Saving energy consumption and CO'2 emission from sustainable efficient operating zones in inland electrodialysis reversal desalination

Maung Thein Myint

首页> 外文期刊>Water resources and industry >Saving energy consumption and CO'2 emission from sustainable efficient operating zones in inland electrodialysis reversal desalination

【24h】

Saving energy consumption and CO'2 emission from sustainable efficient operating zones in inland electrodialysis reversal desalination

机译：在内陆电渗析逆法脱盐中，从可持续的高效运行区域中节省能源消耗和CO“ 2排放

获取原文

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

A pre-design parameter, system efficiency (SE) was modeled for operations with water recovery rate through cell pairs (WRRTC)>0.5. The variables for equation were validated with data from a pilot scale study of electrodialysis reversal (EDR). The correlation between experimental and predicted SE are good at overall R^2 0.924 with significant p 0.000. System efficiency-to-polarization degree ratio is inversely linear with demineralization, WRRTC, and polarization degree (PD). The most sensitive operational parameter was found to be PD. The sustainable efficient zones for PD, WRRTC, and demineralization were found to be 1040-1315 (A/m^2) (L/eq), 0.57-0.67, and 62-90%. By operating EDR in this zone, 8-15% of energy consumption and CO"2 emission were saved.

机译：为通过电池对（WRRTC）> 0.5的水回收率运行的操作设计了预设计参数系统效率（SE）。用电渗析逆转（EDR）中试研究的数据验证方程式变量。实验SE与预测SE之间的相关性在总体R ^ 2 0.924处很好，p值为0.000。系统效率与极化度之比与脱矿质，WRRTC和极化度（PD）成反比。发现最敏感的操作参数是PD。 PD，WRRTC和脱盐的可持续有效区域分别为1040-1315（A / m ^ 2）（L / eq），0.57-0.67和62-90％。通过在该区域中运行EDR，可以节省8-15％的能源消耗和CO“ 2排放。

著录项

来源
《Water resources and industry》 |2014年第4期|共13页
作者
Maung Thein Myint;
展开▼
作者单位

展开▼
收录信息
原文格式 PDF
正文语种
中图分类水文科学（水界物理学）;
关键词

相似文献

外文文献
中文文献
专利

1. An energy-saving "nanofiltration/electrodialysis with polarity reversal (NF/EDR)" integrated membrane process for seawater desalination. Part III. Optimization of the energy consumption in a demonstration operation [J] . Liu Ying, Wang Jianyou, Wang Lidan Desalination: The International Journal on the Science and Technology of Desalting and Water Purification . 2019,第期

机译：节能“具有极性反转（NF / EDR）”的节能“纳滤/电渗析”海水淡化的集成膜工艺。第三部分。优化演示操作中的能耗
2. High-recovery electrodialysis reversal for the desalination of inland brackish waters [J] . Hanrahan Connor, Karimi Leila, Ghassemi Abbas, Desalination and water treatment . 2016,第24期

机译：高回收率的电渗析逆转，用于内陆微咸水的淡化
3. Complete sustainability in electrodialysis reversal desalination: reusing tertiary-treated municipal wastewater as feed in the concentrate stream and electrodes rinsing water [J] . Maung Thein Myint, Abbas Ghassemi, Nagamany Nirmalakhandan Desalination and water treatment . 2013,第16a18期

机译：电渗析逆海水淡化的完全可持续性：将经三次处理的市政废水作为精矿流和电极漂洗水中的进料再利用
4. TOWARD SUSTAINABILITY AND LOW COST IN ELECTRODIALYSIS REVERSAL DESALINATION [C] . Maung Thein Myint, Abbas Ghassemi AIChE annual meeting . 2011

机译：致力于电渗析反海水淡化的可持续性和低成本
5. High-recovery inland desalination: Concentrate treatment by electrodialysis and batch reverse osmosis [D] . Ortega-Corral, Noe 2013

机译：高回收率内陆海水淡化：通过电渗析和分批反渗透进行浓缩处理
6. Trade-Off between Operating Time and Energy Consumption in Pulsed Electric Field Electrodialysis: A Comprehensive Simulation Study [O] . Manuel César Martí-Calatayud, Mario Sancho-Cirer Poczatek, Valentín Pérez-Herranz 2021

机译：脉冲电磁场电渗机的运营时间与能耗之间的权衡：全面的仿真研究
7. Saving energy consumption and CO2 emission from sustainable efficient operating zones in inland electrodialysis reversal desalination [O] . Maung Thein Myint 2014

机译：在内陆电渗析逆转海水淡化中，节约能源消耗和可持续高效作业区的二氧化碳排放
8. Data Collection and Analysis of Commercial Membrane Desalination Plants. Volume III. Electrodialysis/Electrodialysis Reversal Plants [R] . Latour, S. , Anderton, J. , Menningmann, J. 1980

机译：商业膜脱盐装置的数据采集与分析。第三卷。电渗析/电渗析逆转植物

Saving energy consumption and CO'2 emission from sustainable efficient operating zones in inland electrodialysis reversal desalination

摘要

著录项

相似文献

相关主题

期刊订阅