板坯火焰清理机烟气治理技术

介绍了国产板坯火焰清理机烟气的治理系统及湿式电除尘器的结构和技术特点.结果表明,该烟气治理系统及湿式电除尘器能够满足火焰清理机工况和烟气排放的环保要求,完全可以替代同类进口设备.     

气体ClO_2对空气中甲醛去除效果的研究

研究高纯度气体ClO2对空气中甲醛气体的去除效果。主要考查了气体ClO2浓度、反应时间及甲醛初始浓度对甲醛去除率的影响。实验结果表明,甲醛去除率随ClO2浓度的增加而提高,当甲醛初始质量浓度为2.4 mg/m3,ClO2质量浓度达到1.8 mg/m3时,甲醛去除率达到99.5%,且甲醛的去除率随反应时间的延长而提高,但30 min后去除率趋于平稳达到99.7%;ClO2对甲醛的去除率随甲醛初始浓度的升高出现先上升后下降的趋势。     

基于三维连续‑离散耦合模型的门架式双排抗滑桩受力分析

使用结构力学计算模型分析门架式双排抗滑桩内力变形,由于引入简化假定在实际工程中存在一定局限。 依托湖北省巴东县某建筑边坡工程,以FLAC3D和PFC3D为工具建立包含门架式双排抗滑桩结构和边坡的三维连续-离散耦合分析模型,采用重力增加法获取给定安全系数下的门架式双排抗滑桩的内力变形,并通过对比分析明确排距、桩距和桩径对内力变形的影响。研究表明,连续-离散耦合模型可有效获取桩后土体潜在滑移趋势并考虑桩土相互作用。前后排桩弯矩分布呈现“S”型曲线特征,且前排桩承受更大弯矩。前后排桩侧向位移总体上均由桩底向上逐步增大,前排桩略大于后排桩,但由于连梁约束作用前排桩侧向位移在近桩顶处减小。给定安全系数增大会导致前后排桩弯矩增大和侧向位移非线性增长。排距增大后,前排桩桩顶负弯矩增大,前后排桩桩身正弯矩减小、负弯矩增大。桩距增大对桩顶弯矩影响较小,但会导致前后排桩桩身正弯矩和负弯矩均增大。桩径增大后,后排桩桩顶正弯矩增大,前排桩正弯矩和负弯矩均增大,后排桩正弯矩增大而负弯矩减小。     

用含固定化微生物的曝气生物滤池处理炼油厂高浓度废水

采用含固定化微生物的曝气生物滤池(G-BAF)处理炼油厂高浓度废水。当G-BAF池进水COD为298～11 278 mg/L时,出水COD为33.0～94.3 mg/L,COD平均去除率为97%;当G-BAF池进水ρ(NH_3-N)为12.1～188.0 mg/L时,出水ρ(NH_3-N)为0.9～49.4 mg/L,NH_3-N平均去除率为83%。经G-BAF处理后出水水质完全达到GB8978—1996《污水综合排放标准》第二类污染物的二级排放标准。     

Effects of leachate accumulation on landfill stability in humid regions of China

Leachate levels are important to landfill stability and safety. High leachate or water levels often lead to landfill instability, which can cause accidents. Here a case study of a landfill located in a humid region of southern China is presented. Leachate distribution and quality were systematically analyzed, and the effect of leachate level on waste-mass stability was assessed. Boreholes were drilled in the field, samples were analyzed in the laboratory, and a simulation was performed. In addition, the safety and stability of the landfill was evaluated. The leachate level in the landfill was 9–19 m, which was higher than the top of the dam crest (8–20 m). Leachate accounted for more than 1/4 of the total landfill storage capacity. The contaminant concentration of the leachate samples collected directly from the waste body was very high, with large variation among the samples. The mean concentrations of NH₃–N, BOD, and COD from the waste body were 5404, 14,136, and 22,691 mg/L, nearly 2.7, 2.4, and 1.8 times the mean concentrations in the leachate pond, respectively. Three series of shear strength parameters were used in a slope stability analysis, and a limit equilibrium method was used to calculate the factor of safety (Fs). The analysis showed that Fs could be affected by potential anisotropy in the shear strength of the waste. The minimum values of Fs corresponding to series I were 1.84 and 1.17 for units ? and II, respectively. The Fs value of unit II was significantly lower than the safe design value (1.25). In addition, Fs decreased with increase in the normalized height of the leachate level, h/H, where h is the height of the leachate mound and H is the maximum thickness of the landfill. If the h/H values of units I and II are kept below 50% and 40%, respectively, a safe design value of 1.25 for Fs can be guaranteed. Therefore, some measures to prevent risk should be considered.     

Study of nitrogen oxide absorption in the calcium sulfite slurry

Experiments were conducted using a bubbling reactor to investigate nitrogen oxide absorption in the calcium sulfite slurry. The effects of CaSO₃ concentration, NO₂/NO mole ratio and O₂ concentrations on NO₂ and SO₂ absorption efficiencies were investigated. Five types of additives, including MgSO₄, Na₂SO₄, FeSO₄, MgSO₄/Na₂SO₄ and FeSO₄/Na₂SO₄, had been evaluated for enhancing NO₂ absorption in CaSO₃ slurry. Results showed that CaSO₃ concentration had significant impact on NO₂ and SO₂ absorption efficiencies, and the highest absorption efficiencies of SO₂ and NO₂ could reach about 99.5 and 75.0 %, respectively. Furthermore, the NO₂ absorption was closely related to the NO₂/NO mole ratio, and the existence of NO₂ in flue gas may promote NO absorption. The presence of O₂ in simulated flue gas was disadvantage for NO _x removal because it can oxidize sulfite to sulfate. It was worth pointing out that FeSO₄/Na₂SO₄ was the best additive among those investigated additives, as the NO₂ removal efficiency was significantly increased from 74.8 to 95.0 %. IC and in situ FTIR results suggest that the main products were NO₃ ^? and NO₂ ^? in liquid phase and N₂O, N₂O₅ and HNO₃ in gas phase during the CaSO₃ absorption process.     

钢渣吸附Pb2+的动力学研究

采用批式振荡吸附法研究了钢渣吸附Pb^2＋的动力学。研究结果表明,钢渣吸附Pb^2＋的动力学控制步骤（简称动力学控制步骤）随实验条件的变化而变化：钢渣粒径大于120μm、振荡器转速小于150r/min或Pb^2＋初始质量浓度小于150mg/L时,孔扩散是动力学控制步骤;钢渣粒径小于120μm、振荡器转速大于150r/min或Pb^2＋初始质量浓度大于150mg/L时,表面扩散是动力学控制步骤;钢渣对Pb^2＋的吸附反应是二级反应,其吸附速率为13.26g/（mg.min）。     

Comparison of Four <Emphasis Type="Italic">Sesbania</Emphasis> Species to Remediate Pb/Zn and Cu Mine Tailings

A 6-month greenhouse pot trial was performed, aimed at screening appropriate Sesbania species for remediation of Pb/Zn and Cu mine tailings. Performances of young seedlings of four Sesbania species (S. cannabina, S. grandiflora, S. rostrata, and S. sesban) were compared with and without inoculation of rhizobia. Seedlings were planted in two types of tailings amended with garden soil or garden soil mixed with river sediment. The results indicated that inoculated plants generally produced a higher biomass than samples without inoculation. Pb/Zn mine tailings containing rather high concentrations of total and water-soluble Cu, Pb, and Zn were toxic to plant growth compared with Cu mine tailings, according to the growth performance of the four species. Sesbania sesban and S. rostrata showed superior growth performance, compared to the other two species. Thus, they can serve as pioneer species to modify the barren environment, by providing organic matter and essential nutrients such as nitrogen, upon decomposition, in a relatively short period of time. This is especially true for S. rostrata, which is an annual plant that forms both stem and root nodules. However, a longer-term field trial should be conducted to investigate if superior species can beneficially modify the habitat for the growth of subsequent plant communities.