共查询到20条相似文献,搜索用时 46 毫秒
1.
2.
聚合物的降解与耐久性 总被引:1,自引:0,他引:1
亚太拉斯材料测试技术有限公司 《环境技术》2007,25(3):40-42
众所周知,有机物如天然或合成聚合物,由于外部环境应力与内部缺陷的共同作用,在使用过程中会发生降解.机械应力如拉伸负载及延伸、压缩、弯曲(弯曲模数)、热胀冷缩、液静压等都会直接导致机械损坏,或使聚合物对化学应力变得敏感,如聚乙烯材料在环境应力作用下的脆裂. 相似文献
3.
4.
油田采出水中影响聚合物溶液黏度的主要因素有金属离子、还原性物质、细菌等,次要影响因素有pH值、溶解氧、含油量、悬浮固体、残余聚合物、残余化学剂等。针对以上影响因素,可通过投加适宜的化学剂来消除影响,从而控制聚合物溶液的黏度损失。根据作用机理,目前常用的黏度稳定剂可分为水质改性型和黏度稳定型两种,对造成黏度损失的主要因素可投加水质改性型药剂、对溶解氧等问题可投加黏度稳定型药剂来降低黏度损失。此外,不同单剂组合的复配可通过协同作用有效地提高药剂效果,复合型药剂的应用前景将更为广阔。 相似文献
5.
6.
7.
8.
9.
泡沫陶瓷在环境污染治理中的应用 总被引:2,自引:0,他引:2
本文介绍了泡沫陶瓷的概念、制备方法、优点、性能以及目前国内外的研究发展状况,重点讲述了泡沫陶瓷在废水处理、废气处理、吸声降噪领域的应用,并对泡沫陶瓷在环境中的应用前景和发展趋势作了预测. 相似文献
10.
11.
耐光老化性能是高分子材料的主要工程化应用性能之一,其优劣影响着产品的可靠性及使用寿命。本文介绍了太阳光对高分子材料的影响效应及作用机理,并归纳了现阶段国内外常用的光老化试验方法及参照标准,最后指出其发展方向。 相似文献
12.
随着我国油田相继进入开发后期,传统的滤料及设备过滤精度已不能满足注水的要求。因此,研究并开发了具有一定抗油污能力的新型过滤材料,设计了新型的超精细过滤器系列产品。对滤料进行的室内实验结果表明,在开始过滤的近10h内,过滤后的水中含油量基本上满足注水的水质要求。在开始过滤的近20h内,滤层的水头损失随时间的变化较为平缓;随着过滤时间的延长,水头损失变化加剧。从现场实验可以看出,所设计的过滤器有良好的过滤性能和抗冲击能力。新型过滤材料的研究成功解决了油田含油污水精细过滤的问题,新型过滤器也是含油污水超精细过滤的理想产品。 相似文献
13.
介绍了水刺复合工艺的优点,分析了新型水刺复合滤料的三种先进形式—针刺与水刺、纺粘与水刺、机织与水刺的特点及其市场应用领域,为滤料研究提出了新的方向。 相似文献
14.
KY-3型聚合物处理炼厂含油污水研究 总被引:1,自引:0,他引:1
运用KY -3型阳离子聚合物与无机絮凝剂复配对炼厂含油污水处理进行了研究。结果表明 :KY -3型阳离子聚合物的分子量、加入浓度及污水 pH值、污水温度等对处理效果影响较大 ,当阳离子聚合物相对分子量为120万时 ,处理效果随聚合物加量增大、污水温度及 pH升高而增强 相似文献
15.
介绍了湿法烟气脱硫(WFGD)机理及烟气脱硫处理过程,分析了WFGD处理烟气后引起烟囱严重腐蚀的相关问题.同时,系统地介绍了目前解决烟囱腐蚀的相关防腐材料,并叙述了相关重防腐处理工艺. 相似文献
16.
介绍了有证标准样品的定义和主要作用,详细阐述了有证标准样品在检测实验室的7个主要应用领域、正确使用指南和科学管理方法,以保证检测实验室检测结果的准确和量值溯源性。 相似文献
17.
以磁铁矿滤料与石英砂滤料为填设滤料层的级配模式一直广泛应用于油田含聚污水处理过程中,但这种滤料级配与污水过滤性能之间的影响关系及规律认识却较为缺乏,本文以悬浮粒子吸附与截留形成的聚集特征为切入,定量分析出水水质特性,对含聚污水过滤过程中滤料级配的影响效果展开数值模拟研究。研究认为:磁铁矿滤料层厚度较大的级配模式过滤具有更好的悬浮粒子吸附与截留效果,对更小粒径悬浮粒子过滤能力更优,但滤料填充高度比与过滤效果存在一定适配性;以1.28以上磁铁矿滤料厚度较大的级配模式过滤较低含聚浓度污水、以1.67以上磁铁矿滤料厚度较小的级配模式过滤较高含聚浓度污水,均可以使出水悬浮固体颗粒与油滴含量均低于5mg/L,满足过滤出水水质指标要求。 相似文献
18.
19.
Economy-wide material flow accounting and analysis (EW-MFA) is considered a convenient tool for monitoring the vast range of issues related to the consumption of materials. As an increase in recycling is considered a crucial way of decreasing environmental pressures from this consumption, it makes sense to develop an indicator based on EW-MFA which would incorporate recycling flows. A prominent example of such an indicator is the cyclical use rate, which was developed by the Japanese Fundamental Plan for Establishing a Sound Material-Cycle Society.We calculated this indicator for the Czech Republic for 2002–2011 and proved that it can also be calculated for countries other than Japan, even though we encountered some unclear methodological issues related to specific features of the Czech waste management system. We further developed two modifications of the indicator taking into consideration that one purpose of the cyclical use rate is to express the ratio of consumption of secondary (recycled) materials and primary raw materials. We discussed these modifications and showed that overall cyclical use rate in the Czech Republic lags behind Japan both in terms of absolute value and trend development, although the indicator is higher for biomass in the Czech Republic. We also showed that this unfavorable evaluation is in contradiction with some classic waste indicators, such as treatment of waste by main treatment methods which is favorably evaluated in the Czech Republic. We concluded that it would be advisable to analyze measures for increasing recycling rates introduced by Japan and assess their possible transposition into the Czech Republic's institutional and legal framework for waste management. 相似文献
20.
Optimization of the recovery of plastics for recycling by density media separation cyclones 总被引:1,自引:0,他引:1
Gent Malcolm Richard Menendez MarioToraño Javier Torno Susana 《Resources, Conservation and Recycling》2011,55(4):472-482
Material recovery processes are presented as the optimum option for recycling plastic wastes as a means of recovering hydrocarbon resources. There exist a large variety of automated material recovery processes for recycling of such wastes but each with significant limitations. Of these, the separation based on differences in densities is advocated as the optimum process either for producing recycled products or preparing wastes for subsequent recovery processing.Density separation processes based on cyclone type density media separation (DMS) is presented as an important, potential method for increasing plastics recycling process capacities. It is demonstrated to have the capacity to separate a significantly larger range of particle sizes than those presently processed industrially. The mathematical relationship for the prediction of quality of typical LARCODEMS type density media separations by particle size and density as expressed by the Ecart Probable is presented.A proposed device configuration is presented for density media separation to optimize the recovery and purity of both density fractions produced. It is also suggested that to be economically viable, a large scale of operation is required for industrial plastics recycling operations recovering and producing a number of different plastics with a purity to be used as a substitute for virgin material. 相似文献