压缩空气泡沫系统(CAFS)产生泡沫屈服应力的试验研究

压缩空气泡沫系统(CAFS)是一种高效泡沫灭火手段.泡沫的流变学性能是森林火灾扑救中泡沫发挥直接和间接灭火能力的一个决定因素.本文用专门设计的钟摆式屈服应力测定装置测定了泡沫屈服应力,验证了泡沫屈服应力假设.泡沫屈服应力与泡沫气体百分比、析液时间和泡沫平均直径有关,试验得到了屈服应力与其影响因素的关系曲线和数学表达式模型.部分描述了泡沫这种特殊流体的流变学性质,对应用CAFS系统泡沫扑救森林火灾有重要指导意义,可用于预测外力作用下灭火泡沫的流动行为.     

油田冲砂清洁生产工艺的研究应用

针对传统的油井清砂方法易产生环境污染的现状,胜利采油厂对油田修井冲砂工艺进行了改进,通过改装设备;改进捞砂工艺等措施,自2000年1月至2001年11月,已经实施捞砂作业井417口,一次成功井373口,一次成功率为89.45%。工艺改进实施后,还节省了化学堵剂的使用;杜绝了油层污染;减轻了现场操作人员的劳动强度和冲砂事故发生率,初步实现了油田修井冲砂施工的清洁生产。     

环境监测中氯化氢测定的分析方法试验

针对国家标准《HJ/T27-1999》与《空气和废气监测分析方法》的2种氯化氢测定方法中氢化钾用不同介质进行稀释，和显色时间及试剂加入量的区别进行正交试验，得出结果。     

《海洋的变化:来自大海的呼唤》

艾莉博士的大作《海洋的变化：来自大海的呼唤》是一本伟大的书,它揭示了人类与海洋的关系,对人类与海洋的命运进行了探讨.     

Evaluating the practices of climate-smart agriculture sustainability in Ethiopia using geocybernetic assessment matrix

Environment, Development and Sustainability - The geocybernetic assessment matrix (GAM) evaluation of climate-smart agriculture (CSA) practices in Ethiopia is carried out in this paper. With regard...     

高强度开发下的上海农业环境问题与对策

文章指出高强度开发下上海市郊主要的农业污染问题，并分析了污染形成的原因，提出了符合可持续发展战略的污染探讨对策。     

Experimental study on the feasibility of explosion suppression by vacuum chambers

In view of the invalidity of suppression and isolation apparatus for gas explosion, a closed vacuum chamber structure for explosion suppression with a fragile plane was designed on the base of the suction of vacuum. Using methane as combustible gas, a series of experiments on gas explosion were carried out to check the feasibility of the vacuum chamber suppressing explosion by changing methane concentration and geometric structure of the vacuum chamber. When the vacuum chamber was not connected to the tunnel, detonation would happen in the tunnel at methane volume fraction from 9.3% to 11.5%, with flame propagation velocity exceeding 2000 m/s, maximum peak value overpressure reaching 0.7 MPa, and specific impulse of shock wave running up to 20 kPa s. When the vacuum chamber with 5/34 of the tunnel volume was connected to the flank of the tunnel, gas explosion of the same concentration would greatly weaken with flame propagation velocity declining to about 200 m/s, the quenching distance decreasing to 3/4 of the tunnel length, maximum peak value overpressure running down to 0.1-0.15 MPa and specific impulse of shock wave below 0.9 kPa s. The closer the position accessed to the ignition end, the greater explosion intensity weakened. There was no significant difference between larger section and smaller vacuum chambers in degree of maximum peak value overpressure and specific impulse declining, except that quenching fire effect of the former was superior to the latter. The distance of fire quenching could be improved by increasing the number of the vacuum chambers.     

沉水植物轮叶黑藻附生细菌对双酚A的降解能力研究

沉水植物附生细菌可能具有降解转化水体中双酚A（BPA）能力从而影响该污染物在环境中的归趋.以轮叶黑藻为代表,分离筛选其BPA降解附生菌,结果共获得22株,在接种量为1×10⁸个/mL,37℃下72h对BPA的去除率为11.46%~25.06%.选择降解率最高的3株细菌B12、B14和B23,采用16S rDNA鉴定,结合生理生化反应和形态观察,3株细菌分别为属于Lysinibacillus sp.（杆菌属）,Brevibacterium sp.（短杆菌属）和Ochrobactrum sp.（苍白杆菌属）.将3株菌株添加至轮叶黑藻无菌苗体系中,发现BPA去除率显著下降（P<0.05）.物理去除部分野生轮叶黑藻表面部分附生细菌后,BPA去除率反而上升（约5%）.综合本研究结果,沉水植物附生细菌具有降解BPA的能力,但在沉水植物-附生生物体系去除BPA过程中贡献较小（约为23%,2d）,植物本身起关键作用.     

77％氢氧化铜水分散粒剂对6种陆生生物的毒性及环境风险评估

氢氧化铜是一种利用铜离子杀死孢子细胞的杀菌剂,对柑橘树溃疡病具有良好的防治效果.本研究依据《化学农药环境安全评价试验准则》和《农药登记环境风险评估指南》,对6种模式陆生生物:日本鹌鹑(Cotumix japonica)、蜜蜂(Apis mellif-era L.)、家蚕(Bombyx mori)、赤眼蜂(Trichogramma dendrolimi)、七星瓢虫(Coccinella septempunctata)和蚯蚓(Eisenia foetida)进行急性毒性试验并对其进行环境风险评估.结果 表明,对鹌鹑急性经口半致死剂量(7 d-LD50)为225.9 mg a.i.-(kg bw)-1,对蜜蜂急性经口48 h-LD50为6.19 μg a.i.-蜂-1.在飘移场景下评估该农药对家蚕的风险,得到最外围一行桑树上的风险商(RQ):RQfr=3.083＞1,风险不可接受;该农药在农田内对寄生性天敌赤眼蜂的危害商(HQ):HQin =9.702＞5,风险不可接受.对土壤生物蚯蚓急性和慢性的RQ值分别为799.8和2666,RQ＞1,因此对土壤生物蚯蚓的风险不可接受.77％氢氧化铜水分散粒剂对蜜蜂急性经口和鸟类毒性为中毒.环境风险评估结果显示,上述3项环境风险不可接受,说明农药环境风险评估方法不能只停留在对某一类型模式生物的毒性分级上.基于目前发展趋势,更新评估手段,建立风险评估模型是大势所趋.所以,更需要对农药进行全面研究,以提高农药使用的安全性和合理性.     

Bioaerosolization behavior along sewage sludge biostabilization

• Aerosolization behavior during a lab-scale sludge biostabilization was determined. • Many pathogenic species were identified to be preferentially aerosolized. • Bioaerosol concentration along the biostabilization ranged from 160 to 1440 cell/m³. • Sludge aerosolization behavior was different with that of other biowaste. Biostabilization is a cost-effective method for the beneficial utilization of sewage sludge. However, during the operation of sludge biostabilization, some microbial species could be released into the atmospheric environment from the solid-phase of sludge easily and present a high risk to human health. This study aimed to evaluate the risk of bioaerosol during sludge biostabilization. We found a total of nine bacterial phyla, one archaeal phylum, and two fungal phyla in the bioaerosol samples. Among them, Proteobacteria, Actinobacteria, Bacteroidetes, and Ascomycota were the dominant phyla. In addition, the bioaerosolization indexes (BI) of prokaryotic phyla and fungal phyla ranged 0–45 and 0–487, respectively. Massilia, Pseudarthrobacter, Pseudomonas, Tremellales spp., and Fusarium were the preferentially aerosolized microbial genera with maximum bioaerosolization indexes of 19962, 10360, 1802, 3055, and 7398. The bioaerosol concentration during the biostabilization ranged from 160 to 1440 cell/m³, and we identified species such as Stenotrophomonas rhizophila and Fusarium graminerum with high bioaerosolization indexes that could be threats to human health. Euryachaeota, which belongs to archaeal phyla, had the highest biostabilization index in our study. We also found that Pseudarthrobacter was the easiest to aerosolize during the sludge biostabilization process.