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新型菌丝体包覆吸附剂的制备及对Ni2+离子吸附性能的研究 总被引:7,自引:0,他引:7
以菌丝体为核心材料 ,在其表面包覆壳聚糖膜作为吸附介质 ,制备成新型菌丝体包覆吸附剂。系统研究了菌丝体包覆吸附剂的制备工艺及吸附剂对Ni2 + 的吸附特性 ,结果表明 ,菌丝体作核心材料优于花生壳 ,菌丝体包覆吸附剂对Ni2 + 的吸附容量比普通菌丝体水处理剂提高了 50 % ,并可以重复使用 1 0次 ,吸附容量没有明显降低 ;同时菌丝体包覆吸附剂对Ni2 + 的吸附特性较好地符合Langmuir等温方程和Freundlich等温方程 相似文献
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Using soybean hull residue after the soluble dietary fiber being removed during the soybean processing industry as crude material, a novel absorbent modified soybean hulls is prepared. Its adsorption behavior for Pb2+ is studied. The adsorbent has a large and efficient adsorpuon capacity for Pb-, uv to 20% of the mass of dry adsorbent. Its maximum adsorption capacity for Pb2+ reaches 217 mg.g-1 at initial Pb2+ concentration of 2000 mg.L-1,which is twice that of yeast absorbent and threefold greater than that of chitosan absorbent. The adsorption ability is sensitive to pH value in the solution and the optimal pH for adsorption of Pb2+is 7.0. In the presence of other metal ions (Ca2+, Mg2+and Na+) in the solution, their effect on the adsorption capacity for Pb2+is not obvious. After 5 cycles of adsorption, 80% adsorption capacity of Pb2+ is maintained. Compared with various available commercial resins, the modified soybean hulls are a plentiful, inexpensive and effective medium for the capture of dissolved Pb2+ from waste streams. 相似文献
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Using soybean hull residue after the soluble dietary fiber being removed during the soybean processing industry as crude material,a novel absorbent,modified soybean hulls,is prepared.Its adsorption behavior for Pb2+ is studied.The adsorbent has a large and efficient adsorption capacity for Pb2+,up to 20% of the mass of dry ad-sorbent.Its maximum adsorption capacity for Pb2+ reaches 217 mg·g-1 at initial Pb2+ concentration of 2000 mg·L-1,which is twice that of yeast absorbent and threefold greater than that of chitosan absorbent.The adsorption ability is sensitive to pH value in the solution and the optimal pH for adsorption of Pb2+ is 7.0.In the presence of other metal ions (Ca2+,Mg2+ and Na+) in the solution,their effect on the adsorption capacity for Pb2+ is not obvious.After 5 cy-cles of adsorption,80% adsorption capacity of Pb2+ is maintained.Compared with various available commercial resins,the modified soybean hulls are a plentiful,inexpensive and effective medium for the capture of dissolved Pb2+ from waste streams. 相似文献
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采用新型分子印迹菌丝体(Penicillium chrysogenum)吸附树脂处理印刷电路板废水,当铜的初始质量浓度为120 mg/L,pH=5时,静态吸附容量为53 mg/g左右,比商业树脂732提高15%左右;解析率在1 min即达到85%以上,而商业树脂732仅为11%.在中试实验中,连续运行80 h后,出口废水中铜质量浓度仍低于1.0 mg/L左右.与传统处理方法相比较,该法简化了废水处理工艺,节省大量的化学药品,大大降低了废水处理成本. 相似文献
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利用带负电的聚天冬氨酸分子与部分带正电的磷脂双分子层之间的静电吸附作用,通过"一步法"成功制备了聚天冬氨酸(PASP)修饰脂质体(PLPs),实现了修饰脂质体微酸环境响应性。将脂质体制备与PASP修饰同时完成的"一步法"大大简化了制备工艺,提高了脂质体(PLPs)的制备效率。通过单因素筛选确定了pH敏感性显著的修饰脂质体制备条件,即外水相溶液PASP浓度2.5%(质量分数),pH8.5。透射电子显微镜照片显示PLPs由于修饰剂的存在具有更大的粒径,且表面电负性高,证明了"一步法"成功制备了pH敏感性修饰脂质体。 相似文献
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对含有一定量重金属离子Cu2+、Ni2+的废弃菌丝体吸附剂通过厌氧发酵进行了资源化处理.结果表明在重金属离子残余量不大于400 mg/kg(吸附剂)时,对含有Cu2+、Ni2+离子的废弃菌丝体吸附剂进行厌氧发酵处理是一条有效的资源化途径,单位累计总产气量分别为364~419 mL/gVS和402~457 mL/gVS,与单位累计总产气量为364 mL/gVS单纯的菌丝体吸附剂的厌氧发酵相比,产气中的甲烷含量也分别提高了33.3%、13.6%.而且在厌氧发酵过程中,Cu2+、Ni2+都实现了向更稳定态的转化,转化率分别为80%和41%左右,降低了重金属离子的危害. 相似文献
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高分子量聚丁二酸丁二醇酯的制备及性能研究 总被引:1,自引:0,他引:1
以1,4-丁二醇和丁二酸为原料,通过加入少量的扩链剂,利用直接缩聚法在短时间内合成了高分子量的聚丁二酸丁二醇酯(PBS).采用GPC、DSC以及TGA等方法对产物进行了表征,同时研究了扩链剂的加入对聚合物性能的影响.结果表明,当扩链剂加入量为PBS预聚物的2.5%时,扩链产物的性能最佳,重均分子量由3万上升到17万,拉... 相似文献
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