第三方挖掘作用下PE燃气管道失效行为研究

针对挖掘破坏导致的城镇燃气管道失效,开展了挖掘作用下管道力学失效机理分析。考虑管土接触作用,建立了城镇燃气PE管道在挖掘齿作用下的三维力学响应分析模型,分析了典型工况下管道的失效过程,讨论了基于应力准则与基于应变准则等2种失效准则的适用性,并开展了影响因素分析。结果表明:机械齿作用下管道主要失效位置为机械齿与管道接触位置两端;采用基于应变的失效准则可以更好地利用PE管材的塑性性能;机械齿的作用位置对管道力学响应影响较小;管径和壁厚的增大能减小管道内的应力,同时能够减小管道的截面椭圆度;内压的改变对管道的力学响应几乎没有影响。以上结果可为城镇燃气管道的力学失效分析与安全评价提供一定的参考。     

地下综合管廊天然气管道泄漏扩散模拟研究

为了研究管道异常泄漏时天然气的扩散情况,采用Fluent软件模拟研究不同压力条件下气体在管舱内的浓度分布特性,核算保护半径为7.5 m时的报警探测器在灾变时的响应时间,以达到指导报警探测器设计的目的。结果表明:当泄漏压力为103.3 kPa,200.0 kPa时,对应的报警响应时间分别为2.15 s,0.45 s,报警响应时间随着泄漏压力的增大而减小,在常规中压输出压力下,响应时间最大值为2.15 s;同一泄漏压力下,管舱内气体扩散距离与泄漏持续时间成正相关;报警探测器的响应浓度以爆炸下限的20%为推荐值。     

芬顿试剂与DDBAC联合调理污泥的工艺优化

研究了不同pH值下芬顿试剂(H2O2/Fe2+)与表面活性剂(DDBAC)联合调理对污泥脱水性能的影响,以污泥滤饼含水率(WC)和毛细吸水时间(CST)作为评价指标进行单因素试验,得出pH值以及药剂投加量最佳范围.然后通过以响应曲面优化法(RSM)为依据的Box-Behnken试验,建立了WC和CST减少率二次多项式预测模型,进而得到各影响因素的最优值.结果表明,联合调理过程中pH=3.91,H2O2、Fe2+和DDBAC的投加量分别为47.60, 38.60, 58.20mg/g时, WC降至60.26%, CST减少率升至89.89%, 污泥脱水性能明显改善.同时,在最优条件下进行了验证试验,试验结果与模型预测值基本吻合,表明基于响应曲面法所得的最佳工艺参数准确可靠,对相关污泥处理及条件优化具有一定的指导意义.     

响应曲面法在反硝化生物滤池运行参数优化中的应用

为预测反硝化生物滤池深度处理城镇污水处理厂二沉池出水的脱氮效果,优化工艺运行参数,以黏土陶粒反硝化生物滤池作为反应器,以人工合成污水模拟污水处理厂二沉池出水,采用中心组合试验设计,利用响应曲面法研究反应器NO₃--N去除率与HRT(水力停留时间)、进水中ρ(COD_Cr)和ρ(NO₃--N)之间的关系. 统计结果显示,NO₃--N去除模型极显著(P<0.000 1),并且模型预测值与试验值能很好地吻合. 方差分析结果表明,HRT及其与进水中ρ(NO₃--N)和ρ(COD_Cr)的交互作用对反硝化滤池NO₃--N的去除率影响不显著(P>0.05),而进水中ρ(NO₃--N)和ρ(COD_Cr)及其交互作用对反硝化滤池NO₃--N的去除具有显著影响(P＜0.05). 3个因素对NO₃--N去除率影响强弱的顺序为进水ρ(COD_Cr)>进水ρ(NO₃--N)>HRT. 在HRT为2.50 h的条件下,当进水中ρ(NO₃--N)＜11.00 mg/L及ρ(COD_Cr)＞43.00 mg/L时,反硝化滤池NO₃--N的去除率可以达到71.0%以上.      

微量金属元素投加量优化组合对污泥发酵产乙酸的影响

污泥厌氧发酵生产乙酸是实现污泥减量化和资源化的有效途径. 为了提高污泥中的ρ(乙酸),分别考察了Fe2+、Co2+、Cu2+、Zn2+和Mn2+5种微量金属元素的投加影响. 结果表明,5种微量元素都可以促进污泥中乙酸的产生,作用大小依次为Co2+>Mn2+>Fe2+> Zn2+>Cu2+. 但当Fe2+、Co2+、Cu2+、Zn2+和Mn2+投加量(以w计)分别超过0.100 0%、0.006 0%、0.002 0%、0.004 0%和0.100 0%时,ρ(乙酸)却明显下降. 分别选取Fe2+(0.040 0%~0.150 0%)、Co2+(0.002 0%~0.008 0%)、Cu2+(0.000 5%~0.006 0%)、Zn2+(0.000 5%~0.010 0%)和Mn2+(0.040 0%~0.150 0%)进行响应面条件优化试验. 在Fe2+、Mn2+投加量均为0.090 0%,Co2+、Zn2+投加量均为0.005 0%,Cu2+投加量为0.003 5%的组合优化条件下,ρ(乙酸)高达3 452 mg/L,比优化前提高了61.80%. 最优的微量元素投量组合条件下获得的试验结果与二次响应面回归模型预测值(3 475 mg/L)拟合率高达99.34%,表明所建立的回归模型可行.      

不同退耕还草方式下宁夏南部山区土壤氮素转化速率与微生物变化的耦合关系

为了明确不同退耕还草方式下土壤养分转化的机理及其影响因素,以宁夏南部山区(下称宁南山区)天然草地、人工草地和撂荒地土壤为研究对象,运用PVC顶盖埋管法对3种类型草地土壤中氮素的净转化速率、微生物区系和氮素微生物生理群进行了研究,探讨土壤氮素净转化速率与微生物的关系. 结果表明:①在培养过程中,3种草地类型土壤中细菌、放线菌和真菌数量平均值分别为9.6×105、3.8×104和4.0×101 CFU/g(以干土计),氮素微生物生理群数量表现为氨化细菌(4.5×104 CFU/g)>自生固氮菌(4.3×103 CFU/g)>硝化细菌(6.5×102 CFU/g)>反硝化细菌(3.9×102 CFU/g)>亚硝化细菌(1.7×102 CFU/g),其中,人工草地土壤中微生物数量最高;②细菌、真菌、反硝化细菌与亚硝化细菌数量的峰值均出现在培养第120天,放线菌和自生固氮菌数量的峰值均出现在第240天,硝化细菌数量的峰值出现在第60天,而氨化细菌数量在各类型草地土壤中出现峰值的时间不统一;③各类型草地土壤氮素的净矿化速率、净氨化速率、净硝化速率均在61~120 d内最低,净矿化速率与净硝化速率在181~240 d内最高,净氨化速率在241~360 d内最高,微生物固氮速率的峰值出现在121~180 d,最低值出现在241~360 d. 在该区土壤氮素转化速率与微生物数量紧密相关,土壤温度、土壤水分通过影响微生物数量而成为影响土壤氮素矿化的主要因素;土壤氮素的生物固持过程比有机氮矿化过程更为活跃;种植苜蓿的人工草地比天然草地和撂荒地更有利于微生物的繁殖与土壤氮素的矿化.      

微生物絮凝剂MBF TS-1的表征

对筛选的一株絮凝剂产生菌Bacillus TS-1所产絮凝剂MBF TS-1采用UV- vis吸收光谱、FT-IR光谱、糖类颜色反应、动物急性毒性实验等进行了化学组成分析、表征和理化性质检测.结果证实,该絮凝剂为安全无毒、分子量为105-106的弱酸性多糖类物质,属环境友好型微生物絮凝剂.     

Origins and scales of hypoxia on the Louisiana shelf: Importance of seasonal plankton dynamics and river nutrients and discharge

Management plans for the Mississippi River Basin call for reductions in nutrient concentrations up to 40% or more to reduce hypoxia in the Gulf of Mexico (GOM), while at the same time the government is considering new farm subsidies to promote development of biofuels from corn. Thus there are possibilities of both increasing and decreasing river nutrients depending on national priorities. River flow rates which also influence the extent of hypoxia on the shelf may be altered by global climate change. We have therefore developed a series of simulations to forecast ecosystem response to alterations in nutrient loading and river flow. We simulate ecosystem response and hypoxia events using a linked model consisting of multiple phytoplankton groups competing for nitrogen, phosphorus and light, zooplankton grazing that is influenced by prey edibility and stoichiometry, sub-pycnocline water-column metabolism that is influenced by sinking fecal pellets and algal cells, and multi-element sediment diagenesis. This model formulation depicts four areas of increasing salinity moving westward away from the Mississippi River point of discharge, where the surface mixed layer, four bottom layers and underlying sediments are represented in each area. The model supports the contention that a 40% decrease in river nutrient will substantially reduce the duration and areal extent of hypoxia on the shelf. But it also suggests that in low and middle salinity areas the hypoxia response is saturated with respect to nutrients, and that in high salinity regions small increases in nutrient and river flow will have disproportionally large effects on GOM hypoxia. The model simulations also suggest that river discharge is a stronger factor influencing hypoxia than river nutrients in the Mississippi River plume. Finally, the model simulations suggest that primary production in the low salinity regions is light limited while primary production in the higher salinity zones is phosphate limited during the May to October period when hypoxia is prevalent in the Mississippi River plume.     

Modeling the refuge effect of submerged macrophytes in ecological dynamics of shallow lakes: A new model of fish functional response

Submerged macrophytes often provide refuge for zooplankton from fish predation in temperate and subtropical shallow lakes. However, since the relationship between submerged macrophyte abundance and its refuge effect has not been well established, the refuge effect is difficult to be simulated. In this paper, we constructed mathematical models to describe the refuge effect of submerged macrophytes on fish foraging activities and ecological dynamics of shallow lakes based on the previous studies. We clarified the underlying behavioral mechanisms of the observed functional responses through analyses of the fish foraging behavior, extracted the affected variables related to the refuge effect, formulized the relationship between the affected variables and submerged vegetation density, and determined parameter values with a compensative procedure. Calibration and validation results indicated that the new functional response model was successful to simulate the refuge effect on interfering with fish foraging behavior. Moreover, the model was cooperated into a minimal ecological model for shallow lakes. Modeling results showed that the model was able to simulate the refuge effect in ecological dynamics, and made the ecological model produce significantly different results from those with the existing functional response models.     

环境自动监测站固定式辐射监测仪性能测试与评价

参考计量技术规范《固定式环境γ辐射空气比释动能(率)仪现场校准规范》(JJF 1733—2018),对辐射环境空气自动监测站78台高气压电离室开展辐射特性测试。现场校准方面,仅88%的电离室满足1±0.2的响应范围要求;78台电离室的重复性均不超过1%,响应的非线性均不超过6.5%,符合规范要求。针对电离室开展辐射性能测试,发现电离室在9.0×10^-2~1.0×10⁹ μGy/h范围内的响应均不超过1±0.2;电离室对164 keV以上的光子的能量响应趋于1.0,对60 keV以下的光子无响应能力,而当光子能量在60~164 keV范围内时,响应曲线会因γ光子与电离室内部惰性气体的光电效应出现"鼓包";电离室不具备对核临界事故脉冲辐射的监测与警示能力;电离室能够在2 s内给出测量范围内的准确示值,但在分段电压的交界处,响应时间会延长至180~360 s;电离室的响应受环境温度、湿度变化的影响大小不足±0.01,表明电离室的环境适应性优良。