Presence of Residual Oil in Relation to Solid Particle Distribution in Palm Oil Mill Effluent

Sharifudin, Wan Siti Shazzelyn Aida Wan; Sulaiman, Alawi; Mokhtar, Noriznan; Baharuddin, Azhari Samsu; Tabatabaei, Meisam; Busu, Zainuri; Karuppuchamy, S.

doi:10.15376/biores.10.4.7591-7603

Cited by 4 publications

(1 citation statement)

References 18 publications

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“…There has been an increasing concern over the presence of dispersed oil in oily wastewater [1]. Most of the earlier and related works are mainly concerned about the removal of floating oil from the surface of water, and to be more specific, in the remediation of marine oil spills caused by the accidental release of petroleum from tankers and drilling rigs.…”

Section: Introductionmentioning

confidence: 99%

Kinetics and Thermodynamics of Dispersed Oil Sorption by Kapok Fiber

Quek

Ngadi

Zaini

2019

Ecological Chemistry and Engineering S

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This work was aimed at evaluating the sorption of dispersed oil by kapok fiber. The physicochemical characteristics of kapok fiber were investigated using BET, SEM, FTIR, XRD, contact angle and elemental analysis. The oil droplet size distribution at different temperatures was analysed using a Coulter counter, and its relationship with sorption was investigated. The effects of dosage, hydraulic retention time and temperature, on the sorption performance were studied. The result indicates that the sorption of dispersed oil by kapok fiber is spontaneous, endothermic and agreed with the pseudo-first-order reaction kinetics. The amount of oil that could be removed is about 28.5 %, while that of water is less than 1 % of the original amount (0.5 dm3). Kapok is a promising natural hydrophobic fiber for dispersed oil removal from oily wastewater.

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Section: Introductionmentioning

confidence: 99%

Kinetics and Thermodynamics of Dispersed Oil Sorption by Kapok Fiber

Quek

Ngadi

Zaini

2019

Ecological Chemistry and Engineering S

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Recovery of oil from palm oil mill effluent using polypropylene micro/nanofiber

Zhu

Janaun

Chung

et al. 2021

Journal of Hazardous Materials

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IntroductionIn palm oil mill industry, oil losses during the milling process are unavoidable. The main sources of oil losses are through wastewater clarification, sterilizer condensate and hydro-cyclone, which affect the oil extraction rate, % (OER) and the oil extraction efficiency, % (OEE) of the mills [1], [2]. In palm oil milling process, palm oil mill effluent (POME) is the largest waste generated where 2.5 tons of POME are produced from the average in every ton of oil extracted and typical raw POME contains about 1% or range in 4,000 mg/L of oil and grease [3]-[5]. The presence of residual oil in POME may cause serious environmental pollution due to elevation of biological oxygen demand (BOD) and chemical oxygen demand (COD) values, which could detrimental to aquatic organisms and surrounding habitats if untreated [6]. High concentration of BOD and COD values means high presents of organic matter, thus high consumption of oxygen for the microorganisms to decompose the organic matter [7]. Therefore, against the oil layer could reduce the biological activity of conventional biological ponding system since the suspended

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