生物催化氧化法脱除H2S的试验研究

针对H₂S污染的严峻形势，构建了包括催化再生装置和生物滴滤器的生物催化氧化装置。该装置以沸石为填料，以氧化亚铁硫杆菌为脱硫菌种，通过微生物和Fe³⁺的双重氧化作用高效脱除H₂S。试验确定了装置的适宜喷淋量和沸石的最佳粒径。在温度为30℃，进气量为0.25 m³/h，进气H₂S浓度为2500mg/m³，喷淋量为1000mL/h，喷淋液的pH值为1.97、Fe³⁺浓度为0.05 mol/L的条件下，出气H₂S浓度足以达到GB14554-93规定的一级厂界标准值。试验证明，生物催化氧化法是一种新型高效的脱硫技术，应进一步开展中试研究。     

沸石负载淀粉对Pb2+、Cu2+和Ni2+的吸附性能

将淀粉负载到沸石表面得到新型重金属离子复合吸附剂ZLS。分别从沸石与淀粉质量比、吸附温度、吸附时间、pH与重金属初始浓度不同方面考察了复合吸附剂ZLS吸附 Pb²⁺、Cu²⁺、Ni²⁺的影响。实验结果表明:当沸石与淀粉质量比为10:1,pH为6,吸附温度在30℃时,复合型吸附剂ZLS对Pb²⁺、Cu²⁺和Ni²⁺ 3种重金属离子的吸附效果最好;吸附动力学研究发现,ZLS对Pb²⁺、Cu²⁺和Ni²⁺的吸附行为均符合准二级动力学以及颗粒内部扩散模型;等温吸附数据符合Freundlich模型,吸附状态属于多层吸附。     

Phosphate removal from wastewater by model-La（Ⅲ） zeolite adsorbents

Phosphorus is one of the primary nutrients which leads to eutrophication and accelerates aging process in enclosed water bodies. Because of the poor phosphorus selectivity of other adsorbents, the novel La(III)-modified zeolite adsorbent (LZA) was prepared by modifying 90 nm zeolite with lanthanide to selectively remove phosphate in the presence of various omnipresent anions, such as sulfates, bicarbonates, and chlorides. Through batch and fixed bed operation, the following optimum conditions were obtained: concentration of lanthanum chloride solution 0.05 mol/L; solid/liquor ratio 1/25; pH 10; calcination temperature 550℃; time 1 h. The value of the Freundlich model constants Kf and 1/n were found to be 16.76 mg/L and 0.2209, respectively. In addition, when calculated at pH 6.0, distribution coe cient KD could be as high as 36.6. Furthermore, in the alkaline pH range, solution of 0.8 mol/L NaCl was used to regenerate the saturated LZA, which could reach the high regeneration e ciency as high as 100%. Because of the good selectivity and regenerability of LZA, it might serve as a potential way for advanced phosphate removal from the sewage containing other anions.