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  1. Athirah Othman, Johan Sohaili, Nur Sumaiyyah Supian
    MyJurnal
    This review is aimed to present an in-depth review of several methodologies on magnetic
    water treatment (MWT) that are employed as scale treatment in water pipeline and to
    critically discuss each method in order to determine the best outcome of MWT. The
    magnetically assisted water in pipeline in various applications are presented, argued and
    best variables are listed according to the performance of each MWT. The advantages and
    limitations of MWT are discussed and the main outcome from the review summarize the
    best method in MWT, especially in effectiveness of treating scale in terms of sustained
    environment benefits. Magnetic field application in water treatment has the potential to
    improve the water pipeline performance and lifetime. The application is also significant in
    controlling the growth of scale in upcoming system. Both of these benefits lead to healthier
    water treatment, increasing and maintaining the lifetime and performance of water system.
  2. Nur Sumaiyyah Supian, Johan Sohaili, Nur Farhan Zon
    MyJurnal
    Endless industrial development and growing society occasionally create an enormous volume of wastewater, which leads to some issues on wastewater treatment. Existing conventional screening processes have various limitations and drawbacks. Therefore, this study investigated the use of a combination of non-corrosive stainless steel wool and a permanent magnet to increase magnetic gradient, hence reducing suspended matter in sewage through turbidity test. An approach for optimizing the reduction of suspended matter through turbidity analysis was conducted using central composite design (CCD) under response surface methodology (RSM). Three critical independent variables, such as magnet strength, circulation time, and steel wool, and turbidity removal as the response, were further studied to analyze their interaction effects. As a result, an optimal value of turbidity removal was found at 90.3% under the specified optimum conditions of magnet strength of 245 mT, 116 g of non-corrosive stainless steel wool, and 16 h of circulation time. Statistical analysis had shown that the magnet strength, circulation time, and steel wool significantly affected the turbidity removal performance. Furthermore, design of experiment was significantly verified by a small range of error between predicted and actual data. Consequently, a higher gradient of magnetic separation was proven to effectively remove suspended matter using inexpensive non-corrosive stainless steel wool without using magnetic adsorbent. Thus, the suggested approach was found to be cost-effective and environmentally friendly for sewage treatment.
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