采用中空纤维膜接触器(FMC)作为解吸装置,对吸收了CO_2的N-甲基二乙醇胺(MDEA)溶液(富液)进行膜法解吸实验。考察了CO_2负荷、解吸温度、解吸压力、富液流速和N_2吹扫流量对CO_2解吸率的影响。结果表明,富液中CO_2负荷越大、解吸温度越高、解吸压力越低、富液流速越大、N_2吹扫流量越大,则CO_2解吸率越高。综合考虑,本实验优选的工艺条件为解吸温度45~65℃,解吸压力10~30 k Pa,富液流速0.08 m/s,N_2吹扫流量200 m L/min。 相似文献
突发事件条件下的应急疏散是一个复杂的过程,不仅要考虑时间因素,而且要考虑疏散网络中各路段的受灾风险水平。因此,对于人群快速转移避灾路径的解算结果,不仅要求快速,还要求避灾。基于灾害预测的疏散路径优化理论模型,在求解时变灾害条件下,集成考虑实时与未来灾害影响的转移避灾路径优化算法。采用C#程序设计语言和Visual studio 2013平台,开发了进行模型算法实现的原型系统,并通过算例进行了说明。结果表明:在预先设置的灾害情景中,提出的模型算法可以提前规划出避开灾害且疏散时间较短的路径,为制定应急预案提供参考依据。 相似文献
This comparative field study examined the responses of bacterial community structure and diversity to the revegetation of zinc (Zn) smelting waste slag with eight plant species after 5 years. The microbial community structure of waste slag with and without vegetation was evaluated using high-throughput sequencing. The physiochemical properties of Zn smelting slag after revegetation with eight plant rhizospheres for 5 years were improved compared to those of bulk slag. Revegetation significantly increased the microbial community diversity in plant rhizospheres, and at the phylum level, Proteobacteria, Acidobacteria, and Bacteroidetes were notably more abundant in rhizosphere slags than those in bulk waste slag. Additionally, revegetation increased the relative abundance of plant growth-promoting rhizobacteria such as Flavobacterium, Streptomyces, and Arthrobacter as well as symbiotic N2 fixers such as Bradyrhizobium. Three dominant native plant species (Arundo donax, Broussonetia papyrifera, and Robinia pseudoacacia) greatly increased the quality of the rhizosphere slags. Canonical correspondence analysis showed that the differences in bacterial community structure between the bulk and rhizosphere slags were explained by slag properties, i.e., pH, available copper (Cu) and lead (Pb), moisture, available nitrogen (N), phosphorus (P), and potassium (K), and organic matter (OM); however, available Zn and cadmium (Cd) contents were the slag parameters that best explained the differences between the rhizosphere communities of the eight plant species. The results suggested that revegetation plays an important role in enhancing bacterial community abundance and diversity in rhizosphere slags and that revegetation may also regulate microbiological properties and diversity mainly through changes in heavy metal bioavailability and physiochemical slag characteristics.