The effect of steam treating waste cooking oil on the yield of methyl ester

Supple, B.; Howard-Hildige, R.; Gonzalez-Gomez, Esther; Leahy, James J.

doi:10.1007/s11746-002-0454-1

Cited by 142 publications

(67 citation statements)

References 10 publications

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“…The end point of the titration is marked when the titration sample turns pink (magenta) and stays pink for 10 s. The number of milliliters of 0.1 % NaOH solution needed is equal to the number of extra grams of pure sodium hydroxide catalyst needed to produce the proper reaction to make biodiesel from WVO. Supple et al (2002) investigated the effect of steam injection and sedimentation treatment of waste cooking oil on the quality of TG to be used as a raw material for the production of biodiesel. The decreases in moisture from 1.4 to 0.4 % and in FFA from 6.27 to 4.28 % were found to correlate strongly with an increase in yield of ester from 67.5 to 83.5 %.…”

Section: Pretreatment Processesmentioning

confidence: 99%

“…The NER is evaluated by dividing the energy output of the system by the cumulative energy demand of the system. Furthermore the processing of used frying oil into biodiesel is an ideal alternative to the use as animal feed (Supple et al, 2002), which is restricted by the law in Europe. The product therefore has the other benefits of being removed from the food chain.…”

Section: Introductionmentioning

confidence: 99%

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Different techniques for the production of biodiesel from waste vegetable oil

Refaat

2009

Int. J. Environ. Sci. Technol.

280

118

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ABSTRACT:The production of biodiesel from waste vegetable oil offers a triple-facet solution: economic, environmental and waste management. The new process technologies developed during the last years made it possible to produce biodiesel from recycled frying oils comparable in quality to that of virgin vegetable oil biodiesel with an added attractive advantage of being lower in price. Thus, biodiesel produced from recycled frying oils has the same possibilities to be utilized. While transesterification is well-established and becoming increasingly important, there remains considerable inefficiencies in existing transesterification processes. There is an imperative need to improve the existing biodiesel production methods from both economic and environmental viewpoints and to investigate alternative and innovative production processes. This study highlights the main changes occurring in the oil during frying in order to identify the characteristics of oil after frying and the anticipated effects of the products formed in the frying process on biodiesel quality and attempts to review the different techniques used in the production of biodiesel from recycled oils, stressing the advantages and limitations of each technique and the optimization conditions for each process. The emerging technologies which can be utilized in this field are also investigated. The quality of biodiesel produced from waste vegetable oil in previous studies is also reviewed and the performance of engines fueled with this biodiesel and the characteristics of the exhaust emissions resulting from it are highlighted. The overarching goal is to stimulate further activities in the field.

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Section: Pretreatment Processesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Different techniques for the production of biodiesel from waste vegetable oil

Refaat

2009

Int. J. Environ. Sci. Technol.

280

118

View full text Add to dashboard Cite

show abstract

“…The cost of biodiesel is approximately 1.5 times higher than that of petroleum diesel fuel due to the cost of vegetable oil (Prokop, 2002;Zhang et al, 2003;Lott, 2005;Hass et al, 2006). Biodiesel made from waste cooking oil is an economical source and an effective strategy for reducing raw material cost (Supple et al, 1999;Zhang et al, 2003;Kulkarni and Dalai, 2006;. Using waste cooking oil solves the problem of waste oil disposal.…”

Section: Introductionmentioning

confidence: 99%

Emissions of Regulated Pollutants and PAHs from Waste-cooking-oil Biodiesel-fuelled Heavy-duty Diesel Engine with Catalyzer

Liu

Lin

Hsu

2012

Aerosol Air Qual. Res.

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The development of biodiesels is being driven by the need for reducing emissions from diesel engines without modifying engines and for saving energy. The major obstacle to biodiesel commercialization is the high cost of raw materials. Biodiesel from waste cooking oil is an economical source and an effective strategy for reducing the raw material cost. Although biodiesels made from waste cooking oil have been previously investigated, PAH emissions from heavy-duty diesel engines (HDDEs) with catalyzer fueled with biodiesel from waste cooking oil and its blend with ultra-low sulfur diesel (ULSD) for the US-HDD transient cycle have seldom been addressed. Experimental results indicate that ULSD/WCOB (biodiesel made from waste cooking oil) blends had lower PM, HC, and CO emissions but higher CO 2 and NO x emissions when compared with that of ULSD. Using ULSD/WCOB blends instead of ULSD decreased PAHs by 14.1%-53.3%, PM by 6.80%-15.1%, HC by 6.76%-23.5%, and CO by 0.962%-8.65% but increase CO 2 by 0.318-1.43% and NO x by 0.384-1.15%. Using WCOB is an economical source and an effective strategy for reducing cost, and solves the problem of waste oil disposal.

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“…From cooking oils, its generation varies to each country, as it depends on the vegetable oil consumption. The estimated generation in the European Union (EU) is about 700,000-1,000,000 tons/year [44]. Only the UK generates an amount of approximately 250,000 tons per year [45].…”

Section: Feedstockmentioning

confidence: 99%

Renewable Hydrocarbons from Triglyceride's Thermal Cracking

Wiggers¹,

Beims²,

Ender³

et al. 2017

Frontiers in Bioenergy and Biofuels

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This chapter gives an overview of renewable hydrocarbon production through triglyceride's thermal-cracking process. The influence of feedstock characteristics and availability is discussed. It also presents issues about the reaction, the effect of operational conditions, and catalysts. A scheme of the reaction is presented and discussed. The composition and properties of bio-oil is presented for both thermal and catalytic cracking. The high content of olefins and the high acid index are drawbacks that require downstream processes. The reactor design, kinetics, and scale-up are opportunities for future studies. However, the similarity of bio-oil with oil turns this process attractive.

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The effect of steam treating waste cooking oil on the yield of methyl ester

Cited by 142 publications

References 10 publications

Different techniques for the production of biodiesel from waste vegetable oil

Different techniques for the production of biodiesel from waste vegetable oil

Emissions of Regulated Pollutants and PAHs from Waste-cooking-oil Biodiesel-fuelled Heavy-duty Diesel Engine with Catalyzer

Renewable Hydrocarbons from Triglyceride's Thermal Cracking

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