不同通风方式对污泥堆肥的影响

采用2种通风方式和5种调理剂进行污泥堆肥,堆温均能顺利达到设定温度(60℃),并能保持一段高温期,堆肥产品的卫生学指标达到了无害化国家标准.同采用正压强制通风相比,采用自然通风与正压强制通风相结合方式,堆温上升迅速,能耗更低.但正压强制通风能加快堆料含水率的降低和有机质的降解.堆料含水率能极大地影响污泥堆肥过程,堆料的含水率不宜超过80%,在污泥堆肥过程中不必对堆料的pH值进行调整.     

CALPUFF模型在大气环境容量测算中的应用研究

本研究利用CALPUFF空气质量扩散模式模拟了凉山州2007年气象场和s02浓度场,通过现状监测结果与模拟结果的比较评述了模型的适用性;并根据西昌市现状污染源和虚拟污染源情况,通过CALPUFF模拟建立大气污染物传递矩阵,结合线性优化模型测算了西昌市大气环境容量。     

臭氧+曝气生物滤池深度处理工艺试验研究

针对某污水厂出水不达标的情况,本研究采用臭氧(O3)和曝气生物滤池(BAF)组合工艺对其进行深度处理.结果表明,当采用两级臭氧+曝气生物滤池工艺时,出水COD在31～46 mg/L,色度在13～29倍,均达到一级A排放标准.在最佳运行条件下,臭氧氧化使相对分子质量大于50 000的有机物含量减少10％,小于1 000的有机物含量增加14％.曝气生物滤池工艺使相对分子质量小于1 000的有机物含量降低了24％.     

脉冲变频电磁场对水华鱼腥藻生长的效应

对脉冲变频电磁场作用下,扫描频率和磁感应强度的变化对水华鱼腥藻细胞活性和生长的影响进行了研究。结果显示,扫描频率从25-27 Hz增大到1-60 kHz时,磁场对藻细胞活性的抑制作用减小,但增大到60 kHz以上,磁场对藻细胞产生强烈抑制作用,累积水力停留时间4 min的藻样在48 h培养时间内已失去活性停止生长。扫描频率为50-100 Hz和1-60 kHz时,累积水力停留时间2 min的藻样,细胞受到磁场刺激生长加快;只有累积水力停留时间〉6 min,才表现出对藻活性的抑制作用。磁感应强度增大至120 G,磁场对细胞活性产生明显抑制作用,增大磁感应强度有利于对细胞活性和生长的抑制。     

花卉废物和牛粪联合堆肥中的氮迁移

以花卉废物和牛粪为原料,进行了温度反馈的通气量控制联合堆肥中的氮迁移中试研究.采用自制的静态好氧床进行一次发酵,过程控制采用温度反馈通气量控制方法,发酵周期20d;采用周期性翻堆进行物料二次腐熟,腐熟周期40d.研究了堆肥过程中总氮、有机氮、无机氮、氨氮、硝氮等氮素形态转化随时间的变化特征及温度反馈的通气量控制对氮迁移的影响.结果表明:堆肥初期的氨化作用和反硝化作用显著,氮素总量损失累计达41.98%,其中主要是有机氮的损失,99.95%的氮损失发生在一次发酵阶段;氮素损失主要是在pH和温度较高条件下的氨气大量挥发造成的.对通风进行有效控制、提高物料C/N及添加酸性物质有望减少N损失.对于C/N较低,硝态氮含量较高的物料堆肥,NH₄⁺-N≤0.04%、NH₄/NO₃≤0.16不能作为腐熟度指标.     

Factors influencing the contents of metals and As in soils around the watershed of Guanting Reservoir, China

Topsoil samples from 61 sites around the Guanting Reservoir,China,were measured for Cu,Zn,Cr,Ni,Cd,Pb and As concentrations.The mean concentrations of Cu,Zn,Cr,Ni,Cd,Pb and As were 16.8,59.4,37.8,18.3,0.32,20.1 and 8.67 mg/kg dry weight,respectively.Factors that influence the dynamics of these metals in soils around the watersheds of Beijing reservoirs were examined.The influence of atmospheric deposition,land use,soil texture,soil type and soil chemical parameters on metal contents in soils was investigated.Atmospheric deposition,land use and soil texture were the important factors affecting heavy metal residues.Soil type and soil chemical parameters were also involved in heavy metal retention in soils.The data provided in this study are considered crucial for reservoir remediation,especially since the Guanting Reservoir will serve as one of the main drinking water sources for Beijing in the foreseeable future.     

火电厂煤尘污染防治主要措施研究

文章通过对火电项目煤尘产生源的分析,根据北方地区社会、经济、环境现状,提出电厂储煤场及输煤系统煤尘的主要防治措施,从而为北方经济欠发达地区火电厂的煤尘污染防治提供一些参考依据,促进环境质量的改善。     

Particle number size distribution and new particle formation: New characteristics during the special pollution control period in Beijing

New particle formation is a key process in shaping the size distribution of aerosols in the atmosphere.We present here the measurement results of number and size distribution of aerosol particles (10-1...     

纳污湿地上覆水中重金属的监测及评价

以武河湿地为研究区域采集上覆水水样,采用ICP-AES法测定湿地水体中重金属的含量,参照有关标准用水质标准级别法对水中重金属污染情况进行了评价。结果表明:武河湿地中重金属Hg污染十分严重,各采样点均有分布且水质属劣Ⅴ类。重金属元素Cd污染并不严重,总体水质较好。重金属元素As、Cr、Cu、Pb在武河湿地中污染较轻近乎无污染,水质为Ⅰ类。由于重金属Hg的污染十分严重所以研究区内综合质量等级在4以上,水质为Ⅴ类和劣Ⅴ类,污染严重。     

Fe2O3 particles as superior catalysts for low temperature selective catalytic reduction of NO with NH3

Fe203 particle catalysts were experimentally studied in the low temperature selective catalytic reduction （SCR） of NO with NH3. The effects of reaction temperature, oxygen concentration, [NH3]/[NO] molar ratio and residence time on SCR activity were studied. It was found that Fe203 catalysts had high activity for the SCR of NO with NH3 in a broad temperature range of 150-270℃, and more than 95% NO conversion was obtained at 180℃ when the molar ratio [NH3]/[NO] = 1, the residence time was 0.48 seconds and 02 volume fraction was 3%. In addition, the effect of SO2 on SCR catalytic activity was also investigated at the temperature of 180℃. The results showed that deactivation of the Fe2O3 particles occurred due to the presence of SO2 and the NO conversion decreased from 99.2% to 58% in 240 min, since SO2 gradually decreased the catalytic activity of the catalysts. In addition, X-ray diffraction, Thermogravimetric analysis and Fourier transform infrared spectroscopy were used to characterize the fresh and deactivated Fe2O3 catalysts. The results showed that the deactivation caused by SO2 was due to the formation of metal sulfates and ammonium sulfates on the catalyst surface during the de-NO reaction, which could cause pore plugging and result in suppression of the catalytic activity.