组合式多壳程螺旋折流板管壳式换热器数值模拟研究

本文采用数值模拟方法对内壳程为非连续螺旋折流板的组合式螺旋折流板和单壳程弓形折流板管壳式换热器壳侧流动换热特性进行对比研究,结果表明:相同壳程质量流量和相同换热量条件下,组合式两壳程螺旋折流板换热器的压损比弓形折流板换热器降低14.6%;相同壳程质量流量条件下,组合式两壳程螺旋折流板换热器单位压降下换热量比弓形折流板换热器提高10.8%。

多壳程换热器设计方法

对１－２型多壳程换热器的设计准则进行了分析，并修正了系数，提出了优化设计的新准则，给出了该类换热器优化设计的三种新方法。

多壳程换热器确定壳程数的分析解法

该交通过对会壳程换热器的设计方法的理论分析，得出了求解壳程数目或换热器串联台数的分析解法；项列举了计算实例。

螺旋折流板热交换器结构改进研究进展

主要从螺旋折流板热交换器结构研究以及基于热力学第二定律的研究2个方面综述了不连续螺旋折流板、连续螺旋折流板和组合螺旋折流板等具有不同折流板结构的管壳式热交换器的研究进展,并对螺旋折流板热交换器的应用前景进行展望。螺旋折流板热交换器分为连续螺旋折流板热交换器和不连续螺旋折流板热交换器。与弓形折流板热交换器相比,螺旋折流板热交换器优势明显,如传热性能好、不易结垢、抗振动及壳程压降小等。但是螺旋折流板制造加工难度较大,如何设计简单有效的制造方法是未来的研究重点。

Adsorption behavior of cross-linked chitosan modified by graphene oxide for Cu(Ⅱ) removal

Cross-linked chitosan(CS),cross-linked chitosan/graphene(CS/RGO10) and cross-linked chitosan/graphene oxide(CS/GO10) were prepared as adsorbents for Cu(Ⅱ).The effects of pH,contact time,adsorbent dosage and initial concentration of Cu(Ⅱ) on the adsorbing abilities of CS,CS/RGO10 and CS/GO10 to Cu(Ⅱ) were investigated.The results demonstrate that the adsorption capacities of CS/GO10 and CS/RGO10 are greater than that of CS,especially at pH 5.0 and the adsorption capacities are 202.5,150 and 137.5 mg/g,respectively.Their behaviors obey the Freundlich isotherm model very well.Additionally,CS/GO10 has the shortest time to achieve adsorption equilibrium among them and can be used as a perspective adsorbent for Cu(Ⅱ).