microbiology of palm oil mill effluents request pdf

microbiology of palm oil mill effluents | request pdf

Microbiology of palm oil mill effluents | Request PDF

Request PDF | On Jan 1, 2012, E.I. Ohimain and others published Microbiology of palm oil mill effluents | Find, read and cite all the research you need on ResearchGate

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(pdf) microbiological characteristics of palm oil mill effluent

(PDF) Microbiological Characteristics of Palm Oil Mill Effluent

Download full-text PDF Read full-text. Microbiology of palm oil mill effluents. Malaysia. Biodegradation of palm oil mill effluents (POME) was conducted to measure the discarded POME based

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palm oil mill effluent

Palm oil mill effluent

Palm oil mill effluent is a highly polluting material, due to its high biological oxygen demand (BOD), low pH and colloidal nature. It was estimated that a processing plant with a capacity of 10 tons fresh fruit per hour would need a water treatment plant comparable to that required by a population of half a million inhabitants (Brezing, 1986).

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(pdf) biodegradation of palm oil mill effluent

(PDF) Biodegradation of Palm Oil Mill Effluent

palm oil mill effluent (POM E) from palm oil milling act ivities. POME is the lar gest by-pr oduct during the palm oil extraction with about 1.5 to nes of POME being generated for a tone of fresh

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(pdf) effect of palm oil mill effluent on soil microflora

(PDF) Effect of palm oil mill effluent on soil microflora

The results showed that the palm oil mill effluent impacted soil had bacteria and fungi counts of 9.4±0.28 x 10 4 cfu/g and 8.87±0.75 x 10 4 cfu/g respectively and were higher than bacteria and

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enhancement of biodegradation of palm oil mill effluents by

Enhancement of Biodegradation of Palm Oil Mill Effluents by

This study was designed to investigate the microorganisms associated with palm oil mill effluent (POME) in Johor Bahru state, Malaysia. Biodegradation of palm oil mill effluents (POME) was conducted to measure the discarded POME based on physicochemical quality. The bacteria that were isolated are <i>Micrococcus</i> species, <i>Bacillus</i> species, <i>Pseudomonas</i> species, and <i

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antimicrobial effects of palm kernel oil and palm oil

Antimicrobial effects of palm kernel oil and palm oil

Palm oil is extracted from the fleshy mesocarp of the fruit which contains 45-55% oil but varies from light yellow to orange-red in colour and melts at 25 0 C. Palm oil contains saturated palmitic

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use of palm oil mill effluent as fermentative medium by

Use of Palm Oil Mill Effluent as Fermentative Medium by

modification in palm oil mill effluent. Palm oil mill effluent sample (100ml) was modified with respective concentrations of soy bean (1.5, 2.5, 3.5and 4.5% w/v) and inoculated with 0.1ml (10. 6. cells/ml) of selected inoculums. The flasks were incubated at 28. o. C for 144hrs on a rotary shaker with agitation speed of 180rpm. Samples were

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use of palm oil mill effluent as fermentative medium by

Use of Palm Oil Mill Effluent as Fermentative Medium by

modification in palm oil mill effluent. Palm oil mill effluent sample (100ml) was modified with respective concentrations of soy bean (1.5, 2.5, 3.5and 4.5% w/v) and inoculated with 0.1ml (10. 6. cells/ml) of selected inoculums. The flasks were incubated at 28. o. C for 144hrs on a rotary shaker with agitation speed of 180rpm. Samples were

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post-treatment of palm oil mill effluent using in vietnam

post-treatment of palm oil mill effluent using in vietnam

Enhancement of Biodegradation of Palm Oil Mill Effluents by Local Isolated Microorganisms 2.2. Palm Oil Mill Effluent (POME) Raw POME sample was collected by grabbing a sample directly from the inlet of a waste stabilization pond which discharged from stone and sand filtration from local industry in Johor Bahru province in Malaysia.

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oil mill effluents - an overview

Oil Mill Effluents - an overview

Palm oil mill effluent, or POME, is the effluent generated from the final stages of palm oil production in the mill. For every tonne of crude palm oil extracted from milling, about 2.5 tonnes of POME is generated ( Sulaiman et al., 2009 ), and in 2005, about 66.8 million tonnes of POME were produced ( Vairappan & Yen, 2008 ).

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enhancement of biodegradation of palm oil mill effluents by

Enhancement of Biodegradation of Palm Oil Mill Effluents by

This study was designed to investigate the microorganisms associated with palm oil mill effluent (POME) in Johor Bahru state, Malaysia. Biodegradation of palm oil mill effluents (POME) was conducted to measure the discarded POME based on physicochemical quality. The bacteria that were isolated are <i>Micrococcus</i> species, <i>Bacillus</i> species, <i>Pseudomonas</i> species, and <i

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enhancement of production of biogas from palm oil mill

ENHANCEMENT OF PRODUCTION OF BIOGAS FROM PALM OIL MILL

Effluents from palm oil mills processing plant have been identified as the major cause of the rapid deterioration of the aquatic environmental in the 1960s as well as 1970s. There an in fact the largest source of water pollution during the period (DOE 1991). Palm oil mill effluent (POME) is generated mainly from oil

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adsorption kinetics of colour removal from palm oil mill

Adsorption kinetics of colour removal from palm oil mill

Treated palm oil mill effluents (POME) is of great concern as it still has colour from its dissolved organics which may pollute receiving water bodies. In this study, the removal of colour from treated palm oil mill effluent were investigated through adsorption studies using carbon derived from wastewater sludge (WSC). Sludge from activated sludge plants were dried and processed to produce WSC

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mycological study of soil contaminated with effluents from

Mycological study of soil contaminated with effluents from

Mycological study of soil contaminated with effluents from palm oil mill in Microbiology Department, Kogi State University, Anyigba, Kogi Available Received 31 st thAugust Abstract Investigations were carried out on mycological and physiochemical features of soil that is being contaminated with effluents from palm oil mill in Anyigba .

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the utilisation of palm oil processing effluents as

The utilisation of palm oil processing effluents as

The filamentous fungus Aspergillus oryzae was found to grow well on the effluents produced during the extraction of palm oil. Biomass yields of approximately 50 g 100 g−1 organic matter were obtained containing 40% crude protein, with BOD reductions of 85% and COD reductions of 75% to 80% in batch culture following optimisation of growth conditions.

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degradation of phenolic compounds in palm oil mill effluent

Degradation of Phenolic Compounds in Palm Oil Mill Effluent

Palm oil mill effluent (POME) is usually treated using biological systems. However, phenolic compounds remain in the treated POME. This study aimed to remove phenolic compounds from POME using silica‐immobilized Methylobacterium sp. NP3 and Acinetobacter sp. PK1. Treated POME samples were collected from the final stabilization ponds of two

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the utilisation of palm oil processing effluents as

The utilisation of palm oil processing effluents as

The filamentous fungus Aspergillus oryzae was found to grow well on the effluents produced during the extraction of palm oil. Biomass yields of approximately 50 g 100 g−1 organic matter were obtained containing 40% crude protein, with BOD reductions of 85% and COD reductions of 75% to 80% in batch culture following optimisation of growth conditions.

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microbiological characteristics of palm oil mill effluent - core

Microbiological characteristics of palm oil mill effluent - CORE

World major agro-industrial effluents have received attention on its characteristics, treatment processes, and more recently on its recovery or reuse. For the palm oil mill effluent (POME), concerted research activities have been accentuating on its treatment via various high-end processes as well as reclaiming the effluent for industrial use.

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enhancement of production of biogas from palm oil mill

ENHANCEMENT OF PRODUCTION OF BIOGAS FROM PALM OIL MILL

Effluents from palm oil mills processing plant have been identified as the major cause of the rapid deterioration of the aquatic environmental in the 1960s as well as 1970s. There an in fact the largest source of water pollution during the period (DOE 1991). Palm oil mill effluent (POME) is generated mainly from oil

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enhanced synthesis of fatty‐acid methyl ester using oil from

Enhanced Synthesis of Fatty‐Acid Methyl Ester using Oil from

The optimal reaction conditions consisted of a methanol‐to‐oil ratio of 6:1 mol mol −1, 6 g immobilized lipase per 10 g of POME oil at an incubation temperature of 35°C, a mixing speed of 200 rpm (with a 5 cm orbital diameter), and a reaction time of 24 h. Under optimal conditions, the FAME content was 93.6% methanol‐free basis.

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microbiological and physicochemical characteristics of soil

Microbiological and physicochemical characteristics of soil

Current status on land application of palm oil mill effluent in the oil palm industry. A review, palm oil research institute, Malaysia. Occasional paper no 42, 1 – 19pp.

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adsorption kinetics of colour removal from palm oil mill

Adsorption kinetics of colour removal from palm oil mill

Treated palm oil mill effluents (POME) is of great concern as it still has colour from its dissolved organics which may pollute receiving water bodies. In this study, the removal of colour from treated palm oil mill effluent were investigated through adsorption studies using carbon derived from wastewater sludge (WSC). Sludge from activated sludge plants were dried and processed to produce WSC

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treatment of palm oil mill effluent by a microbial consortium

Treatment of Palm Oil Mill Effluent by a Microbial Consortium

A method for the aerobic treatment of palm oil mill effluent (POME) was investigated in shake-flask experiments using a consortium developed from POME compost. POME was initially centrifuged at 4,000 g for 15 min and the supernatant was enriched with (NH<sub>4</sub>)<sub>2</sub>SO<sub>4</sub> (0.5%) and yeast extract (0.25%) to boost its nitrogen content. At optimum pH

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