Relevant bibliographies by topics / Reclaimed waste cooking oil

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Academic literature on the topic 'Reclaimed waste cooking oil'

Author: Grafiati
Published: 4 June 2025
Last updated: 23 June 2025

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Journal articles on the topic "Reclaimed waste cooking oil"

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Imran, Sutan Chairul, Ab Ghani Sharin, Zainuddin Hidayat, Hidayah Rahim Nor, Aizam Talib Mohd, and Hafiz Nor Rahman Nor. "Exploration of the Potential of Reclaimed Waste Cooking Oil for Oil-Immersed Power Transformers." TELKOMNIKA Telecommunication, Computing, Electronics and Control 15, no. 2 (2017): 957–61. https://doi.org/10.12928/TELKOMNIKA.v15i2.6151.

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In this study, reclaimed waste cooking oil is proposed as an alternative insulating liquid for oilimmersed power transformers. Reclamation is carried out by heating a mixture of waste cooking oil and Fuller’s Earth adsorbent and followed by filtration. Propyl gallate antioxidant is then added into the filtered oil. Four oil samples are investigated in this study: (1) new cooking oil (NCO), (2) waste cooking oil (WCO), (3) reclaimed oil (RWCO) and (4) reclaimed oil with propyl gallate antioxidant (RWCOPG). The AC breakdown voltage, moisture content and total acid number is measured for all oil samples according to the ASTM D1816, ASTM D1533 and ASTM D974 standard test method, respectively. The results show that the AC breakdown voltage is highest for the RWCOPG sample (28.08 kV), which is 0.4% higher than the standard requirement of 20 kV. The moisture content for this sample is 180.60 ppm, which is still below the allowable limit of 200 ppm. However, the total acid number is highest for the RWCOPG sample which suggests that it has high acidity. It is indicated that the antioxidant-reclaimed waste cooking oil has potential to be used as an insulating liquid for oil-immersed power transformers, but much work is still needed to reduce the total acid number of this oil.
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Mamun, Abdullah Al, H. I. Al-Abdul Wahhab, and M. A. Dalhat. "Comparative Evaluation of Waste Cooking Oil and Waste Engine Oil Rejuvenated Asphalt Concrete Mixtures." Arabian Journal for Science and Engineering 45, no. 10 (2020): 7987–97. http://dx.doi.org/10.1007/s13369-020-04523-5.

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Abstract In road construction, different types of waste oil have been recommended to overcome the stiffening effect of reclaimed asphalt pavement content. However, the selection of an effective rejuvenator based on a comparative study can lead to using the resources more efficiently. In this study, waste cooking oil and waste engine oil are used to rejuvenate three different percentages (30%, 40%, and 50%) of reclaimed asphalt pavement following the current maximum industrial adaptability. The waste oil rejuvenated mixtures are compared to the fresh mixture, and mixtures rejuvenated with commercial rejuvenator. The moisture sensitivity, indirect tensile strength, and resilient modulus of the various asphalt mixtures are analyzed. Based on the statistical analyses and overall ranking, it is concluded that 7% of waste engine oil performs better till 40% of reclaimed asphalt pavement, whereas 13% of waste cooking oil can be used till 50% of reclaimed asphalt pavement.
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Aljarmouzi, Ashraf, and Ruikun Dong. "Sustainable Asphalt Rejuvenation by Using Waste Tire Rubber Mixed with Waste Oils." Sustainability 14, no. 14 (2022): 8246. http://dx.doi.org/10.3390/su14148246.

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Waste materials such as waste tire rubber (WTR), waste cooking oil (WCO), bio-oils, waste engine oil (WEO), and other waste oils have been the subject of various scientific studies in the sustainable and waste research field. The current environmental concerns have been identified to protect natural resources and reuse waste materials. Accordingly, this work reviews the use of recycled waste tire rubber mixed with waste oils (waste cooking oil, waste engine oil) and bio-oils that can be extracted from waste oils to rejuvenate asphalt in reclaimed pavements. This new solution may reduce the massive amounts of WTR and waste oils and produce a more environmentally sustainable material. Reclaimed, aged asphalt has been rejuvenated to achieve various penetration capabilities and properties by blending asphalt with one or more waste materials to evaluate the binder using standard tests. Many solutions with promising results in improving the properties of asphalt mixtures have been selected for further characterization. This review highlights that the addition of WTR and waste materials to rejuvenated asphalt binders improves stability, enhances the viscoelastic properties, provides better fatigue and crack resistance performance, and enhances the compatibility of the rejuvenated rubber oil asphalt. Moreover, the flashing point, softening point, ductility, and penetration of aged asphalt and Poly(styrene-butadiene-styrene)-rubber-rejuvenated and waste-rubber-oil-rejuvenated asphalt were enhanced after applying the rejuvenator compound. On the other hand, adding waste oil to WTR and asphalt reduces the viscosity and enhances the storage stability compared to the asphalt rubber binder.
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Asim, Muhammad. "Rejuvenating Aged Asphalt Binder from Reclaimed Asphalt Pavement through the Utilization of Waste Cooking Oil." International Journal for Research in Applied Science and Engineering Technology 11, no. 12 (2023): 259–65. http://dx.doi.org/10.22214/ijraset.2023.57033.

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Abstract: This study investigates the use of waste cooking oil to rejuvenate aged asphalt binder from reclaimed asphalt pavement (RAP) in Peshawar, aligning with National Highway Authority (NHA) standards. Aged binder from RAP near Zintara Residence on Peshawar's Ring Road was combined with filtered cooking oil from local restaurants in varying proportions (1% to 5%). The rejuvenated binders underwent extensive physical and rheological tests, showing that certain fractions of cooking oil effectively revitalized the old binder, aligning it with virgin bitumen qualities. Superpave experiments on RAP mixes (30%, 40%, 50%) demonstrated comparable performance to fresh asphalt, particularly at 30% to 40% replacement levels. The results suggest that revitalized RAP holds promise as a sustainable alternative, enhancing asphalt mixes for road construction.
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Bardella, Noemi, Manuela Facchin, Eleonora Fabris, Matteo Baldan, and Valentina Beghetto. "Waste Cooking Oil as Eco-Friendly Rejuvenator for Reclaimed Asphalt Pavement." Materials 17, no. 7 (2024): 1477. http://dx.doi.org/10.3390/ma17071477.

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Over 50 MioT of Waste Cooking Oil (WCO) was collected worldwide in 2020 from domestic and industrial activities, constituting a potential hazard for both water and land environments, and requiring appropriate disposal management strategies. In line with the principles of circular economy and eco-design, in this paper an innovative methodology for the valorisation of WCO as a rejuvenating agent for bitumen 50/70 coming from Reclaimed Asphalt Pavement (RAP) is reported. In particular, WCO or hydrolysed WCO (HWCO) was modified by transesterification or amidation reactions to achieve various WCO esters and amides. All samples were characterised by nuclear magnetic resonance, melting, and boiling point. Since rejuvenating agents for RAP Cold Mix Asphalt require a melting point ≤0 °C, only WCO esters could further be tested. Efficiency of WCO esters was assessed by means of the Asphaltenes Dispersant Test and the Heithaus Parameter. In particular, bitumen blends containing 25 wt% of WCO modified with 2-phenylethyl alcohol, showed high dispersing capacity in n-heptane even after a week, compared to bitumen alone (1 h). Additionally, the Heithaus Parameter of this bitumen blend was almost three times higher than bitumen alone, further demonstrating beneficial effects deriving from the use of WCO esters as rejuvenating agents.
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Sutan Chairul, Imran, Sharin Ab Ghani, Hidayat Zainuddin, Nor Hidayah Rahim, Mohd Aizam Talib, and Nor Hafiz Nor Rahman. "Exploration of the Potential of Reclaimed Waste Cooking Oil for Oil-Immersed Power Transformers." TELKOMNIKA (Telecommunication Computing Electronics and Control) 15, no. 2 (2017): 957. http://dx.doi.org/10.12928/telkomnika.v15i1.6151.

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Sutan Chairul, Imran, Sharin Ab Ghani, Hidayat Zainuddin, Nor Hidayah Rahim, Mohd Aizam Talib, and Nor Hafiz Nor Rahman. "Exploration of the Potential of Reclaimed Waste Cooking Oil for Oil-Immersed Power Transformers." TELKOMNIKA (Telecommunication Computing Electronics and Control) 15, no. 2 (2017): 957. http://dx.doi.org/10.12928/telkomnika.v15i2.6151.

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Alkuime, Hamza, Emad Kassem, Khaled A. Alshraiedeh, Manaf Bustanji, Ahmad Aleih, and Fawzi Abukhamseh. "Performance Assessment of Waste Cooking Oil-Modified Asphalt Mixtures." Applied Sciences 14, no. 3 (2024): 1228. http://dx.doi.org/10.3390/app14031228.

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This study aims to develop a framework to incorporate Waste Cooking Oil (WCO) into asphalt mixtures. Such a framework utilizes a Balanced Mix Design (BMD) approach to ensure adequate resistance to cracking and rutting. Transportation agencies can use the proposed framework to incorporate recycled materials such as used cooking oils and reclaimed asphalt pavements into asphalt mixtures, which promotes sustainability in asphalt pavement construction. This study evaluated the cracking and rutting performance of the control and modified asphalt mixtures with different WCO dosages (i.e., 2, 3, 4, 5, and 7% by the weight of the binder) using the Indirect Tensile Asphalt Cracking (IDEAL) and High-temperature Indirect Tensile (High-IDT) Rutting Assessment Tests, respectively. The results demonstrated that WCO improved the cracking resistance of the control balanced mixture but reduced its resistance to rutting. A statistically significant effect was observed at high WCO dosages. Furthermore, the interaction plot indicates that the overall performance of WCO-modified asphalt becomes softer and more flexible with the increase in WCO dosage. Thus, the designed balanced control mixture becomes unbalanced when using WCO oil at any dosage. This study proposed several approaches to design a more economically balanced WCO-modified balance asphalt mixture.
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Arya Thanaya, I. Nyoman, I. Nyoman Karnata Mataram, and Bayu Setiawan. "Characteristics of masonry block that utilizes reclaimed asphalt pavement and waste cooking oil as the binder." MATEC Web of Conferences 276 (2019): 03001. http://dx.doi.org/10.1051/matecconf/201927603001.

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The availability of natural aggregate is getting limited, therefore it is required new alternative materials to substitute natural aggregates. Within this experiment reclaimed asphalt pavement (RAP) was used as masonry block with waste cooking oil as the binder. The objective of this experiment was to analyze the RAP asphalt content and aggregate gradation; and the samples characteristics particularly the compressive strength of masonry block minimum of 25 kg/cm2 that meet the Indonesian national standard SNI-03-0348-1989. The asphalt content of the RAP was initially extracted and tested for its aggregate gradation and specific gravity. The RAP was added 20% sand and a certain amount of waste cooking oil and evenly mixed. After that the mixture was compacted in a mould with a Marshall hummer, with compaction cycles for 15, 25, and 35 times where each cycle consists of 3 even blows. The size of the compacted samples were 20x10x8cm. After the samples were taken out from the mould, they were heated in an oven for 12 and 24 hours at 160°C and 200°C. It was found that the minimum waste cooking oil content required 4%. The best compressive strength was found on samples compacted at 15 compaction cycles and heated at 200°C for 24 hours. The un-soaked compressive strength was 80.5 kg/cm2 and 68.67 kg/cm2 for the soaked samples. In general the compressive strength well met the minimum 25 kg/cm2. Other best characteristics was found on samples heated at 160°C for 12 hours, with lowest water absorption of 5.64% and porosity of 4.53%. The Initial Rate of Suction (IRS) was 0,25~0,45 kg/m2.minute.
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Rahim, Muhammad Ibrahim Khalili Abd, Haryati Yaacob, Siti Nur Naqibah Kamarudin, et al. "Ageing influence in rejuvenated reclaimed asphalt binder incorporating waste cooking oil: A review." Journal of Physics: Conference Series 2907, no. 1 (2024): 012016. https://doi.org/10.1088/1742-6596/2907/1/012016.

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Abstract Mixing Recycled Asphalt Binder (RAP) with fresh asphalt mixture offers both environmental and economic advantages. However, the aged asphalt binder in RAP presents a significant challenge in sustainable asphalt pavement construction. One of sustainable approach is by using Waste Cooking Oil (WCO) to bring back the original properties of aged asphalt. Although, WCO ability to soften the aged binder is already established, its ability to improve the binder ability to resist the ageing is remain unknown. Researchers have recently explored the potential of using WCO as a sustainable rejuvenator for RAP, aiming to improve the binder’s resistance to ageing. This review covers important topics such the oxidative ageing mechanism in asphalt binders, ageing simulation techniques, the effectiveness of WCO in restoring the RAP properties, and WCO performance to increase asphalt ageing resistance. Through a comprehensive analysis of numerous prior studies, this review sheds light on the impact of WCO on the rheological characteristics, ageing resistance, and mechanical performance of the rejuvenated asphalt binder. The results from the examined literature are that WCO can be utilized as a sustainable rejuvenator in RAP by increase the durability and ageing resistance of binder. This review also points out some of the asphalt binder ageing factors are remains unknown which can be investigate for future research in this field. Ultimately, this review can be referred as a guidance to index and track the ageing factors in rejuvenated RAP by evaluates its characteristics and properties.
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Dissertations / Theses on the topic "Reclaimed waste cooking oil"

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ARAUJO, VICTOR KRAEMER WERMELINGER S. "COST EVALUATION FOR BIODIESEL PRODUCTION FROM WASTE COOKING OIL." PONTIFÍCIA UNIVERSIDADE CATÓLICA DO RIO DE JANEIRO, 2008. http://www.maxwell.vrac.puc-rio.br/Busca_etds.php?strSecao=resultado&nrSeq=11873@1.

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CONSELHO NACIONAL DE DESENVOLVIMENTO CIENTÍFICO E TECNOLÓGICO<br>FUNDAÇÃO DE APOIO A PESQUISA DA BAHIA<br>A busca pelo desenvolvimento sustentável tem como importante fator diferencial as fontes de energia renováveis. O biodiesel desponta como uma das alternativas mais relevantes, mas suas formas de obtenção no Rio de Janeiro não foram suficientemente investigadas. Este trabalho identifica a oportunidade da produção de biodiesel a partir de óleos residuais de fritura neste cenário, enfatizando os custos de transporte do óleo desde os principais produtores comerciais até a obtenção do biocombustível. O objetivo é avaliar os custos de forma a verificar a viabilidade do emprego desta alternativa. Para tanto, foram estudadas as diversas ferramentas de resolução do Problema de Roteamento de Veículos e foi proposto um algoritmo que visa à otimização dos custos. A formulação matemática utilizada baseia-se numa extensão de algoritmos clássicos, como o apresentado por Arenales et al. (2007), e nas equações desenvolvidas em Kallehauge (2006). Os resultados do modelo de roteamento, atrelados aos custos de produção, impostos e insumos, foram comparados com informações sobre a comercialização do biodiesel, comprovando sua viabilidade econômica. A consolidação dos dados obtidos aponta a produção de biodiesel a partir de óleo residual de fritura como viável, com custos logísticos equivalentes a R/tmp/aaaUFg8ya,19 por litro e custo final de R,22 por litro.<br>The search for a sustainable development has in renewable energy sources an important differential factor. Biodiesel is one of the most important alternatives, but its obtainment forms in Rio de Janeiro have not been investigated enough. This work identifies the opportunity of biodiesel production from waste cooking oil in this scenery, emphasizing oil`s transport costs until factories, where it is possible to obtain biodiesel in its final form. The objective is to evaluate costs in order to verify viability of this alternative source of energy. Hence, this research analysed several tools for solving Vehicle Routing Problem and it proposes an algorithm that results in cost optimization. The adapted mathematic formulation is based in an extension of classic algorithms, like those presented by Arenales (2007), and in equations developed by Kallehauge (2006). The routing model results, linked to production, tributes and input costs, have been compared with information about biodiesel commercialization, verifying its economic viability. The data consolidation obtained indicates that the biodiesel production from waste cooking oil is viable, with logistic costs equal to R/tmp/aaaPLIh7a,19 per liter and final cost equal to R,22 per liter.
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Zhang, Yi. "Design and economic assessment of biodiesel production from waste cooking oil." Thesis, University of Ottawa (Canada), 2002. http://hdl.handle.net/10393/6138.

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Biodiesel is a recommended petroleum-based diesel substitute mainly because it is environmentally friendly and is a renewable, domestic resource. However, compared to petroleum-based diesel, biodiesel has a higher cost, which is the major obstacle to its commercialization. In this thesis, four different continuous alkali- and acid-catalyzed processes to produce biodiesel from virgin vegetable oil and waste cooking oil were designed and simulated. Process flowsheets, along with detailed operating conditions and equipment designs for each process were created. Technical assessment of these processes showed that the alkali-catalyzed process using virgin oil required the least amount of process equipment and no significant requirement for special materials of construction but had the highest raw material cost. The acid-catalyzed process using waste cooking oil proved to be technically feasible with a significantly lower raw material cost but required forty percent of the process equipment to be constructed from stainless steel. An economic assessment was also performed based on the results of process simulations. The alkali-catalyzed process using virgin vegetable oil was found to have the lowest fixed capital cost. However, in terms of total manufacturing cost, aftertax rate of return and break-even price of biodiesel, the acid-catalyzed process using waste cooking oil had the lowest operating cost, the best aftertax rate of return (i.e., 10%) and the lowest break-even price (i.e., $590/tonne). In summary, the acid-catalyzed process to produce biodiesel from waste cooking oil is technically feasible and economically attractive. Results from the sensitivity analyses of the various processes indicated that plant capacity, the price of feedstock oil and biodiesel price were the factors that most significantly affected the economic feasibility of biodiesel production.
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Chan, Yip-wai Edward, and 陳業偉. "A preliminary study on cooking oil waste management in Hong Kong." Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 1998. http://hub.hku.hk/bib/B31253969.

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Chan, Yip-wai Edward. "A preliminary study on cooking oil waste management in Hong Kong /." Hong Kong : University of Hong Kong, 1998. http://sunzi.lib.hku.hk/hkuto/record.jsp?B2012613X.

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Aslam, Mazhar. "Effect of the bioreactor configuration in the anaerobic digestion of a waste cooking oil." Master's thesis, Alma Mater Studiorum - Università di Bologna, 2019.

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The world is moving toward the renewable energy resources. Biogas is a renewable energy resource with high energy value and low CO2 emissions. Biogas is a gas mixture, mainly consisting of methane and carbon dioxide, resulting from the biological process of anaerobic digestion of various organic material. Vegetable oils contain lipids which are excellent substrate for anaerobic digestion as they produce high amount of biogas compared to other substrates like proteins. But one of the major problems attached with the lipids is that they are insoluble in water and form biphasic solution making it difficult for the microorganisms, present in aqueous phase, to contact with them to digest. The theme of the project is to develop better mixing strategies for the digestion of oils/lipids. One way is to use the conventional CSTR configuration and the other, gas-lift, is based on the working principle of airlift reactor. The aim is to compare the performance and efficiencies of both the reactors for anaerobic digestion of oils under same working conditions.
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Bessa, Aline Mara Maia. "Biodiesel production from waste cooking oil using ionic liquid choline hydroxide as a catalyst." Universidade Federal do CearÃ, 2015. http://www.teses.ufc.br/tde_busca/arquivo.php?codArquivo=14298.

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CoordenaÃÃo de AperfeÃoamento de Pessoal de NÃvel Superior<br>The production of biodiesel is generally performed by alkaline transesterification oils with low amounts of free fatty acids (FFAs). In order to decrease the costs of production of biodiesel, low quality waste cooking oils or grease have been investigated as a source alternative, but problems in the purification step due to the formation of soap are found in catalysis with sodium hydroxide. In this work, the ionic liquid choline hydroxide was produced and used as catalyst in the production of biodiesel from oils of frying food. An experimental design was carried out to investigate the influence of variables: molar ratio oil/alcohol, temperature and concentration of catalyst in the conversion of triglycerides and free fatty acids to methyl esters. The concentration of catalyst showed higher influence on conversion, followed by the molar ratio of oil / alcohol. The temperature range did not result in significant conversion changes. The kinetic analysis showed that the highest conversions were obtained with 3 hours of reaction. The statistical design allowed find optimal conditions: 5.5% w/w catalyst molar ratio of oil/methanol 1:12, temperature 40 ÂC and 3 hours of reaction. Thermodynamic properties and acid numbers were determined for reaction products of the reactions carried out in experimental design, in order to provide data for process control. The acid numbers of products of all reactions were significantly reduced, independent of conversion. To evaluate the possibility of recovery and reuse of the ionic liquid, the liquid-liquid equilibrium of systems containing water, 1-butanol and glycerin, water, 1-butanol and choline hydroxide, and the partition in the ionic liquid system water, 1-butanol and glycerin at 30  C were studied. The solubility of the components was evaluated by construction of the binodal curve and the compositions of the equilibrium phases were determined by densitometry. The results show that glycerin is distributed preferably in the phase rich in water and it was not possible to quantify all compositions the water phase system, 1-butanol and choline hydroxide in the case that an electrolytic system.<br>A produÃÃo de biodiesel à geralmente realizada por transesterificaÃÃo alcalina de Ãleos com baixa quantidade de Ãcidos graxos livres (AGLs). Visando diminuir os custos de produÃÃo do biodiesel, Ãleos de baixa qualidade ou residuais tÃm sido investigados como alternativa de fonte graxa, porÃm problemas na etapa de purificaÃÃo em decorrÃncia da formaÃÃo de sabÃes sÃo encontrados na catÃlise com hidrÃxido de sÃdio. Nesse trabalho, o lÃquido iÃnico hidrÃxido de colina foi produzido e aplicado como catalisador na produÃÃo de biodiesel a partir de Ãleos provenientes da fritura de alimentos. Um planejamento experimental foi realizado para investigar a influÃncia das variÃveis: razÃo molar Ãleo/Ãlcool, temperatura e concentraÃÃo de catalisador na conversÃo de triglicerÃdeos e AGLs a Ãsteres metÃlicos. A concentraÃÃo de catalisador apresentou maior influÃncia na conversÃo, seguido pela razÃo molar Ãleo/Ãlcool. A variaÃÃo de temperatura nÃo implicou em alteraÃÃes considerÃveis de conversÃo. A avaliaÃÃo cinÃtica mostrou que as maiores conversÃes foram obtidas com 3 horas de reaÃÃo. O planejamento estatÃstico permitiu encontrar condiÃÃes Ãtimas: 5,5 % m/m de catalisador, razÃo molar Ãleo/metanol de 1/12, temperatura de 40 ÂC e 3 horas de reaÃÃo. Propriedades termodinÃmicas e Ãndices de acidez foram determinados para os produtos reacionais das reaÃÃes realizadas no planejamento experimental, com o intuito de fornecer dados para o controle do processo. Os Ãndices de acidez dos produtos de todas as reaÃÃes apresentaram reduÃÃo significativa, independente da conversÃo. Para avaliar a possibilidade de recuperaÃÃo e reutilizaÃÃo do lÃquido iÃnico, o equilÃbrio lÃquido-lÃquido dos sistemas contendo Ãgua, n-butanol e glicerina, Ãgua, n-butanol e hidrÃxido de colina e a partiÃÃo do lÃquido iÃnico no sistema Ãgua, n-butanol e glicerina a 30 ÂC foram estudados. A solubilidade dos componentes foi avaliada por meio da construÃÃo da curva binodal e as composiÃÃes das fases em equilÃbrio foram determinadas atravÃs da densimetria. Os resultados mostram que a glicerina se distribui preferencialmente na fase rica em Ãgua e que nÃo foi possÃvel quantificar todas as composiÃÃes das fases do sistema Ãgua, n-butanol e hidrÃxido de colina por se tratar este de um sistema eletrolÃtico.
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Sinuka, Yonwaba. "Performance testing of a diesel engine running on varying blends of jatropha oil, waste cooking oil and diesel fuel." Thesis, Cape Peninsula University of Technology, 2016. http://hdl.handle.net/20.500.11838/2436.

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Thesis (MTech (Mechanical Engineering))--Cape Peninsula University of Technology, 2016.<br>The high cost of fossil fuels and the fact that the world has arguably reached its peak oil production, has driven the need to seek alternative fuel sources. The main objective of the current study is to determine the performance of a laboratory-mounted diesel engine when fuelled with varying laboratory prepared biofuel and biodiesel and whether the advancement of the injection timing parameters will improve the engine power output and improve the smoke effect of these different fuel blends. The laboratory prepared biofuels used in this project range from 100% bio-fuel (BF100) to 50%, 30% and 10% biodiesel blends (BF50, BF30 and BF10, respectively). It should be noted that these blends are not commercially available, since they were blended in the laboratory specifically for these tests. The overall results of the study show that there is a distinct opportunity for using certain bio-fuel blends in specific applications as the power outputs are no more than one quarter less than that of base diesel. Concomitantly, the smoke opacity in all of the blends is lower than that of base diesel, which is a significant benefit in terms of their overall air emissions.
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Crawford, Morgan H. "Feasibility and Emissions of Compression Ignition Engines Fueled with Waste Vegetable Oil." [Tampa, Fla.] : University of South Florida, 2003. http://purl.fcla.edu/fcla/etd/SFE0000193.

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Dang, Yu. "Value-added Conversion of Waste Cooking Oil, Post-consumer PET Bottles and Soybean Meal into Biodiesel and Polyurethane Products." The Ohio State University, 2016. http://rave.ohiolink.edu/etdc/view?acc_num=osu1468591615.

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Mazubert, Alex. "Selection, development and design of a continuous and intensified reactor technology to transform waste cooking oil in biodiesel and biosourced formulations." Phd thesis, Toulouse, INPT, 2014. http://oatao.univ-toulouse.fr/13673/1/Mazubert.pdf.

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The objective of this thesis is to propose a continuous and intensified reactor to transform waste cooking oil into products that will be used in applications in the building and public works sector. This work is part of the FUI AGRIBTP, a collaborative research project whose finality is to the creation of an industrial tool for the reuse of co-products from agroindustries. The reactor must be able to handle transesterification and esterification (with methanol or with glycerol) reactions efficiently with a total flow rate of 100 kg/h. To achieve this objective, a literature review has identified a list of suitable reactor technologies for these reactions. The comparative analysis of these different technologies has led to the selection of three types of intensified reactors microstructured reactors (Corning® type), microwave reactors and oscillatory baffled reactors (NiTech® type). The performance of these reactors for transesterification and esterification reactions has then been investigated experimentally. High conversions have been obtained for transesterification and esterification with methanol reactions, thereby showing the improved performance of these intensified reactors compared with conventional reactors; however results obtained with esterification with glycerol reaction are still rather low due to limitations in operating temperature. Concerning the microwave reactor, the excellent results previously reported in the literature should be taken with care because of the inaccuracy of temperature measurements, as proven in this work. The oscillatory baffled reactor technology has been selected has the most industrially viable equipment for the considered reactions. The flexibility of this reactor, the independency of the flow rate and mixing, as well as the diameter ,which is large enough to avoid fouling caused by the quality of the feed line, are the main reasons for this choice. The commercial available system, built in glass, has nevertheless shown limitations in terms of operating temperature and pressure. As a result, further work has focused on reactor operation in a wider range of operating conditions. To do this, a collaboration with the TNO laboratory in Delft, Netherlands, was set up in order to investigate reaction performance an oscillatory baffled reactor made of stainless steel. The reaction performance obtained for esterification with glycerol is more than satisfactory, being significantly greater that that obtained in the glass Nitech reactor and even of higher quality compared to that obtained with a oscillatory helicoidal tubular reactor. In parallel to these studies, CFD simulations of flow in the reactor have enable the investigation of new baffle designs, which play a major role in the capacity to generation liquid-liquid dispersions of the immiscible reactants and in the quality of the mixing. These simulations have been compared with velocity measurements and flow patterns obtained in a transparent experimental rig using Particle Image Velocimetry. Finally, the results obtained on the pilot-scale rigs have been used to size a the oscillatory flow reactor for a total flow rate of 100 kg/h, which would be dedicated to the selective production of monoglycerides by esterification with glycerol reaction and also biodiesel production by transesterification reaction.
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Books on the topic "Reclaimed waste cooking oil"

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Recycled Cooking Oil: Processing and Uses. Nova Science Publishers, Incorporated, 2018.

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Biodiesel Prepared By Trans-esterification Technique from Waste Cooking Oil (Yam Frying Oil). ASDF International, 2017.

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Britain, Great. Biodiesel Duty (Biodiesel Produced from Waste Cooking Oil) (Relief) Regulations 2010. Stationery Office, The, 2010.

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Rice, Bernard. Bio-diesel production from camelina oil, waste cooking oil and tallow : [end of project report: Project 4355]. Teagasc, 1998.

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Book chapters on the topic "Reclaimed waste cooking oil"

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Avagyan, Armen B., and Bhaskar Singh. "Biodiesel from Plant Oil and Waste Cooking Oil." In Biodiesel: Feedstocks, Technologies, Economics and Barriers. Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-13-5746-6_2.

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Vasistha, Vishal, Suraj Bhan, K. Rajagopal, and C. Obula Reddy. "Production of Biodiesel from Waste Cooking Oil." In From Waste to Wealth. Springer Nature Singapore, 2024. http://dx.doi.org/10.1007/978-981-99-7552-5_16.

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Alotaibi, J. G., and B. F. Yousif. "Biolubricants and the Potential of Waste Cooking Oil." In Materials Forming, Machining and Tribology. Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-24007-7_5.

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Nambiar, Amrutha, Jobelyn Licardo, Apurv Yadav, and Hardeep Kumar. "Preparation of Biofuel from Kitchen Waste Cooking Oil." In Lecture Notes in Mechanical Engineering. Springer Nature Singapore, 2024. http://dx.doi.org/10.1007/978-981-97-2481-9_55.

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Babel, S., S. Arayawate, E. Faedsura, and H. Sudrajat. "Microwave-Assisted Transesterification of Waste Cooking Oil for Biodiesel Production." In Utilization and Management of Bioresources. Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-5349-8_16.

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Pandit, Shally, Anand Prakash, and Arindam Kuila. "Bio-Aviation Fuel via Catalytic Hydrocracking of Waste Cooking Oil." In Clean Energy Production Technologies. Springer Nature Singapore, 2024. http://dx.doi.org/10.1007/978-981-99-8783-2_7.

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Nogales Delgado, Sergio, Carmen María Álvez Medina, and Juan Félix González González. "Main Raw Materials and the Role of Waste Cooking Oil." In SpringerBriefs in Applied Sciences and Technology. Springer Nature Switzerland, 2024. http://dx.doi.org/10.1007/978-3-031-65644-6_3.

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Gada, P., S. K. Dusi, and I. Abrar. "Enhanced Biodiesel Production from Waste Cooking Oil Using ZnO Nanocatalyst." In Springer Proceedings in Materials. Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-99-4685-3_7.

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Madusanka, D. A. T., and M. M. Pathmalal. "Potential of Waste Cooking Oil for Emphasizing Biodiesel: Put Waste to Green Energy." In Clean Energy Production Technologies. Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-19-3784-2_7.

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Pires, Ana, Graça Martinho, Susana Rodrigues, and Maria Isabel Gomes. "Collection of Used or Unrecoverable Products: The Case of Used Cooking Oil." In Sustainable Solid Waste Collection and Management. Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-93200-2_15.

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Conference papers on the topic "Reclaimed waste cooking oil"

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Mirda, Irfan, Riyanarto Sarno, Kelly Rossa Sungkono, et al. "Classification-Based Authentication between Fresh Cooking Oil and Bleached Waste Cooking Oil Using an Electronic Nose." In 2024 Beyond Technology Summit on Informatics International Conference (BTS-I2C). IEEE, 2024. https://doi.org/10.1109/bts-i2c63534.2024.10941862.

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Nugroho, Ardyantama Cahyo, Rury Eka Septiani, and Teguh Prasandy. "Detection of Waste Cooking Oil Quality Using Fuzzy Logic." In 2024 9th International Conference on Business and Industrial Research (ICBIR). IEEE, 2024. https://doi.org/10.1109/icbir61386.2024.10875928.

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Mahmud, Saad Uddin, Md Mahmodul Alam, Fatema Tuz Johora, and Tazry Khan Shailo. "Dual Feedstock Biodiesel Production: Using Sesame Seed Oil and Waste Cooking Oil with KOH Catalysis." In 2024 International Conference on Innovations in Science, Engineering and Technology (ICISET). IEEE, 2024. https://doi.org/10.1109/iciset62123.2024.10939365.

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Vootla, Padmaja, Maha Majed Ajlan Mohamed Almansoori, Ayesha Ali Abdullah Othman Alhammadi, Sara Mahmoud Ali Alhousani, and Fatema Malalla Saif Hasan Alhammadi. "Valorization of Waste Cooking Oil." In 2019 Advances in Science and Engineering Technology International Conferences (ASET). IEEE, 2019. http://dx.doi.org/10.1109/icaset.2019.8714524.

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Lakshmi S., Vedha, A. M. Aparna, and R. Baskaran. "Production of Biodiesel from Waste Cooking Oil." In 2019 Fifth International Conference on Science Technology Engineering and Mathematics (ICONSTEM). IEEE, 2019. http://dx.doi.org/10.1109/iconstem.2019.8918857.

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Wang, Fuyu, Yuan Fang, Zhao Chen, and Haibin Wei. "Effect of waste engine oil on asphalt reclaimed properties." In INTERNATIONAL CONFERENCE ON CIVIL, MECHANICAL AND MATERIAL ENGINEERING: ICCMME 2018. Author(s), 2018. http://dx.doi.org/10.1063/1.5041396.

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Motasemi, Farough, and Farid Nasir Ani. "Microwave irradiation biodiesel processing of waste cooking oil." In THE 4TH INTERNATIONAL MEETING OF ADVANCES IN THERMOFLUIDS (IMAT 2011). AIP, 2012. http://dx.doi.org/10.1063/1.4704295.

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Leung, D. Y. C., and G. Y. Chen. "BIODIESEL PRODUCTION USING WASTE COOKING OIL FROM RESTAURANT." In Proceedings of Symposium on Energy Engineering in the 21st Century (SEE2000) Volume I-IV. Begellhouse, 2023. http://dx.doi.org/10.1615/see2000.2000.

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Cho, Haeng Muk, S. Maji, and B. D. Pathak. "Waste Cooking Oil as Fuel in Diesel Engines." In Fifth International SAE India Mobility Conference on Emerging Automotive Technologies Global and Indian Perspective. SAE International, 2008. http://dx.doi.org/10.4271/2008-28-0013.

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Al-Mawaali, Sahar, Khadija Al-Balushi, and Yasmine Souissi. "Sustainable Biodiesel Production from Waste Cooking Oil and Waste Animal Fats." In The 8th World Congress on Civil, Structural, and Environmental Engineering. Avestia Publishing, 2023. http://dx.doi.org/10.11159/iceptp23.145.

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Reports on the topic "Reclaimed waste cooking oil"

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Abdul Rahim, Nor Azura, Noor Syazril Jafri, and Muna'amirah Mohamad. DEVELOPMENT OF OIL ABSORBENT MAT FROM WASTE NBR GLOVES. Penerbit Universiti Malaysia Perlis, 2023. http://dx.doi.org/10.58915/techrpt2023.003.

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Waste NBR rubber gloves have become an environmental burden because the chemically cross-linked NBR gloves can’t be recycled. In this particular research, an initiative was made to turn the NBR waste glove into an oil absorbent mat by using the amount of chemical cross-linking inside the NBR waste glove triggered by solvents and with the help of epoxy resin as a binding agent. The absorption test used two types of oil: cooking oil and engine oil. To justify the relationship between the developed oil absorbent mat and its absorption behaviour, various tests, namely the Fourier transform infrared radiation (FTIR), scanning electron microscopy (SEM), and absorbency test, were conducted. Epoxy resin was used as a binding agent in the production of oil-absorbing mats made from waste NBR gloves. The NBR gloves mixed with binding agents of epoxy resin mats have proven to be an effective medium for oil absorbance purposes.
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Muñoz Chávez, Anyi Milena, Lina Marcela Cárdenas Cleves, Luis Fernando Marmolejo Rebellón, Dagoberto Angulo, Norberto Estrada, and Jaiber Amaya. Community-based Management of Used Cooking Oil for its Sistainable Use and Valorisation. Universidad del Valle, 2024. http://dx.doi.org/10.25100/policy-briefs.pb.12-eng.

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Used Cooking Oil (UCO) is a waste product from food preparation whose physicochemical characteristics change during the cooking process, making it unfit for human consumption; additionally, its inadequate management affects water resources, soil, fauna and public health. Its management is usually regulated for generators that carry out industrial, commercial and service activities, including basic duties for the residential sector, oriented towards its collection and delivery to storage sites, not usually accessible to all households. This Policy Brief proposes the incorporation of individual and collective community management of UCO as an opportunity to ensure the proper handling of this waste at the place of generation and proposes a series of recommendations to foster this practice. This approach reduces the costs of UCO management, avoids the disposal of this type of waste in the surrounding areas and increases the possibility of achieving its transformation into a new product with added value for the communities where it is generated.
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