Treatment of acidic water from Bekok River using open limestone channel

Aris, Azmi; Mokhtar, Nadzirah Mohd; Muslim, Ruaa Issa; Ujang, Zaini; A-Majid, Z.

doi:10.2166/ws.2007.145

Cited by 3 publications

(2 citation statements)

References 4 publications

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“…Its water source is from the River. For nearly a decade, the Bekok River has regi of Bekok istered 1 a low pH of less than 5.5 due to the acidification process of acid sulphate soil within the river basin (Aris et al 2007).…”

Section: Sri-gading Wtpmentioning

confidence: 99%

Optimizing the coagulation process in a drinking water treatment plant – comparison between traditional and statistical experimental design jar tests

Zainal-Abideen

Aris

Yusof

et al. 2012

Water Science and Technology

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In this study of coagulation operation, a comparison was made between the optimum jar test values for pH, coagulant and coagulant aid obtained from traditional methods (an adjusted one-factor-at-a-time (OFAT) method) and with central composite design (the standard design of response surface methodology (RSM)). Alum (coagulant) and polymer (coagulant aid) were used to treat a water source with very low pH and high aluminium concentration at Sri-Gading water treatment plant (WTP) Malaysia. The optimum conditions for these factors were chosen when the final turbidity, pH after coagulation and residual aluminium were within 0-5 NTU, 6.5-7.5 and 0-0.20 mg/l respectively. Traditional and RSM jar tests were conducted to find their respective optimum coagulation conditions. It was observed that the optimum dose for alum obtained through the traditional method was 12 mg/l, while the value for polymer was set constant at 0.020 mg/l. Through RSM optimization, the optimum dose for alum was 7 mg/l and for polymer was 0.004 mg/l. Optimum pH for the coagulation operation obtained through traditional methods and RSM was 7.6. The final turbidity, pH after coagulation and residual aluminium recorded were all within acceptable limits. The RSM method was demonstrated to be an appropriate approach for the optimization and was validated by a further test.

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Section: Sri-gading Wtpmentioning

confidence: 99%

Optimizing the coagulation process in a drinking water treatment plant – comparison between traditional and statistical experimental design jar tests

Zainal-Abideen

Aris

Yusof

et al. 2012

Water Science and Technology

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“…Low pH in wastewater after adding EE will influence the decolourization of dye [ 43 ]. As Aris et al (2007) suggested, limestone can be used to recover acidic water to water close to neutral [ 44 ].…”

Section: Resultsmentioning

confidence: 99%

Decolourization of Crystal Violate and Methylene Blue Wastewater Using Anaerobic Fermented Bio-Waste

Leong

Tee

Lim

et al. 2023

Water Conserv Sci Eng

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Textile exchange is a popular term in the textile industry and has incorporated Sustainable Development Goals (SDGs) into its strategy for transformation. The advance of Industrial Revolution 4.0 digitised the textile industry and incorporated artificial intelligence (AI) into operation and supply chain to enhance production and improve product quality in different downstream processing. Malaysia’s textile industry has largely continued to contribute to the domestic economy. In the textile industry, refinement treatment is crucial to avoid water pollution derived from dye, organic pollutants, and heavy metals. Wastewater derived from textile industries must perform a pre-treat before discarding into the natural environment, as the excess dye in textile wastewater negatively impacts the environment. Untreated or inadequately treated wastewater and discharge to nearby water sources contribute to disease increase. Therefore, this study aims to elucidate microbiota biodiversity that can significantly remove or break down the dye in wastewater from the textile industry. This study selected two cationic dyes, crystal violet (CV), and methylene blue (MB). Through the findings, microbial consortium derived from the fermented bio-waste show no significant difference in the decolourisation of wastewater polluted with CV (< 13.53%). In contrast, the microbial population generated from fermented bio-waste showed remarkable outcomes on MB decolourisation up to 88.52% in 3 days of treatment. In the absence of laccase in fermented bio-waste, microbial consortium produced from the fermented bio-waste is ineffective in decolourising the wastewater containing CV compared to MB.

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Equipment design for water treatment geothermal hot spring bath in Leilem Village, North Sulawesi

Mauren

Widiharto

2020

THERMOFLUID X: 10th International Conference on Thermofluids 2019

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Treatment of acidic water from Bekok River using open limestone channel

Cited by 3 publications

References 4 publications

Optimizing the coagulation process in a drinking water treatment plant – comparison between traditional and statistical experimental design jar tests

Optimizing the coagulation process in a drinking water treatment plant – comparison between traditional and statistical experimental design jar tests

Decolourization of Crystal Violate and Methylene Blue Wastewater Using Anaerobic Fermented Bio-Waste

Equipment design for water treatment geothermal hot spring bath in Leilem Village, North Sulawesi

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