气体钻井突发性井壁失稳动力演化机理及试验研究

从致密砂岩损伤破坏的角度出发,综合考虑致密砂岩的物理力学性质、地应力、裂缝圈闭高压等因素,在分析孔隙压力、地应力、裂缝圈闭高压在突发性井壁失稳过程中所起的作用基础上,将气体钻井突发性井壁失稳具有强烈时间效应的动态力学过程分为孕育、突变、井筒运移和终止4个阶段。对裂缝圈闭高压、地应力作用下致密砂岩的加速损伤演化引起的突发性井壁失稳机理进行了阐述,裂缝圈闭高压是突发性井壁失稳的主要动力源,地应力对突发性井壁失稳起辅助作用。通过模拟实验表明,受地应力破坏后的致密砂岩岩体在有裂缝情况下,卸压初始时刻释放的能量是无裂缝时的5~10倍,且该能量与动力学失稳密切相关。     

ABS树脂装置丁二烯聚合工段废水水质表征

为确定某ABS树脂装置丁二烯聚合工段废水水质,特别是特征有机物种类,采用吹扫捕集、静态顶空、固相萃取、固相微萃取和液液萃取等预处理方法与GC/MS(气相色谱/质谱)联用,定性检测出该工段废水中含有16种挥发、半挥发性有机物,主要包括烯烃、苯系物、有机腈、多环芳烃、醚、醇和胺. 废水ρ(SS)(SS为悬浮物)为540.31 mg/L;SS粒径主要分布在0.10~5.00 μm之间,可吸附水中4.83%~33.21%的对二甲苯、乙苯、苯乙烯和1,5-环辛二烯等有机物. 与生活污水不同,该工段废水三维荧光光谱图的荧光区域集中在λ_Ex/λ_Em(激发波长/发射波长)=205~285 nm/310~360 nm范围内,主要包括λ_Ex/λ_Em为285 nm/350 nm、260 nm/310 nm、225 nm/345 nm、210 nm/315 nm、230 nm/360 nm的5个荧光峰,由甲苯、靛蓝、苯乙烯、脱氢松香酸、芴、菲等苯系物和多环芳烃类有机物引起. 废水在200~250 nm之间有较强紫外吸收峰,主要由1,3-丁二烯、苯甲醛、苯乙酮、4-苯基-1-环己烯等共轭二烯、不饱和醛、酮和苯系物等有机物引起.      

土壤中苯系物的吹扫捕集-气相色谱-质谱测定方法

采用吹扫捕集-气相色谱-质谱联用(PT-GC-MS)法,研究了污染土壤中苯系物(包括苯、甲苯、乙苯、对间二甲苯、邻二甲苯和异丙苯)的测定方法,优化了吹扫捕集作为北京潮土中苯系物预处理方法的参数. 结果表明,吹扫时间11 min,解吸温度190 ℃和解吸时间0.5 min为最佳的吹扫捕集方法参数. 采用PT-GC-MS法测定土壤中的苯系物的平均加标回收率为99.0%～103.9%,相对标准偏差为10.3%～17.5%(n=7);苯系物的检出限为1.6～2.8 μg/kg,定量限为5.4～9.6 μg/kg. 将研究结果与文献中的苯系物监测质量控制参数进行比较发现,由于采用有机质含量低、砂质壤土质地的北京潮土为研究对象,使该试验的回收率均高于文献中的结果;同时,相对标准偏差和检出限与文献中的结果也存在差异,主要是由于挥发性污染物所赋存的介质及实验仪器操作条件不同所致.      

《昆明-蒙特利尔全球生物多样性框架》下的生物多样性监测

生物多样性监测是执行和评估《昆明-蒙特利尔全球生物多样性保护框架》（简称《昆-蒙框架》）长期目标和行动指标所需要的关键数据的主要来源。简要介绍了《昆-蒙框架》下的全球生物多样性观测网络（The global biodiversity observation network,GEO BON）概况、中国已有的生物多样性监测/观测网络,构建全球生物多样性观测系统（A global biodiversity observation system,GBiOS）的目的和核心监测指标,分析了生物多样性监测网络建设的一般步骤和GEO BON建议的4种生物多样性监测新方法。提出,地理空间单元与生物类群的全覆盖监测是建设生物多样性监测网络的主要目标,传统监测方法和新监测技术的互补是当前生物多样性监测的重点工作内容。     

MS/MS的原理和GC/MS/MS在环境分析中的应用

介绍了空间串联质谱和时间串联质谱的原理、结构和特点 ;描述了时间串联质谱的离子化、母离子选择和储存、碰撞诱导裂解、离子抛出和检测的分析过程以及离子阱串联质谱与气相色谱联用在二恶英、农药残留、多氯联苯 ,多环芳烃和环境激素等环境分析中的应用。     

吹扫捕集-快速气相色谱-质谱联用法测定水中54种挥发性有机物

采用吹扫捕集与快速气相色谱-飞行时间质谱联用法,通过质谱定性和各目标物的特征离子定量,建立了同时测定水中54种挥发性有机物(VOCs)的吹扫捕集-快速气相色谱-质谱的分析方法。结果表明,与常规方法相比,建立的吹扫捕集-快速气相色谱-质谱联用法在保证各目标物灵敏度和仅2组物质分辨率受影响的同时,分析时间由31 min缩短至13 min。该方法具有良好的重现性,除萘和1,2,3-三氯苯值为9.3%和8.7%外,其他目标物的重现性值皆小于5%,在线性范围1~200μg/L内皆具有大于0.99的良好相关度,各目标物的检出限值介于0.53~278 ng/L之间。     

吹扫捕集-GC-MS测定废水中的硝基氯苯

建立了吹扫捕集-GC-MS测定水样中硝基氯苯类化合物的方法.考察了吹扫温度、吹扫时间等对吹扫捕集效率和方法检出限的影响.在室温下,当吹扫时间为30 min时,该方法的最低检出限可达0.002 mg/L,工作曲线的线性范围为2×10 -3 ～2 mg/L,相对标准偏差在2%～6%,加标回收率在97.0%～110.0%.与国家标准方法相比,该法具有操作简便、灵敏度高、线性范围宽且无须使用有毒有机溶剂等优点,可满足工业废水和地表水中硝基氯苯的测定要求.     

吹扫-捕集法在挥发性有机污染物分析中的应用

吹扫 -捕集法为 2 0世纪 70年代中期推出的痕量挥发性有机化合物的富集方法 ,它具有简便、灵敏度高、富集率高、快速、精密、准确、不使用有机溶剂等特点。 2 0多年以来 ,吹扫 -捕集器和GC、GC/MS等仪器联用测定环境中痕量挥发性有机污染物 ,已获得令人满意的结果 ,因而吹扫 -捕集法将在有机污染分析中得到日益广泛的应用     

The avoidance response of fathead minnows to chemical alarm cues: understanding the effects of donor gender and breeding condition

Summary. All animals are vulnerable to predation at some point in their lives and consequently prey organisms often develop effective risk assessment systems. For many aquatic species predation risk assessment occurs through the use of olfactory cues, including predator odours and alarm cues from damaged or disturbed conspecifics. When aquatic species encounter conspecific alarm cues they may respond, or not, based on specific information including cue concentration, health and size of the conspecific donor and potentially the gender and breeding condition of the donor. Previous laboratory studies have demonstrated that fathead minnows (Pimephales promelas) fail to respond to the skin extracts of breeding male minnows. The purpose of the current study was to verify these early laboratory findings in the field as well as to further investigate the effect of female reproductive state and donor gender on the response of minnows to damage-release alarm cues. Our results indicate that male breeding condition has a significant effect on how minnows will respond to conspecific cues. Minnows showed avoidance of cues of female minnows and male minnows not in breeding condition, in comparison to cues of breeding male minnows and cues of male and female swordtails. Neither the gender of non-breeding minnows nor the reproductive state of female minnows influenced the avoidance of minnows to alarm cues.     

Males are attracted by their own courtship signals

Courting male fiddler crabs Uca terpsichores (1 cm carapace width) sometimes build mounds of sand called hoods at the entrances to their burrows. Males wave their single enlarged claws to attract females to their burrows for mating. It was shown previously that burrows with hoods are more attractive to females and that females visually orient to these structures. In this study, we test whether males also use their hoods to find their burrows. We first determined the maximum distance that males can see and find a burrow opening without a hood. Males were removed from their burrows and placed on the sand at a range of distances from a burrow opening. If they were more than about 8 cm (seven units of eye-height) away, they were unable find the burrow. In contrast, males that were burrow residents used a non-visual path map to return to their burrows from much greater distances. To determine if hoods help males find their burrows when there are errors in their path maps, we moved residents 1–49 cm on sliding platforms producing errors equal to the distances they were moved. Males with self-made hoods or hood models at their burrows relocated their burrows at significantly greater distances than did males with unadorned burrows. Hood builders also relocated their burrows faster. Hence, hoods have two functions: they attract females and they provide a visual cue that males use to find their burrows quickly and reliably when their path maps fail. An erratum to this article can be found at