排序方式: 共有56条查询结果,搜索用时 125 毫秒
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介绍了采用厌氧-缺氧-接触氧化(即A2/O)组合工艺处理氨纶生产废水的流程和设计参数,通过近半年的调试数据,反应季节对A2/O组合工艺处理氨纶生产废水的影响和可行性。提出运行过程中需要控制的参数,提供设计和运行参考。 相似文献
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采用水解—接触氧化—沉淀工艺处理高浓度米果废水,设计规模为100m^3/d。处理后的CODcr,BOD5,SS和色度的去除率分别达到96.8%,97.7%,94.4%,94.7%,总排放口水质为:pH=7.61,CODcr=70.7mg/L,BOD5mg/L,SS=29.2mg/L;色度的稀释倍数为8。 相似文献
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范炳均 《石油化工环境保护》2002,25(3):23-26
介绍某公司腈纶污水的水质特点,处理工艺、主要设备及构筑物设计参数。该污水预处理装置运行以来,处理效果良好,符合后续生化处理的进水要求。 相似文献
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制药废水组成复杂,污染物浓度高,污水CODcr浓度达10000mg/l,含有大量有毒、有害物质。本中采用催化氧化预处理+水解酸化+UASB+接触氧化+炭滤吸附的工艺流程,通过改善细部参数及改良配套设备设计,提高了各单元去除效率,降低了能耗及处理成本,出水CODcr浓度达到污水综合排放标准. 相似文献
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对屠宰加工过程中产生的中高浓度有机废水采用预曝调节-接触氧化-气浮工艺进行处理。当进水COD浓度为980~1200mg/L时,出水COD浓度可降至76.1~104mg/L,优于国家《肉类加工工业水污染物排放标准》(GB13457-92)二级标准,此工艺的抗冲击负荷能力较强,适应于间歇性生产和季节性生产的屠宰加工企业。 相似文献
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Peter J. Silk Krista Ryall D. Barry Lyons Jon Sweeney Junping Wu 《Die Naturwissenschaften》2009,96(5):601-608
Analyses of the elytral hydrocarbons from male and female emerald ash borer, Agrilus planipennis Fairmaire, that were freshly emerged vs. sexually mature (>10 days old) revealed a female-specific compound, 9-methyl-pentacosane
(9-Me-C25), only present in sexually mature females. This material was synthesized by the Wittig reaction of 2-decanone with (n-hexadecyl)-triphenylphosphonium bromide followed by catalytic reduction to yield racemic 9-Me C25, which matched the natural compound by gas chromatography/mass spectrometry (retention time and EI mass spectrum). In field
bioassays with freeze-killed sexually mature A. planipennis females, feral males spent significantly more time in contact and attempting copulation with unwashed females than with females
that had been washed in n-hexane to remove the cuticular lipids. Hexane-washed females to which 9-Me-C25 had been reapplied elicited similar contact time and percentage of time attempting copulation as unwashed females, indicating
that 9-methyl-pentacosane is a contact sex pheromone component of A. planipennis. This is the first contact sex pheromone identified in the Buprestidae. 相似文献
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Thomas J. Habib Evelyn H. MerrillM.J. Pybus David W. Coltman 《Ecological modelling》2011,222(15):2722-2732
Managing wildlife diseases requires an understanding of disease transmission, which may be strongly affected by host population density and landscape features. Transmission models are typically fit from time-series disease prevalence data and modelled based on how the contact rate among hosts is affected by density, which is often assumed to be a linear (density-dependent transmission) or constant (frequency-dependent transmission) relationship. However, long-term time-series data is unavailable for emerging diseases, and this approach cannot account for independent effects of landscape. We developed a mechanistic model based on ecological data to empirically derive the contact rate-density relationship in white-tailed and mule deer in an enzootic region of chronic wasting disease (CWD) in Alberta, Canada and to determine whether it was affected by landscape. Using data collected from aerial surveys and GPS-telemetry, we developed empirical relationships predicting deer group size, home range size, and habitat selection to iteratively simulate deer distributions across a range of densities and landscapes. We calculated a relative measure of total per-capita contact rate, which is proportional to the number of other deer contacted per individual per unit time, for each distribution as the sum of pairwise contact rates between a target deer and all other individuals. Each pairwise contact rate was estimated from an empirical relationship developed from GPS-telemetry data predicting pairwise contact rates as a function of home range overlap and landscape structure. Total per-capita contact rates increased as a saturating function of density, supporting a transmission model intermediate between density- and frequency-dependent transmission. This pattern resulted from group sizes that reached an asymptote with increasing deer density, although this relationship was mediated by tree and shrub coverage in the landscape, such that in heavily wooded areas, the contact rate saturated at much lower densities. These results suggest that CWD management based on herd reductions, which require a density-dependent contact rate to be effective, may have variable effects on disease across a single management region. The novel mechanistic approach we employed for estimating effects of density and landscape on transmission is a powerful complement to typical data-fitting approaches for modelling disease transmission. 相似文献