Effect of Temperature on the Performance of Rheofloc: Conductivity Removal from RO-reject

ASETH-18,ACABES-18 & EBHSSS-18 Nov. 19-20 2018 Cape Town (South Africa) Pub Date : 2018-11-19 DOI:10.17758/eares4.eap1118239

J. V. D. Linde, E. Fosso-Kankeu, F. Waanders, T. Tamane, G. Gericke

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Abstract

South Africa is an arid country with an annual average rainfall less than half of the world’s average rainfall. The industrial sector uses 11% of this limited amount of water. Eskom is one of these users. Within the water treatment system at the Grootvlei power station, reverse osmosis (RO) is used. The retentate from the membranes is pumped into a sump. This water can be treated for further usage, which ensures that the plant abstracts less water from the environment. Rheofloc, an inorganic polymeric flocculant was used in this study in conjunction with lime treatment, to reduce the conductivity of the water. As the conductivity decreases, the number of ions in the water decreased. The jar test method consisted of the addition of the coagulant and flocculant during rapid mixing for 5 minutes at 240 rpm, thereafter the lime was added to increase the pH to 10.1 during slow mixing which occurred for 90 minutes at 80 rpm. This was done at 40°C and at 60°C to observe the effect that temperature has on the reduction of the conductivity in the water. Results showed that the reduction of conductivity levels was higher at 60°C. This is due to the increase of the rate of reaction with an increase in temperature. Thus the treatment of ROreject is preferred at 60°C to achieve effective removal of ions with the potential of scale formation.

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温度对流变剂性能的影响:去除ro垃圾的导电性

南非是一个干旱的国家，年平均降雨量不到世界平均降雨量的一半。工业部门使用了这有限水量的11%。Eskom就是这些用户之一。在Grootvlei电站的水处理系统中，使用了反渗透(RO)。膜上的滞留物被泵入一个污水池。这些水可以经过处理以供进一步使用，这确保了植物从环境中提取更少的水。流变剂是一种无机高分子絮凝剂，在本研究中与石灰处理结合使用，以降低水的导电性。随着电导率的降低，水中离子的数量也随之减少。罐子试验方法是在240转/分的转速下快速混合5分钟，加入混凝剂和絮凝剂，然后在80转/分的转速下缓慢混合90分钟，加入石灰将pH提高到10.1。这是在40°C和60°C下进行的，以观察温度对水中电导率降低的影响。结果表明，在60°C时，电导率水平的降低幅度较大。这是由于反应速率随着温度的升高而增加。因此，首选在60°C下处理ROreject，以实现具有结垢潜力的离子的有效去除。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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ASETH-18,ACABES-18 & EBHSSS-18 Nov. 19-20 2018 Cape Town (South Africa)

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