生物滴滤法去除硫化氢与苯乙酸混合废气

采用填充ZX03型填料的生物滴滤塔处理H2S与C6H5CH2COOH的混合制药废气。主要考察了不同进气浓度比例下H2S与C6H5CH2 COOH的去除效率，不同流量下的压力损失及气体停留时间对去除率的影响。结果表明：随着H2S与C6H5CH2COOH进气浓度比例的提高，H2S的去除率均保持在95％以上，C6H5CH2 COOH的去除率逐渐下降。当H2S与C6H5CH2COOH的进气质量浓度分别为P（H2S）〈400mg／m^3与ρ（C6H5CH2COOH）〈800mg／m^3，其最佳气体停留时间为30s。该生物滴滤塔压力损失小，无堵塞现象，可长期稳定运行。     

Adsorption of Fluoride Ion by Inorganic Cerium Based Adsorbent

Excess of fluoride in drinking water is harmful to human health, the concentration of F^- ions must be maintained in the range of 0.5 to 1.5 mg/L. An inorganic cerium based adsorbent (CTA) is developed on the basis of research of adsorption of fluoride on cerium oxide hydrate. Some adsorption of fluoride by CTA adsorbent experiments were carried out, and results showed that CTA adsorbent has a quick adsorption speed and a large adsorption capacity. Adsorption follows Freundlich isotherm, and low pH value helps fluoride removal. Some physical-chemical characteristics of CTA adsorbent were experimented, fluoride removal mechanism was explored, and results showed that hydroxyl group of CTA adsorbent played an important role in the fluoride removal.     

无机铈基吸附剂的合成及对氟的吸附研究

在研究水合氧化铈对氟离子吸附的基础上，成功研制了无机铈基吸附剂(CFA)。对CFA吸附氟的性能进行试验研究。结果表明，CFA吸附氟的速度快，吸附量大，吸附模式符合Freundlich方程，溶液的低pH值有利于CFA对氟的吸附。表征了CFA的物理化学特征，探讨了CFA的除氟机理，推测CFA的羟基在氟的去除中起到重要作用。     

滴滤塔式生物反应器去除硫化氢恶臭气体

为了治理H2S恶臭污染,研究采用装有ZX01型填料的生物滴滤塔,进行了长期实验室H2S脱臭试验.结果表明:该生物滴滤塔H2S的进气浓度低于300 ms/m3时,气体最佳停留时间为30 s,去除率接近100%,H2S代谢产物以硫酸根离子为主.该滴滤塔阻抗较低,无需经常进行反冲洗,可长期稳定运行.     

Research of chemical induction unit on mixing effect and chlorine saving

Rapid mixing and chlorine saving are two important problems that most drinking water industries are focus on, and this paper adopts chemical induction unit to compare with water jet injector to study what merits chemical induction unit has. The experiment chose coefficient of variability of chlorine concentration to evaluate the mix effect and used chlorine consumption to compare the two equipments. Distribution reservoir experiments show that chemical induction unit can completely mix chlorine less than 6.2 seconds and water jet injector can not completely mix in 3 minutes. Mixing pool experiments show that chemical induction unit can save chlorine compared with water jet injector, and can save more if more chlorine is consumed.