船舶压载管系和压载舱结构设计中新问题的解决方法

IMO对船舶压载水的排放限制给船舶压载管系和压载舱室的设计提出了新的课题，文中设计了以喷射泵的抽吸作用进行循环更换压载水的压载系统，为解决相关问题提供了若干建议和思路。     

锅炉鼓引风量的合理配比与提高锅炉热效率和环保效果的研究

通过对锅炉鼓引风量配比进行适量调整和对原除尘器S挡板的改进，达到了提高锅炉热效率和环保效果的目的，同时提出了一些相关建议。     

Simultaneous anaerobic- aerobic biodegradation of halogenated phenolic compound under oxygen-limited conditions

The successful application of co-immobilized aerobic-anaerobic biomass under limited aeration in wastewater treatment systems would eliminate the problems associated with the intermediates mono-chlorophenol（MCP） and di-chlorophenol（DCP） accumulations. With low initial pentachlorophenol（PCP） concentration, all PCP could be completely removed under oxygen-limited strict anaerobic conditions, and the removal efficiencies with different initial headspace oxygen percentage（IHOP） were not obviously different from each other. While at high initial PCP concentration, under strictly anaerobic conditions PCP and their intermediates were clearly higher than that under other conditions, and produced obvious accumulation, the highest PCP reduction was achieved by the system receiving 30 IHOP, oxygen-limited system also exhibited lower residual TOC concentration and lower concentration of metabolic intermediates MCP and DCP. These results suggested that under strictly anaerobic condition the reductive dechlorination of low chlorinated compounds became rate limiting in the reductive dechlorination pathway, less chlorinated compounds be more amenable to aerobic degradation, and the aerobes of outer layers could function under limited oxygen. The co-immobilized aerobic-anaerobic biomass for methanogenesis under limited-aeration for chlorophenol degradation might be an attractive and efficient alternative for the sequential anaerobic/aerobic system to achieve mineralization of a broad range of recalcitrance highly chlorinated organics and low final TOC concentrations.     

江西大湖塘钨(锡)矿田地质特征及远景分析

大湖塘钨矿田处于扬子板块东部南缘,九岭—鄣公山隆起区西部与武宁—宜丰北北东向断裂带北东段的交接处,属大湖塘—同安钨(锡)、钽铌多金属矿带的北段。大调查成果对江西北部特别是九岭成矿带大湖塘钨矿田的成矿条件和资源潜力有了新的认识。预测出大湖塘-东陡崖钨(锡)、昆山-蓑衣洞钨(钼)2个找矿远景区,估算出大湖塘钨矿田资源潜力,钨(WO3)预测资源量80万吨、锡预测资源量12.7万吨。     

微生物絮凝剂产生菌的筛选及絮凝特性研究

筛选出了一种新的絮凝剂产生菌 ,并对产生的絮凝剂进行了絮凝研究 ,结果表明该絮凝剂的絮凝能力强、絮凝范围广 ,是一种好的微生物絮凝剂 ,并且Ca2 +是其较好的促凝剂     

Uniformity of domestic wastewater effluent application in a subsurface drip distribution system.

An on-site wastewater treatment project with two separate drip fields was operated for 6 years and received no maintenance. The two drip fields (with different design configurations) contained pressure-compensating emitters (PC) and non-pressure-compensating emitters (NPC), respectively, and received wastewater with an average 5-day biochemical oxygen demand concentration of 23 mg/L. Flowrates of the PC emitters reduced from rated average of 3.50 to 1.00 L/h, and the average flowrate of the NPC emitters reduced from 2.00 to 1.53 L/h. The statistical uniformities were 48 and 71%, and the uniformity coefficients were 70 and 86% for PC and NPC emitters, respectively. Significant, but incomplete, recovery was achieved with field-flushing and consecutive shock-chlorination treatments of 500 and 1000 mg/L.     

我国海岸带生态环境问题及其调控对策

海岸带是陆海交互作用的地带 ,是全球变化研究的重要组成部分 ;同时人类活动对海岸带的环境变迁又有着举足轻重的影响。本文综述了影响我国海岸带生态环境变迁的 10个重要的环境问题 ,并提出了应对海岸带生态环境退化的 6种调控对策 ,其中实行一体化的海岸带综合管理体制是实现海岸带可持续发展的最重要的对策之一     

1985年以来我国重大水体突发污染事件及在线生物监测的必要性分析

通过查阅和检索公开报道的期刊、报纸和网络,统计分析我国1985以来水体突发污染事件。1985—2015年间,我国水体突发污染事件年均发生数量总体变化呈现先动态增长后逐渐下降的趋势,其中2006年为水体突发性污染事件发生频次的转折点。导致水体突发性污染的主要原因包括企业违规排放、企业事故性泄漏、交通事故、自然因素和人为投毒等,污染方式多样。水体突发性污染的污染物种类包括化学品、污水(工业废水和生活污水)、油类、农药、重金属、生物污染物和其他不明污染物。鉴于水体突发性污染事件污染方式的多样性和污染物的复杂性,采用在线生物监测技术可实现对水体突发性污染事件在线监测与分析预警,已成为当前监测和评价水体突发污染事件有效手段。     

绿色荧光蛋白基因标记内生枯草芽孢杆菌

用枯草芽孢杆菌168菌株rpsD基因的启动子替换质粒pGFP4412中蜡状芽孢杆菌4412启动子,从而构建了能在枯草芽孢杆菌中表达绿色荧光蛋白基因gfpmut3a的载体pS4GFP,将其导入具有内生、防病、促生作用的野生型枯草芽孢杆菌BS-2菌株中,筛选获得遗传稳定性好且具有良好发光表型的标记菌株BS-2-gfp.该标记菌株在小白菜体内的定殖研究结果表明,该菌株能够在小白菜根际及根、茎、叶内定殖和传导,接菌50d后仍能在其体内分离到标记菌株.图5参17     

水体突发污染事件在线生物监测技术的发展和应用分析

自1800s以来,经过2个世纪的发展,针对水体突发污染事件的在线生物监测技术越来越完善,其所采用的分析指标主要包括生物行为变化(1900s至目前)、生物新陈代谢变化(1800s至目前)和生物电变化(1980s至目前)等3种,其中,应用最广泛、发展最完善的为基于生物行为指标的在线生物监测技术。进入21世纪以来,在线生物监测技术得到快速发展和普遍应用。中国、美国、德国、韩国和瑞典等国家已经大规模应用基于不同生物指标的在线生物监测技术,以实现对水体突发污染事件的有效监管。随着计算和分析技术的进一步发展,在线生物监测技术也会越来越完善,在维持社会稳定、保证经济可持续发展以及保障人民饮水安全方面将会发挥越来越重要的作用。