 ,低含水状态下 30 0℃气氛碳化 ,碳化产物用浓度为 35 %的ZnCl2 处理 ,80 0℃活化 ,所得活性碳纤维对水中苯酚的吸附达 90 %以
3.
Five kinds of activated carbon fiber (ACF) were used in the reduction of NO as reducing agent.
利用程序升温反应装置 ( TPR) ,在微型反应器中对国产各种活性碳纤维 ( ACF)进行了脱除 NO的效果对比实验 ,定量测定了在不同温度下 ACF与 NO的反应产物 ,并通过程序升温脱附 ( TPD)、热重 ( TG)及扫描电镜( SEM)的研究 ,初步探讨了 ACF宏观反应机理 ,并考察了所选 ACF在不同气氛下的变化规律。
补充资料:聚丙烯腈碳纤维增强体(见聚丙烯腈碳纤维)
聚丙烯腈碳纤维增强体(见聚丙烯腈碳纤维)
carbon fibre reinforcements made of polyacrylonitrile
佩八饰”.限沂维用通体carbon fibre reinforce.ments made of polyaerylonitrile以聚丙烯睛纤维为原料制成的、角于复合材料中起承载增强作用和改善性能的碳纤维(见朵丙烯睛碳纤维).
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条