共查询到20条相似文献,搜索用时 156 毫秒
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介绍并分析了聚苯硫醚新型滤料的生产工艺及产品性能特点,提出了聚苯硫醚新型滤料在袋式除尘行业中的应用前景。 相似文献
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针对家用净水器的市场情况,介绍了中空纤维膜超滤技术的工作原理和特点;提出用串联活性炭(或RO)过滤单元的组合模式可弥补该技术存在的不足;依据消费者对该类产品在净化功能等方面的需求,提出了改进建议。 相似文献
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连续玄武岩纤维(简称CBF)是以天然的火山岩作为原料,经1650℃熔融后制成的纤维产品,具有力学性能佳、耐高温、耐腐蚀、强度高、不易被水解、性价比高等优点。本文通过具体实例,介绍了连续玄武岩纤维用于滤料在垃圾焚烧和电力行业中的应用情况。 相似文献
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玻纤/PPS、PTFE复合水刺滤料突破了传统针刺产品的性能局限性,利用水刺动能开纤,使纤维原纤化,同时增加滤料的抱合度,使产品具有立体三维容尘梯次结构,有效解决过滤效率和阻力之间的矛盾,替代覆膜滤料适应PM2.5的排放标准。 相似文献
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随着我国农业发展进入新阶段和加入世贸组织,农产品质量安全日益成为提高市场竞争力的关键,无公害农产品正成为广大消费者的热点。为了适应国内外市场的需求,本文论述了其重要性,提出了应具备的条件和对策,以加快我省无公害农产品发展的步伐。 相似文献
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《Resources, Conservation and Recycling》2000,28(1-2):55-65
Over the last decades increased use of waste paper as a source of fibre for the pulp and paper production process has meant that the industry has undergone significant changes in material and energy use. However, this means use of technologies that do not generate a significant amount of biomass for energy recovery, and thus requires that more energy is purchased by the industry. If waste paper is incinerated instead of repulped, energy purchases by society can be reduced, which will have a positive effect on CO2 emissions. In this article, we argue that an analysis of these effects requires a systems analytical approach including the different production lines, fibre flows and alternative uses of the fibre rather than a life cycle analysis with allocation methods. In the latter case, one often looks at just one production process and uses allocation methods for in- and outflow from or to other processes. We show that allocation methods sometimes used in life cycle analyses do not give a good approximation. Thus, it is recommended that allocation be avoided by, for example, expanding the system. If allocation cannot be avoided, the allocation should be based on the way in which the inputs and outputs are changed by quantitative changes in the products or functions delivered by the system. 相似文献
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介绍了袋式除尘新技术在机立窑烟气治理中的应用,多台机立窑采用一台唧玻纤袋除尘器集中除尘,其技术已经非常成熟,可以说是机立窑玻纤袋除尘技术的重大突破,也是一次飞跃式的发展。文章对袋式除尘器的技术发展等做了论述。 相似文献
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Plastic products used for packaging are often discarded after a single use resulting in an inexhaustible supply of waste polymeric materials. The stiffness and strength of polymeric materials have been known to improve with the addition of lignocellulosic fibres available in abundance in nature. Hence, composite materials containing natural fibres and waste plastics would result in the reduction of solid wastes and the use of cheap, renewable resources. Composite specimens, consisting of waste plastics obtained from a Kerbside collection (high density polyethylene (HDPE) waste, Janitorial waste, Kerbside waste I and Kerbside waste II) and Pinus radiata woodfibres (medium density fibres (MDF)), have been produced through melt blending and injection moulding. The effects of fibre content, matrix type and interfacial bonding on the tensile and flexural properties of these composite materials have been determined through extensive testing at various conditions. The mechanical properties of these composites at room temperature and humidity depend on the amount of woodfibres, the mechanical properties of the waste plastics used and the presence of a suitable coupling agent. The tensile strengths of MDF/waste plastic composites do not generally change with fibre content except for 40% MDF/HDPE waste and 40% MDF/Kerbside waste II (plus 1% Epolene™) composites, where the tensile strengths increase by about 25% compared to those of the corresponding waste plastics. Flexural strengths of MDF/waste plastic composites increase with the addition of medium density fibres with the exception of MDF/Kerbside waste I composites. The tensile and flexural moduli of MDF/waste plastic composites mostly increase with increasing fibre content. 相似文献