The Effectiveness of Macrocomposite Adsorbent for Treatment of COD and Suspended Solid of Car Wash Water Effluent

doi:10.30534/ijeter/2020/0681.22020

Cited by 2 publications

(2 citation statements)

References 4 publications

(5 reference statements)

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“…Chemical modifications could be performed for the cationization of adsorbents, after which they become able to form a strong electrostatic attraction with anionic contaminants. Moreover, abundant surface functional groups, including CO, NH 2 , and aliphatic and aromatic COOH, are essential for binding to various ions in CWW, leading to greater adsorption ability [33]. For instance, activated carbon prepared from bituminous minerals has been used to remove anionic surfactants from CWW, achieving an adsorption capacity of 5.65 mg/g after 2 h [34]), and a macrocomposite adsorbent containing activated carbon, aggregates, sand, zeolite, and cement has been used to remove COD (1.3-1.8 mg/g) and suspended solids (1.5-2.1 mg/g) from CWW in a fixed-bed adsorption column [33].…”

Section: Oxidation Processesmentioning

confidence: 99%

“…Cluster 2 (green) represents other components in CWW, such as COD and TSS. These parameters are enriched in the effluents of vehicle service stations, representing their soluble, particulate, and/or colloidal organic contents [33]. Colloidal particles can reach sewage drains through CWW along with cleaning street waste (e.g., sand, dust, and mud).…”

Section: Research Trends and Hotspots In Carwash Wastewater Managementmentioning

confidence: 99%

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Transition towards Sustainable Carwash Wastewater Management: Trends and Enabling Technologies at Global Scale

et al. 2022

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Carwash wastewater (CWW) contains grease, oil, hydrocarbon residues, heavy metals, and surfactants, posing severe impacts to the environment and human health. Accordingly, various physical, chemical, and biological processes for CWW treatment have been demonstrated in recent research. In this study, a bibliometric approach was performed to comprehensively illustrate the recent progress, current direction, and future perspectives of CWW-related research. A keyword co-occurrence network was used to represent the results of the bibliometric analysis and to show the major pollutants in CWW effluents and the common systems for treating CWW via coagulation/flocculation, electrochemical, oxidation, membrane, adsorption, biological, and hybrid methods. An integrated anaerobic digestion/oxidation process has been reported to degrade CWW-associated pollutants and help develop an energy-efficient approach for waste management. The results demonstrated that the treatment of CWW has several benefits relevant to sustainable development, viz., good health and well-being, protection of life below water, bioenergy generation, and community awareness and acceptance towards wastewater reuse. Hence, these benefits could assist in meeting the environmental, economic, and social sustainable development goals (SDGs). These study outputs can encourage policymakers and stakeholders in implementing sensible regulations that control water usage and treatment in car sharing and personal vehicle services to either directly or indirectly adopt the agenda 2030 with its seventeen SDGs.

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Section: Oxidation Processesmentioning

confidence: 99%

Section: Research Trends and Hotspots In Carwash Wastewater Managementmentioning

confidence: 99%

Transition towards Sustainable Carwash Wastewater Management: Trends and Enabling Technologies at Global Scale

et al. 2022

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Activated banana peel macrocomposite adsorbent for river water treatment: isotherm and kinetic studies

Apandi

Muhamad

Yek

et al. 2023

Water Practice &Amp; Technology

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This study investigates the potential of a hybrid process combining sand filtration column with activated banana peels macrocomposite (ABPM) adsorbent for river water treatment. Scanning electron microscopy (SEM) analysis displayed an irregular structure and high cavities of the banana peel adsorbent surface that caters to the deposition of contaminants, while energy-dispersive X-ray analysis detected major elements of the adsorbent, such as calcium, oxygen, silicon, and carbon. Fourier-transform infrared analysis of the banana peels adsorbent showed the presence of hydroxyl, acyl, amine, and alkene groups that were responsible for the adsorption process. The sand filtration column experiment was investigated to find out the removal of turbidity, biochemical oxygen demand (BOD), chemical oxygen demand (COD), total suspended solids (TSS), and ammonia nitrogen (AN) where it resulted in the highest removal efficiency operated at a flowrate of 1.15 ml/s with >90% turbidity, 44% COD, 87% BOD, 75% TSS, and 54% AN removal. The adsorption isotherm was best described by the Langmuir model (R2 > 0.98) compared to the Freundlich model (R2 > 0.95). The pseudo-first-order kinetic model was the best fit for all the experimental data. The combination of sand filtration column with ABPM adsorbent is an efficient treatment solution for improving river water quality.

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The Effectiveness of Macrocomposite Adsorbent for Treatment of COD and Suspended Solid of Car Wash Water Effluent

Cited by 2 publications

References 4 publications

Transition towards Sustainable Carwash Wastewater Management: Trends and Enabling Technologies at Global Scale

Transition towards Sustainable Carwash Wastewater Management: Trends and Enabling Technologies at Global Scale

Activated banana peel macrocomposite adsorbent for river water treatment: isotherm and kinetic studies

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