自来水淡化中结实和遮阳植物木质部圆盘的评价

IF 1.1 Q3 CHEMISTRY, MULTIDISCIPLINARY Current Green Chemistry Pub Date : 2022-10-19 DOI:10.2174/2213346110666221019142003
S. Lubbad, Atta Elfarram
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引用次数: 0

摘要

由于雨水补给率低,海水渗入含水层的程度高,狭窄的加沙地带沿海地区的地下水含盐量偏高。因此,极咸的水对家用电器造成损害,并使反渗透海水淡化装置的性能恶化。在此基础上,对桑树、石榴、橄榄、仙人掌和榕树等不同植物的木质部圆盘进行了流式淡化实验研究。考察了进水总溶解盐、阀板厚度、流速和装置类型等参数。最后,利用光学显微镜对5种植物的木质部圆盘形态进行了筛选。不同植物的木质部对海水淡化的效率不同。因此,centrroza的脱盐效率最高,为31%,其次是Olive和Ficus,分别为26%和25%,而石榴和桑树的脱盐效率最低,分别为17%和14%。连续三盘装置建立了~ 50%的海水淡化~ 5000ppm的进水。因此,我们建议将具有成本效益的一次性木质部海水淡化装置作为保护过滤器安装在水龙头和家用海水淡化装置以及洗衣机或洗碗机之间,以提高这些设备的性能并延长其使用寿命。
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"Assessment of Xylem Discs from Fruiting and Shading Plants in Tap-water Desalination"
The low rainwater recharge rate and high seawater intrusion into water aquifer present a dilemma of high ground-water salinity for the narrow coastal Gaza Strip. Thus, extremely saline water causes impairment to household appliances and deteriorates the performance of the reverse-osmosis desalination units. Accordingly, xylem discs of different plants, such as Mulberry, Pomegranate, Olives, Centroza, and Ficus, were investigated for desalination of tap-water by flow-through experimentation. Various parameters such as the total dissolved salt of the inflow water, disc thickness, flow-rate and the type of plant were investigated. Finally, the morphology of the xylem discs of the five plants were screened using optical microscope. It was found that xylem of different plants showed dissimilar efficiencies in water desalination. Thus, Centroza established the highest desalination efficiency of 31%, followed by Olive and Ficus as 26 and 25%, respectively, while Pomegranate and Mulberry established the poorest salt removal of 17 and 14%, respectively. Successive three-disc set up established ~ 50% desalination of inflow-water of ~5000 ppm. Hence, disposable cost-effective xylem desalination unit is proposed as guard filter to be installed between the faucet and household desalination units and washing machines or dishwashers, in order to improve the performance and extend the life-time of these appliances.
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来源期刊
Current Green Chemistry
Current Green Chemistry CHEMISTRY, MULTIDISCIPLINARY-
CiteScore
4.30
自引率
13.60%
发文量
6
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