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将漆酶应用于染液及皂洗废液的脱色降解中。实验发现,漆酶对0.1 g/L活性红BES纯染液脱色的最佳工艺条件为:漆酶用量1.25 g/L,pH值6.5,温度60 ℃,时间25 min。漆酶对含金属偶氮结构的活性染料脱色活性最好,对单偶氮、双偶氮、蒽醌结构的次之;对铜酞菁结构的几乎没有脱色效果。盐(硫酸钠)和肥皂对漆酶脱色活性抑制作用较小,但马丙的抑制作用较大。为提高漆酶对马丙皂洗废液的脱色效果,可通过加入添加剂进行改善,加入0.01 mol/L 的CaCl2后马丙皂洗废液的脱色率可由30.14%提高至51.62%,其他阳离子表面活性剂和硫酸铜的加入也会对漆酶脱色效果略有增强,但非离子或阴离子表面活性剂却不能。 相似文献
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金属有机框架材料(Metal-organic frameworks,MOFs)因其优异的孔道特性和灵活的结构可调性,作为新型吸附材料受到气体分离和存储领域的广泛关注。然而,在天然气的纯化和存储领域的使用需要对MOFs固体吸附剂进行系统的设计,简要论述了MOFs在天然气纯化过程中对二氧化碳和硫化氢两大杂质的分离,以期提高天然气的纯度,为高效的存储奠定基础,接下来,从吸附和解吸两个角度出发,论述利用MOFs进行天然气存储的考量因素。最后,总结了在天然气纯化和存储领域MOFs的设计合成思路以及MOFs吸附剂在稳定性、多功能性等方面所面临的挑战,以此提高MOFs吸附剂在未来推广使用的可能性。 相似文献
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基于预相变形成奥氏体贫碳区的特点,采用KRC活度模型和超组元算法,分别建立了Fe-C-X系微合金焊缝针状铁素体在奥氏体贫碳区扩散和切变转变的两种相变热力学模型,并针对某种微合金钢成分进行了数值计算.结果表明,贫碳区成分不同而表现出不同的相变机制倾向.当奥氏体贫碳区C元素含量较高时,焊缝针状铁素体扩散模型的相变驱动力较大;而贫碳区C元素含量较低时,切变模型的相变驱动力又稍微大些;在贫碳区C元素含量为零的极限条件下,两模型的相变驱动力相等.两种模型的相变驱动力均具有相同的变化规律,即随着奥氏体贫碳区C元素含量的降低而增加,随着相变温度的降低而增加. 相似文献
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There are abundant natural gas resources in western China, but many oil and gas fields are rich in chloridion, sulfureted hydrogen, carbon dioxide and other corrosive medium, which have strong corrosivity to pipeline. One gas field possesses abundant natural gas with great pressure, and the chloridion concentration in the water separated from gas is about 10%, so the medium has great corrosivity. In order to ensure the safety of the pipeline, about 13 km length pipeline and the internal pipes of a gas treatment plant that purifies gas about 12 billion cubic meter a year are made of 2205 duplex stainless steel (2205 DSS). 2205 DSS has many characteristics in welding with complex welding process; and because of high quality requirements for the construction of natural gas pipeline and restriction of on site conditions, the site welding is very difficult. Around the engineering application, a large number of experimental researches have been carried out on the material microstructure, properties and weldability. Finally welded joints which conform to the requirements of standard are obtained, contributing to the first large-scale application of this material in the field of oil and gas pipelines. Considering the engineering application and the latest research development, the welding and key factors affecting the joint properties of 2205 DSS pipes are summarized and analyzed. 相似文献
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为了准确估算API X70和X80管线钢管的屈服强度,分别对API X70和X80管线钢板和钢管进行了制管和压平过程的双循环模拟试验,并将包申格应力参数和Swift方程相结合来估算钢管的屈服强度。试验和估算结果表明,包申格应力参数和Swift方程相结合的估算方法中已经包含了显微组织和制管过程的影响因子,因而能较为准确地估算钢管的屈服强度。因拉压强度差效应较小且和反向流动曲线可用一条曲线表示,因此利用展平钢板的拉伸/压缩性能可有效估算制管前后屈服强度的变化,该估算方法对控制显微组织和制造工艺参数进而控制管线钢板的屈服强度有着重要的作用。 相似文献