Suspended Solid, Color, COD and Oil and Grease Removal from Biodiesel Wastewater by Coagulation and Flocculation Processes

Daud, Zawawi; Awang, Halizah; Latif, Ab Aziz Abdul; Nasir, Nazlizan; Ridzuan, Mohd Baharudin; Ahmad, Zulkifli

doi:10.1016/j.sbspro.2015.06.234

Cited by 84 publications

(49 citation statements)

References 4 publications

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“…Although membrane bioreactor was effective in treating biodiesel wastewater, a more soluble microbial product during biological treatment could lead to increases in the particle size with irregular shape, resulting in severe membrane fouling [8]. Therefore, physical-chemical methods are often proposed [9]. Typically, coagulation-flocculation process is regarded as one of the most important treatment processes of industrial wastewater [10] and raw water [11] due to its simplicity, effectiveness and low energy consumption.…”

Section: Introductionmentioning

confidence: 99%

“…In addition to the structural-mechanical factor and the electrostatic factor of aggregation stability, these chemical characteristics of the cellulose acetate sulfate allowed to recommend them for effective preparations for the contaminated water purification. In the literature there are many studies regarding the biodiesel wastewater treatment by coagulation-flocculation [9], adsorption [36], flotation by dissolved air [37], electro-coagulation [38,39], electro-oxidation [40]. However, there are no reports of biodiesel wastewaters treatment by flocculation using only natural flocculants.…”

Section: Introductionmentioning

confidence: 99%

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Polymeric polyelectrolytes obtained from renewable sources for biodiesel wastewater treatment by dual-flocculation

Ribeiro¹,

Filho²,

Rozeno³

et al. 2017

Express Polym. Lett.

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Abstract. Biodiesel wastewater generally contains high levels of oils, soaps and glycerol residues. This needs wastewater treatment. In this study, the biodiesel wastewater treatment was tested (industrial wastewater (EFID) and laboratory wastewater (EFLB) from biodiesel) by performing flocculation and dual-flocculation with renewable polymers. Tannin and cationic hemicellulose (CH) were used as cationic flocculant, and cellulose acetate sulfate (CAS) was used as an anionic flocculant. Polyacrylamide (PAM) was used as a reference anionic flocculant for result efficiencies analysis obtained with CAS (renewable source flocculant). The treatment efficacy in wastewater was evaluated by: turbidity removal, sludge volume formed, chemical oxygen demand (COD) and total suspended solids (TSS). The obtained sludge was studied using thermogravimetric analysis (TG). The dual-flocculation application condition of the 25% proportion of tannin (T) and 75% proportion of cationic hemicelluloses (i.e., T25/CH75) showed EFLB turbidity removal of 89.1% and 89.5% for CAS and PAM additions respectively, and for EFID of 67% and 41% for CAS and PAM additions respectively. The dual-flocculation performance suggested that the polyelectrolytes obtained from renewable sources can be used for treating biodiesel wastewater.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Polymeric polyelectrolytes obtained from renewable sources for biodiesel wastewater treatment by dual-flocculation

Ribeiro¹,

Filho²,

Rozeno³

et al. 2017

Express Polym. Lett.

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“…The selection of the right type of polymeric coagulant for application depends on its sensitivity and operating conditions, applied in the right proportion to initiate neutralization, stability and mobility of the colloidal oil droplets in order to enhance treatment effectiveness (Hosny et al, 2016). The removal of the targeted contaminants in the MOW, the type of coagulant, coagulant dosage, pH and flotation time also play an important role to enhance the treatability and efficiency (Zouboulis and Avranas, 2000;Daud et al, 2015). Therefore, the Box-Behnken design (BBD) of experiment was adapted from the response surface methodology (RSM) to optimise the relevant operating parameters in order to reduce the researcher's experimental workload and high cost of chemical usage, and to avoid uncertainty on industrial application (Chavalparit and Ongwandee, 2009;Li et al, 2016;Tetteh and Rathilal, 2017).…”

Section: Introductionmentioning

confidence: 99%

“…However, coagulation flotation is a complicated process, which involves a series of physical-chemical interactions for the removal of contaminants, depending on the type of coagulant (Diya'uddeen et al, 2011;Daud et al, 2015). Coagulation, which is usually the first stage in a pre-treatment process, neutralises the charge of the oil droplets and forces them to agglomerate.…”

Section: Introductionmentioning

confidence: 99%

Effects of a polymeric organic coagulant for industrial mineral oil wastewater treatment using response surface methodology (RSM)

Tetteh

Rathilal

2018

WSA

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In this study, treatment of a local South African oil refinery effluent using a coagulation flotation process is designed using response surface methodology (RSM). A Box-Behnken design (BBD) implementing the RSM is applied to evaluate the effects and interactions of three operating parameters, viz., pH, coagulant dosage and flotation time, on the treatment of mineral oil wastewater (MOW). Polyacrylamide (Zetag-FS/A50), which is a water-soluble compound, is applied to enhance the adsorption mechanism and intermolecular bridging to minimise the amount of oil droplets. In addition, due to the monomeric nature and the charge density of the Zetag-FS/A50, its efficiency was evaluated to serve as an alternative coagulant for the pretreatment of the MOW. The removal of chemical oxidation demand (COD), soap oil and grease (SOG), total suspended solids (TSS) and turbidity from the MOW were used as the response variables for the coagulation flotation process. This was done with a standard dissolved air flotation jar test. The results show that the actual COD, SOG, TSS and turbidity percentage removal at optimised conditions with a coagulant dosage of 50 mg/L were 82%, 83%,70% and 83% respectively, while the predicted response was 92%, 96%, 73% and 87% for COD, SOG, TSS and turbidity, respectively. The analysis of variance (ANOVA) showed that the proposed models are significant at a 95% confidence level. A quadratic model was generated for response variables COD and SOG, while TSS and turbidity produced a linear model. The models fitted well with the experimental data with correlation coefficients (actual R2) of 0.94 for COD, 0.91 for SOG, 0.81 for TSS, and 0.75 for turbidity.The outcome of the study shows that the RSM has merit to optimise and identify the most important factor to control and the Zetag-FS/A50 coagulant has the potential to adsorb the oil droplets in order to enhance the treatment efficiency of the process.

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“…Algunos autores han estudiado el tratamiento de este tipo de efluentes mediante: tratamiento biológico [4,6], coagulación y/o electrocoagulación [7][8][9][10] y adsorción [11,12]. Este último método casi no ha sido utilizado para el tratamiento de aguas residuales de biodiesel.…”

Section: Introductionunclassified

Tratamiento de efluentes acuosos provenientes de la industria de biodiesel, utilizando tecnología de membranas

Firman¹,

Ochoa²,

Marchese³

et al. 2018

Matéria (Rio J.)

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RESUMENLos efluentes acuosos provenientes de la producción de biodiesel son generados principalmente a partir del proceso de lavado, etapa en la cual se eliminan contaminantes para asegurar que el biodiesel cumpla con las normas internacionales. Estos efluentes contienen impurezas de la mezcla de esteres metílicos, aceite residual, mono y diglicéridos, sales solubles, catalizador, jabones, glicerol y alcohol, por lo que contienen una elevada carga contaminante.El objetivo del presente trabajo es el desarrollo de la tecnología de membranas para el tratamiento de efluentes acuosos provenientes de la industria de biodiesel. Se sintetizó una membrana de ultrafiltración (UF) (17% de polifluoruro de vinilideno -PVDF-, 8,5% polivinilpirrolidona -PVP-k30) por el método de inversión de fase. Las experiencias se realizaron con una celda de flujo cruzado. Las condiciones operacionales fueron: T= 20°C, Δp=0,4-1 bar y v=0,5-1 m/s. Se utilizó como alimentación tanto una muestra sintética preparada en el laboratorio como una muestra real de efluente proveniente de una industria de biodiesel. Se observó que a un caudal de alimentación constante, el flujo permeado disminuye al aumentar la presión. Dicho comportamiento es atribuido al ensuciamiento de la membrana (región controlada por la transferencia de masa). Mientras que al aumentar la velocidad de permeación a presión constante, el flujo permeado aumenta gradualmente, ya que al aumentar la velocidad se logra limpiar la superficie de la membrana obteniendo un menor ensuciamiento.A partir de la caracterización de la alimentación y el permeado, se encontró que la membrana estudiada retiene entre el 89-100% de aceites y grasas, y entre 20-40% de la demanda química de oxígeno (DQO) presentes en el efluente, pH y sólidos solubles totales (TSS) permanecieron invariables.Palabras clave: Tratamiento de Efluente, Biodiesel, Aguas Residuales, Ultrafiltración. ABSTRACTThe wastewaters from biodiesel production are generated mainly in the washing process, in this step the contaminants of biodiesel are eliminated in order to the obtained biodiesel meets with the internationals regulations. These wastes contain impurities such as methyl ester, residual oil, mono and diglycerides, soluble salts, catalyst, soap, glycerol and alcohol.The aim of this study is the application of membrane technology for the treatment of aqueous wastes from biodiesel industry. By means of the phase inversion method was synthesized a membrane of UF using a 17wt% of polyvinylidene polyfluoride (PVDF) and 8,5wt % polyvinylpyrrolidone (PVP) casting solution. The filtration essays were performed in a cross flow cell. The operational conditions were: T= 20°C, Δp=0.4-

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Suspended Solid, Color, COD and Oil and Grease Removal from Biodiesel Wastewater by Coagulation and Flocculation Processes

Cited by 84 publications

References 4 publications

Polymeric polyelectrolytes obtained from renewable sources for biodiesel wastewater treatment by dual-flocculation

Polymeric polyelectrolytes obtained from renewable sources for biodiesel wastewater treatment by dual-flocculation

Effects of a polymeric organic coagulant for industrial mineral oil wastewater treatment using response surface methodology (RSM)

Tratamiento de efluentes acuosos provenientes de la industria de biodiesel, utilizando tecnología de membranas

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