膜过滤在热电厂冷却塔处理中的节水效果

IF 1.6 Q4 ENVIRONMENTAL SCIENCES
Chetan K Dhokai, R. Palkar, V. Jain
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引用次数: 3

摘要

通过在冷却塔内放置侧流过滤器来观察系统的节水效果。对于任何燃煤电厂来说,浓缩循环对节水都起着重要的作用。膜系统的安装增加了冷却塔浓缩循环次数。侧流过滤器的排水排往污水处理厂(ETP),过滤后的水将循环进入冷却塔入口。通过不同的流量、压力和其他因素来测量水参数。在试点中,节水效果显著。最大补给水量和最大流出量分别减少14%和48%。为了最大限度地节约水,渗透采收率必须尽可能高。由于膜上的二氧化硅结垢,节水效果微乎其微。所选膜的总溶解系统(TDS)截留率低于初步研究中所需膜的88%,这可能有助于节约用水。膜处理增加的能量消耗被较低的水费用所补偿。为了防止结垢,在膜系统的同时还安装了化学药剂加药系统。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Water saving in thermal power plant by use of membrane filter in cooling tower treatment
A study was carried to investigate by placing a side stream filter in a cooling tower to observe the water conservation in the system. For any coal based power plant cycles of concentration plays important role for water conservation. The cycles of concentration in cooling tower was increased by installation of membrane system. The drain of the side stream filter was disposed to effluent treatment plant (ETP), while the filtered water will be recycled to the cooling tower inlet. The water parameter was measured by using various flow rates, pressure, and other factors. Significant water savings were demonstrated in the pilot. Maximum make-up water and outflow were both reduced by 14% and 48%, respectively. To save the most water, permeate recovery must be as high as possible. Water savings were minimal due to silica scaling on the membranes. Selected membranes are capable of lower total dissolved system (TDS) rejection than the 88% of total required membranes in the primary study, which might help to save water. The increased energy consumed by membrane treatment was compensated for by lower water outlays. To prevent scaling antiscalent chemical with chemical dosing system was installed along with membrane system.
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来源期刊
AIMS Environmental Science
AIMS Environmental Science ENVIRONMENTAL SCIENCES-
CiteScore
2.90
自引率
0.00%
发文量
31
审稿时长
5 weeks
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