浮码头钢趸船防腐涂装体系研究

目的为浮码头钢趸船优选防腐涂装体系,以延长其使用寿命。方法根据钢趸船腐蚀环境特点,对选用的防腐涂料进行对比试验,针对不同的腐蚀环境,优选不同的防腐蚀方案。结果制定了4套与不同腐蚀环境相对应的防腐涂装体系。结论该防腐蚀涂装体系已在上海、青岛、湛江等海域的钢趸船上使用,效果良好。     

浅析原油罐二次密封在线改造过程中的风险与对策

介绍了外浮顶储罐二次密封的机理,剖析了原油储罐二次密封在线改造过程中潜在的风险,并结合某企业改造案例提出了控制措施,对类似油罐二次密封在线改造具有一定的借鉴意义。     

电子元器件表面化学防护效果的测定研究

目的研究电子元器件表面化学防护的方法。方法应用选择性涂覆设备进行研究并优化工艺条件,选择丙烯酸清漆和稀释剂的体积混合比例从1∶0.2到1∶1进行实验,在100 mm/s的喷涂速度下,喷涂印制板的过程在0.5 min内完成,喷涂的相对标准偏差不超过±0.005 mm。结果涂层厚度可控制在25~75μm的范围内,符合国际标准ICP-CC-830的要求,涂层具有较好的流平性,无气泡、针孔和絮状物,无雾化等。结论这种方法可以成功地应用于印制板上电子元器件表面的化学防护。该方法具有涂覆准确性高,有毒稀释剂消耗量低,涂覆效果好,经济环保等的特点。     

有机-无机纳米聚硅氧烷涂料的耐蚀性研究

目的研究有机-无机纳米聚硅氧烷涂料的耐蚀性。方法将涂层试样制作划痕后,采用盐雾试验方法和盐溶液周浸试验方法进行加速腐蚀试验,采用最大剥落值对涂层剥落程度进行量化考核。结果获得了4种涂料在试验环境下的腐蚀失效模式、失效过程、失效程度、以及涂层损伤随加速腐蚀时间的变化规律等方面的试验数据。结论在盐雾试验中,涂层的失效模式主要是剥落,盐溶液周浸试验主要是剥落和鼓泡。在盐雾腐蚀环境下,3#涂料耐蚀性最佳,在周浸腐蚀环境下1#涂料耐蚀性最佳。采用最大剥落值对涂层的剥落程度进行量化考核是可行的。     

The derivation of radionuclide transfer parameters for and dose-rates to an adult ringed seal (Phoca hispida) in an Arctic environment

Radionuclide transfer parameters and dose-rates for an adult ringed seal from Svalbard have been determined based on empirical and estimated tissue activity concentrations and detailed dietary and habitat information. Whole-body equivalent concentration factors determined for anthropogenic radionuclides ranged from 10(1) ((90)Sr) to 10(2) ((137)Cs, (238)Pu and (239,240)Pu), while natural radionuclides ranged from 10(2) ((210)Pb) to 10(4) ((210)Po). Employing a dietary composition of 40% fish, 40% zooplankton and 20% benthic invertebrates, a whole-body biological half-life of 29 days was derived for (137)Cs. A total dose-rate of approximately 0.19microGyh(-1) (1.7mGya(-1)) was derived for an adult ringed seal; this dose-rate is virtually entirely attributable to the internal components of (210)Po and (40)K. The dose-rates associated with the presence of anthropogenically derived radionuclides in the present assessment fall many orders of magnitude below the dose-rates at which any biological effects would be expected.     

TiO2紫外光催化技术现状及展望

TiO2紫外光催化作为一种新兴的高级氧化技术，对难降解有机污染物具有普适、高效等特点，使其在环境污染治理中具有广阔的应用前景。针对TiO2紫外光催化技术中催化剂负载、反应器设计等几个重要问题进行了简要概述。     

防重腐蚀涂料的水性化研究

在论述分散稳定理论的基础上，确定了实现水分散体系均匀稳定的有效途径，研究获得了具有优良分散性能的防重腐水性涂料；该研究结果对涂料生产和使用中的劳动保护、安全生产、节省资源和能源具有重要价值，并为涂料水性化研究提供了理论和试验参考     

天然水体生物膜中汞的蓄积因素及汞的存在形态

为了探讨生物膜对汞的蓄积因素,研究了不同深度、不同培养时间、不同季节等条件对黄浦江生物膜中汞元素含量的影响,并对其存在形态进行分析.结果表明,生物膜中有机质含量较高(7.5%～14.5%);生长时间,水深,季节都是影响生物膜中汞元素蓄积的重要因素;光照越强,温度越高,生长时间越长,生物膜中汞元素含量越高;生物膜中残渣态(41.98%)和有机质结合态(27.89%)的汞含量比较高,碳酸盐结合态(10.17%)和铁锰氧化物结合态(5.33%)的汞含量相对较少.     

新型的无公害海洋防污涂料

本文概述了海洋防污涂料的发展现状及影响污损生物附着的主要因素,着重论述了低表面自由能材料,吸水性材料的和生化材料等无公害新型防污涂料的防污机制及其试用效果。并指出,开发和应用无锡自抛光涂料和新型低毒防污涂料,这是解决海洋中有机锡污染的近期目标。而刚刚兴起的无公害防污染料尚处在初期研制阶段,其推广应用还需要一个较长时间的发展过程。并且强调应当加强对静,动船舶在苛刻的海洋环境中抗海洋污染生物附着的防污     

A comprehensive review of the energy efficiency on nano coated fin and tube condenser

The condenser is a piece of equipment used to effectively transfer heat from water to the environment. The fin and tube condenser is the most commonly used in commercial applications. The improved performance of heat transfer in the fin and tube condenser is a significant area of study all over the world because optimizing the efficiency of heat transfer in the condenser will contribute to enhancing the effectiveness of system performance. The vapor deposition, plasma spray, and thermal spray techniques are being used, and it is determined that a heat transfer enhancing coating improves condenser performance. This review discusses the nanomaterial coating over the fin and tube condenser in detail. The various nanomaterial coatings with various propositions and coating methods had been discussed with the evidence of previous researchers. At a 50-degree inclination angle on the condensate plate, the condensate over the coating surface increases by more than 30%. The thermal properties of the working fluid are improved over the condenser, and the overall effectiveness of the condenser is increased by approximately 40% over the non-coated condenser. A 1% volumetric concentration of Nanoparticles in the coated material achieves a maximum efficiency increase of 78.7%.