Journal of Environmental Protection

Volume 3, Issue 1 (January 2012)

ISSN Print: 2152-2197   ISSN Online: 2152-2219

Google-based Impact Factor: 1.15  Citations  h5-index & Ranking

Biodiesel Production from Waste Cooking Oil Using Sulfuric Acid and Microwave Irradiation Processes

HTML  Download Download as PDF (Size: 318KB)  PP. 107-113  
DOI: 10.4236/jep.2012.31013    23,691 Downloads   51,264 Views  Citations

Affiliation(s)

.

ABSTRACT

A comparative study of biodiesel production from waste cooking oil using sulfuric acid (Two-step) and microwave-assisted transesterification (One-step) was carried out. A two-step transesterification process was used to produce biodiesel (alkyl ester) from high free fatty acid (FFA) waste cooking oil. Microwave-assisted catalytic transesterification using BaO and KOH was evaluated for the efficacy of microwave irradiation in biodiesel production from waste cooking oil. On the basis of energy consumptions for waste cooking oil (WCO) transesterification by both conventional heating and microwave-heating methods evaluated in this study, it was estimated that the microwave-heating method consumes less than 10% of the energy to achieve the same yield as the conventional heating method for given experimental conditions. The thermal stability of waste cooking oil and biodiesel was assessed by thermogravimetric analysis (TGA). The analysis of different oil properties, fuel properties and process parametric evaluative studies of waste cooking oil are presented in detail. The fuel properties of biodiesel produced were compared with American Society for Testing and Materials (ASTM) standards for biodiesel and regular diesel.

Share and Cite:

P. Patil, V. Gude, H. Reddy, T. Muppaneni and S. Deng, "Biodiesel Production from Waste Cooking Oil Using Sulfuric Acid and Microwave Irradiation Processes," Journal of Environmental Protection, Vol. 3 No. 1, 2012, pp. 107-113. doi: 10.4236/jep.2012.31013.

Cited by

[1] Emerging technologies for biodiesel production: Processes, challenges, and opportunities
Biomass and …, 2022
[2] Biodiesel from high‐acid‐value grease trap waste: process optimization and purification using bio‐based adsorbent
Biofuels, Bioproducts …, 2022
[3] Application of Thermogravimetric Analysis Method for the Characterisation of Products From Triglycerides During Biodiesel Production
Journal of Analytical and Applied …, 2022
[4] Optimization of microwave-assisted biodiesel production from waste catfish using response surface methodology
Energy Reports, 2022
[5] Synthesis of branched surfactant via ethoxylation of oleic acid derivative and its surface properties
Chemical Engineering Science, 2022
[6] Biodiesel from waste oil under mild conditions by a combination of calcium‐strontium oxide nanocatalyst and ultrasonic waves
International Journal of Energy …, 2022
[7] Effect of Waste Vegetable Oil on Properties of Asphalt Cement and Asphalt Concrete Mixtures: An Overview
International Journal of Pavement Research and …, 2022
[8] Novel FTIR and visible infrared imaging assessment of binary biofuel stability and abated NOx for clean environment assisting energy approach
Energy & Environment, 2022
[9] A Review of the Emission, Performance, Combustion, and Optimization Parameters in the Production of Biodiesel from Waste Cooking Oil
Automotive Experiences, 2022
[10] Green Technologies in Valorization of Waste Cooking Oil to Biodiesel
Biodiesel Production: Feedstocks …, 2022
[11] Production of biodiesel from waste oil using a catalyst synthesized from waste clam shell
Ife Journal of Science, 2022
[12] Energy Reports
2022
[13] Biodiesel Synthesis Via Transesterification Reaction Using Chemically-Based Heterogenous Catalysts Under Microwave Irradiation
2022
[14] The Influence of NaCl dissolved on biodiesel of used cooking oil on performance and its degradation of main components of diesel engine
IOP Conference Series: Earth and …, 2022
[15] Green valorization of waste date seed oil for biodiesel production
2022
[16] Evaluación de estrategias de gestión de aceites de cocina usados. Caso de estudio Puyo, Amazonia Ecuatoriana
Guerrero, DA Robalino-Zambrano… - Revista …, 2022
[17] Empirical Modeling of Kinetics of Transesterification and Cold Flow Properties of Used Soya Oil Biodiesel
International Journal of Innovative Research in …, 2021
[18] Two Step Homogeneous Catalized Metanolysis of Rubber Seed Oil To Biodiesel
International Journal of Innovative Research in …, 2021
[19] Optimized biodiesel production by using ultrasound assisted transesterification/Omar Saifuddin Aasimudin
2021
[20] AJ Csian OURNALOF HEMISTRY AJ Csian OURNALOF HEMISTRY
Asian Journal of …, 2021
[21] Nano (Bio) Catalysts: An Effective Tool to Utilize Waste Cooking Oil for the Biodiesel Production
Nano‐and Biocatalysts for …, 2021
[22] Microwave and Ultrasound Irradiations for the Intensification on Biodiesel Productions: a Mini Review
EKSAKTA: Journal of Sciences …, 2021
[23] Investigation on seed oil chemistry of Bauhinia racemosa for the production of liquid biofuel
Energy Sources, Part A …, 2021
[24] ВЛИЯНИЕ ПОВЕРХНОСТНО-АКТИВНЫХ ВЕЩЕСТВ ACINETOBACTER CALCOACETICUS ИМВ В-7241, СИНТЕЗИРОВАННЫХ НА ОТРАБОТАННОМ …
2021
[25] Valorization of waste cooking oil (WCO) into biodiesel using acoustic and hydrodynamic cavitation
Advanced Technology for the …, 2021
[26] Trends in widely used catalysts for fatty acid methyl esters (Fame) production: A review
Catalysts, 2021
[27] A short review on catalyst, feedstock, modernised process, current state and challenges on biodiesel production
Mijan, Z Ibrahim, R Yunus… - Catalysts, 2021
[28] Dry route process and wet route process for algal biodiesel production: A review of techno-economical aspects
… Engineering Research and …, 2021
[29] Protocol for Biodiesel Production by Base-Catalyzed Transesterification Method
2021
[30] The Effect of Use Microwave Irradiation in Produce Biodiesel Nyamplung Oil (Calophyllum inophyllum Linn) Using KOH Catalyst
2021
[31] Homogeneous catalyzed transesterification of neem seed oil to biodiesel and its kinetic modeling
2021
[32] Biofuel production from waste cooking oil by catalytic reaction over Thai dolomite under atmospheric pressure: Effect of calcination temperatures
2021
[33] Computational Modeling and Multi-objective Optimization of Engine Performance with Waste Soya Oil-Based Biodiesel Using Genetic Algorithm and Utility Function
2021
[34] Stellite alloy coating on the valves of a four stroke diesel engine
2021
[35] An overview on advancements in biobased transesterification methods for biodiesel production: Oil resources, extraction, biocatalysts, and process intensification …
2021
[36] Transesterification of Waste Cooking Oil to Produce A Sustainable Rejuvenator for Aged Asphalt
2021
[37] Fuels for Automobiles: The Sustainable Future
2021
[38] Intensification and optimization of biodiesel production using microwave-assisted acid-organo catalyzed transesterification process
2020
[39] In situ transesterification of Spirulina microalgae to produce biodiesel using microwave irradiation
2020
[40] The utilization of waste cooking oil (wco) in simple stove as an alternative fuel for household scale
2020
[41] ACTION ON MICROORGANISMS OF SURFACTANTS SYNTHESIZED BY RHODOCOCCUS ERYTHROPOLIS IMV Ac-5017 ON INDUSTRIAL WASTE
2020
[42] MODERN METHODS OF BIODIESEL PRODUCTION: A REVIEW
International Journal of Engineering Applied Sciences and Technology, 2020
[43] SYNERGISM OF THE ANTIMICROBIAL ACTIVITY OF THE MIXTURE OF RHODOCOCCUS ERYTHROPOLIS IMV AС-5017 SURFACTANTS WITH OTHER …
2020
[44] Activity and stability of immobilized lipase for utilization in transesterification of waste cooking oil
2020
[45] Rhamnolipid production from waste cooking oil using newly isolated halotolerant Pseudomonas aeruginosa M4
2020
[46] Copper and calcium-based metal organic framework (MOF) catalyst for biodiesel production from waste cooking oil: A process optimization study
2020
[47] Characterization of Biodiesel from Alkaline Refinement of Waste Cooking Oil
2020
[48] PRODUCTION AND OPTIMIZATION OF BIODIESEL FROM DIFFERENT GENERATIONS
2020
[49] Application with initiative to replace common insect fuel for fogging system with biodiesel
2020
[50] A Life Cycle Assessment on Various Alternative Liquid Fuel Options in Western Australia
2020
[51] Fe3O4-PDA-Lipase as Surface Functionalized Nano Biocatalyst for the Production of Biodiesel Using Waste Cooking Oil as Feedstock: Characterization and Process …
2020
[52] Utilization of Waste Cooking Oil (WCO) in Hot Mix Asphalt (HMA)
2020
[53] Coupling effects of wasted cooking oil and antioxidant on aging of asphalt binders
2020
[54] Activity and Stability of Immobilized Lipase for Utilization in Transesterification of Waste Cooking Oil.
2020
[55] Pre-Treatment of Waste Cooking Oil using Continuous Microwave-Assisted Glycerolysis Reaction
2020
[56] Синергізм антимікробної активності суміші поверхнево-активних речовин Rhodococcus Erythropolis IMB АС-5017 з іншими біоцидними сполуками
2020
[57] डीजल इंजन में ईंधन के रूप में प्रयुक्त वनस्पति िेल की क्षमिा
Conference Paper, 2020
[58] Дія на мікроорганізми поверхнево-активних речовин, синтезованих Rhodococcus erythropolis ІМВ Ас-5017 на промислових відходах
2020
[59] Synthesis and Optimization of Biodiesel from Castor Seed Oil
World Journal of Innovative Research, 2020
[60] Microwave-assisted Production and Vacuum Distillation for Improved Cold-Flow Properties of Palm Fatty Acid Distillate (PFAD) Biodiesel
2020
[61] The relationship between reactor performance and functional microbial communities in the anaerobic digestion of tannery wastewater
2020
[62] Research Article In Situ Transesterification of Spirulina Microalgae to Produce Biodiesel Using Microwave Irradiation
2020
[63] Alkyd printing inks from waste frying oil
2020
[64] Comparative study of properties and fatty acid composition of some neat vegetable oils and waste cooking oils
2019
[65] Production, engine performance, combustion, emission characteristics and economic feasibility of biodiesel from waste cooking oil: A review
Environmental Quality Management, 2019
[66] Biodiesel from waste frying oils: Methods of production and purification
2019
[67] Biodiesel production from waste cotton-seed cooking oil using microwave-assisted transesterification: Optimization and kinetic modeling
2019
[68] Evaluación de la producción de biosurfactante a nivel reactor y su potencial efecto sobre aceite pesado
2019
[69] Use of waste canola oil as a low-cost substrate for rhamnolipid production using Pseudomonas aeruginosa
2019
[70] Experimental investigation on direct injection diesel engine fuelled with addition of titanium dioxide nanoparticle to M. elangi biodiesel for varying injection pressures
2019
[71] Scalable Biodiesel Reactor Build and Trial
2019
[72] Rutting resistance of untreated and treated waste cooking oil in bitumen after aging condition
2019
[73] Biodiesel Production Through Waste Cooking Oil (WCO) Esterification Using Sulfated Alumina as Catalyst
2019
[74] Optimization of process variables on two-step microwave-assisted transesterification of waste cooking oil
2019
[75] Wet corrosion behavior of copper exposed to recycled groundnut oil as biofuel
2019
[76] Production of novel rhamnolipids via biodegradation of waste cooking oil using Pseudomonas aeruginosa MTCC7815
2019
[77] Characterization of crumb tire rubber lightly pyrolyzed in waste cooking oil and the properties of its modified bitumen
Construction and Building Materials, 2019
[78] Microwave mediated production of FAME from waste cooking oil: Modelling and optimization of process parameters by RSM and ANN approach
Fuel, 2019
[79] Conductive and enzyme-like silk fibers for soft sensing application
2019
[80] High operative heterogeneous catalyst in biodiesel production from waste cooking oil
2019
[81] Production of Bio-fuels From Waste Cooking Oil: A review
2019
[82] X-Ray Diffraction Analysis of Bitumen Containing Untreated and Treated Waste Cooking Oil
International Journal of Recent Technology and Engineering, 2019
[83] Management strategies for used cooking oils. Case study Barrio Obrero, Puyo, Ecuador
2019
[84] ESTERIFICATION OF PALM FATTY ACID DISTILLATE USING SULFATE BASED CATALYSTS
2019
[85] Синтез мікробного полісахариду етаполану на олієвмісних промислових відходах
2019
[86] Lipase in biodiesel production.
2018
[87] Lipase in biodiesel production
2018
[88] Biodiesel Preparation From Waste Cooking Oil
2018
[89] БИОЛОГИЧЕСКАЯ АКТИВНОСТЬ ПОВЕРХНОСТНО-АКТИВНЫХ ВЕЩЕСТВ АCINETOBACTER CALCOACETICUS ИМВ В-7241, ПОЛУЧЕННЫХ НА ОТРАБОТАННОМ МАСЛЕ
О?Т?СТ?К ?АЗА?СТАН МЕДИЦИНА АКАДЕМИЯСЫ, ХАБАРШЫ, 2018
[90] Estudio y preparación de catalizadores ácidos y básicos heterogéneos para la producción de biodiesel
2018
[91] ACID-CATALYSED ESTERIFICATION ENHANCED BIODIESEL YIELD FROM USED COOKING OIL
2018
[92] Ultrasonic assisted Enzymatic Transesterification for Biodiesel Production
2018
[93] Investigation of Alternative Fuels Using Experimental and Computational Chemistry
Nature and Science, 2018
[94] Biowaste-to-bioenergy using biological methods–A mini-review
Energy Conversion and Management, 2018
[95] Biodiesel Production from Waste Cooking Oil
2018
[96] U ltrasonication‐assisted transesterification for biodiesel production by using heterogeneous ZnO nanocatalyst
Environmental Progress & Sustainable Energy, 2018
[97] Purification of biodiesel via pre-washing of transesterified waste oil to produce less contaminated wastewater
Journal of Cleaner Production, 2018
[98] PEMBUATAN BIODIESEL DARI MINYAK GORENG BEKAS PROSES KONTINYU: UJI KUALITAS
2018
[99] АНТИАДГЕЗИВНА ДІЯ ПОВЕРХНЕВО-АКТИВНИХ РЕЧОВИН АCINETOBACTER CALCOACETICUS ІМВ В-7241, СИНТЕЗОВАНИХ НА ВІДПРАЦЬОВАНІЙ ОЛІЇ
2018
[100] Solar energy as a process intensification tool for the biodiesel production from hempseed oil
Energy Conversion and Management, 2018
[101] Application of statistical approaches to optimize the productivity of biodiesel and investigate the physicochemical properties of the bio/petro-diesel blends
High-Performance Materials and Engineered Chemistry, 2018
[102] 1.22 Biofuels
2018
[103] PROCESS INTENSIFICATION AND PARAMETRIC OPTIMIZATION IN BIODIESEL SYNTHESIS USING MICROWAVE REACTORS
2018
[104] Single Phase Blend: An Advanced Microwave Process for Improved Quality Low-cost Biodiesel Production from Kitchen Food Waste
Biochemical Engineering Journal, 2018
[105] Lipase catalysed biodiesel synthesis with integrated glycerol separation in continuously operated microchips connected in series
New Biotechnology, 2018
[106] Progressive Development of Various Production and Refining Process Of Biodiesel
i-Manager's Journal on Mechanical Engineering, 2018
[107] Methyl Linoleate and Methyl Oleate Bond Dissociation Energies: Electronic Structure Fishing for Wise Crack Products
Energy & Fuels, 2018
[108] Desenvolvimento e validação de método para quantificação e caracterização do perfil de ácidos graxos extraídos de leveduras oleaginosas com potencial para …
2018
[109] Microwave Assisted Glycerolysis Of Neem Oil
2018
[110] การ พัฒนา เครื่อง ผลิต ไบ โอ ดีเซล จาก น้ำ มัน พืช ที่ ใช้ แล้ว โดย ใช้ ใบ กวน แบบ 45⁰ two-blade Paddle ร่วม กับ 6-blade disc turbine
2018
[111] Current scenario and potential of biodiesel production from waste cooking oil in Pakistan: An overview
2018
[112] The Physio-chemical Analysis of waste cooking oil and butanol blends with diesel
2018
[113] WASTE VEGETABLE OILS (WVO) AS COMPRESSION IGNITION ENGINE FUEL: A REVIEW
2018
[114] Application of Microwave Energy for Biodiesel Production using Waste Cooking Oil
2018
[115] Production of epoxy compounds from unsaturated fatty acids derived from crystallization of used cooking oil
2018
[116] BINDER CHARACTERIZATION AND PERFORMANCE OF ASPHALTIC CONCRETE MODIFIED WITH WASTE COOKING OIL
2018
[117] Impact of Mixing on Biodiesel Production from Canola Oil
2018
[118] Leveraging Student Interest in Environmental Topics for Undergraduate Research in an Interdisciplinary Environmental Research Cluster
2018
[119] Efek Penggunaan Iradiasi Microwave Dalam Pembuatan Biodiesel Minyak Nyamplung (Calophyllum Inophyllum Linn)
2017
[120] Microwave Hybridization for Advanced Biorefinery
2017
[121] PERFORMANCE AND EMISSION CHARACTERISTICS OF BIO-DIESEL POWERED DIESEL ENGINE
2017
[122] “Experimental studies on Performance Characteristics in Diesel Engine Using Different Blends of WCO Biodiesel”: a review
International Journal of Engineering Research and Technology, 2017
[123] Diseño y construcción de una planta de producción de Biodiesel a partir de aceite vegetal reciclado
2017
[124] Transesterification of Waste Cooking Oil Using Heterogeneous Catalyst
2017
[125] Characterization of Biodiesel Produced from Waste Cooking Oil Obtained from Food Vendors within Awka Metropolis
Frontiers in Science, 2017
[126] Ultrasonication‐assisted Transesterification for Biodiesel Production by Using Heterogeneous ZnO Nanocatalyst
Environmental Progress & Sustainable Energy, 2017
[127] Use of Waste Frying Oil as CI Engine Fuel—A Review
2017
[128] Method for Quantification of Methanol and Sulfuric Acid Required for Esterification of High Free Fatty Acid Oils in Biodiesel Production
2017
[129] Ab Initio Methyl Linoleate Bond Dissociation Energies: First Principles Fishing for Wise Crack Products
2017
[130] Investigations on Performance of Ci Engine Using Biodiesel Derived from Sunn Hemp Oil
2017
[131] ВЛИЯНИЕ ПОВЕРХНОСТНО-АКТИВНЫХ ВЕЩЕСТВ ACINETOBACTER CALCOACETICUS ИМВ В-7241, СИНТЕЗИРОВАННЫХ НА ОТРАБОТАННОМ ПОДСОЛНЕЧНОМ МАСЛЕ, НА НЕКОТОРЫЕ МИКРООРГАНИЗМЫ
2017
[132] Performance Analysis of Biodiesel Derived from Waste Cooking Oil on Four Stroke CI Engine
International Journal of Engineering and Technical Research, 2017
[133] A review on the prospects of sustainable biodiesel production: A global scenario with an emphasis on waste-oil biodiesel utilization
Renewable and Sustainable Energy Reviews, 2017
[134] Intensified synthesis of medium chain triglycerides using novel approaches based on ultrasonic and microwave irradiations
Chemical Engineering Journal, 2017
[135] REVIEW ON PRODUCTION OF BIODIESEL FROM TRANSESTERIFICATION
2017
[136] Thermal characteristics analysis of microwaves reactor for pyrolysis of used cooking oil
AIP Conference Proceedings, 2017
[137] Reduction of persistent organic pollutant emissions during incinerator start-up by using crude waste cooking oil as an alternative fuel
2017
[138] A Review of Microwave-Assisted Reactions for Biodiesel Production
Bioengineering, 2017
[139] Exploring the potential of lipids from black soldier fly: New paradigm for biodiesel production (I)
Renewable Energy, 2017
[140] Production of Biodiesel using waste temple oil from Shani Shingnapur temple (Dist. Ahmednagar), Maharashtra, India using chemical and biological methods
2017
[141] Production of Biodiesel from used Cooking Oil
2017
[142] Potential of used frying oil in paving material: solution to environmental pollution problem
Environmental Science and Pollution Research, 2017
[143] Nano-structured graphene catalysts, catalyst supports and coatings: synthesis and investigation
2017
[144] PRODUCTION OF BIOFUEL FROM VARIOUS FEEDSTOCKS
INTERNATIONAL JOURNAL FOR RESEARCH & DEVELOPMENT IN TECHNOLOGY, 2017
[145] Mixed oxides tuned with alkaline metals to improve glycerolysis for sustainable biodiesel production
2017
[146] SINTESIS SrO/ZEOLIT DAN APLIKASINYA PADA REAKSI TRANSESTERIFIKASI MINYAK GORENG BEKAS MENJADI BIODIESEL
2017
[147] Microwave-mediated biofuel production
2017
[148] Production of Biodiesel using waste temple oil from Shani Shingnapur temple (Dist. Ahmednagar), Maharashtra, India using chemical and biological …
International Journal …, 2017
[149] Investigation of Jatropha Biodiesel Production on Experimental Scale
University of Engineering and Technology Taxila. Technical Journal, 2016
[150] Ocena paliw ciekłych wytwarzanych laboratoryjnie z substratów olejowych
Proceedings of ECOpole, 2016
[151] Biodiesel Production from Waste Frying Oil and Its Process Simulation
2016
[152] Lipase-Catalyzed Production of Biodiesel by Hydrolysis of Waste Cooking Oil Followed by Esterification of Free Fatty Acids
Journal of the American Oil Chemists' Society, 2016
[153] Transesterification of Animal Fat to Biodiesel Over Calcined Solid Sodium Silicate Catalyst
2016
[154] Chemical modification of waste cooking oil to improve the physical and rheological properties of asphalt binder
Construction and Building Materials, 2016
[155] State of the art and prospective of lipase-catalyzed transesterification reaction for biodiesel production
Energy Conversion and Management, 2016
[156] Synthesis of New Hydrocarbon Biodiesel (HiBD) from Waste Cooking Oil over MgO-Based Catalyst
2016
[157] PRODUCTION AND CHARACTERIZATION OF BIODIESEL FROM THE SEED OF DACRYODES EDULIS
International Journal of Current Research , 2016
[158] Effect of Addition of CaO and ZrO2 on the Performance of MgO/AC Catalyst for the Synthesis of New Bio-Diesel (HiBD) from Waste Cooking Oil
2016
[159] Experimental investigation of four stroke single cylinder rope brake dynamometer assisted CI engine fueled with biodiesel from waste cooking oil
International Research Journal of Power and Energy Engineering, 2016
[160] Low acid value bio-gasoline and bio-diesel made from waste cooking oils using a fast pyrolysis process
Journal of the Taiwan Institute of Chemical Engineers, 2016
[161] Dielectric Behavior of Reaction Mixture during Acid-Catalyzed Transesterification Reactions in Biodiesel Production
Energy & Fuels, 2016
[162] A critical review on production of biodiesel from various feedstocks
Journal of Scientific and Innovative Research, 2016
[163] Measurement of Physicochemical Properties during Microwave-Assisted Acid-Catalyzed Transesterification Reactions
Energy & Fuels, 2016
[164] Kinetic study on microwave-assisted esterification of free fatty acids derived from Ceiba pentandra Seed Oil
Bioresource technology, 2016
[165] Emulsification of waste cooking oils and fatty acid distillates as diesel engine fuels: An attractive alternative
International Journal of Sustainable Energy Planning and Management, 2016
[166] Monitoring of Microwave-Assisted Acid-Catalyzed Transesterification for Biodiesel Production Using FT-NIR Spectroscopy with Continuous-Flow Cell
Current Microwave Chemistry, 2016
[167] An Experimental Analysis on Biodiesel Production of Waste Cooking Oil with Hydrodynamic Cavitation and its Performance Testing
2016
[168] Li-Zr/CaO As Heterogeneous Catalyst for the Transesterification of Cotton Seed Oil
2016
[169] AN EXPERIMANTAL ANALYSIS ON BIODIESEL PRODUCTION OF WASTE COOKING OIL WITH HYDRODYNAMIC CAVITATION AND ITS …
2016
[170] Experimental investigation on thermal stability of pongamia biodiesel by thermogravimetric analysis
Egyptian Journal of Petroleum, 2016
[171] Lipase‐catalyzed production of biodiesel by hydrolysis of waste cooking oil followed by esterification of free fatty acids
Journal of the American Oil Chemists' Society, 2016
[172] Homogeneous catalysts used in biodiesel production: a review
2016
[173] Exopolysaccharides synthesis on industrial waste
2016
[174] AN EXPERIMANTAL ANALYSIS ON BIODIESEL PRODUCTION OF WASTE COOKING OIL WITH HYDRODYNAMIC CAVITATION AND ITS PERFORMENCE …
2016
[175] СИНТЕЗ ЕКЗОПОЛІСАХАРИДУ ЕТАПОЛАНУ ЗА УМОВ РОСТУ ACINETOBACTER SP. IMB B-7005 НА ПЕРЕСМАЖЕНІЙ СОНЯШНИКОВІЙ ОЛІЇ
2016
[176] Біоконверсія пересмаженої соняшникової олії в поверхнево-активні речовини Acinetobacter calcoaceticus ІМВ В-7241
2016
[177] Використання пересмаженої соняшникової олії для біосинтезу мікробного полісахариду етаполану
2016
[178] Вплив способу підготовки посівного матеріалу на синтез полісахариду етаполану на олієвмісних субстратах
2015
[179] Polypyrrole-Coated Jute Substrate for Electromagnetic Shielding
2015
[180] БИОКОНВЕРСИЯ ПЕРЕЖАРЕННОГО ПОДСОЛНЕЧНОГО МАСЛА В ПОВЕРХНОСТНО-АКТИВНЫЕ ВЕЩЕСТВА АCINETOBACTER CALCOACETICUS ІМВ В …
2015
[181] Application of Fourier Transform Infrared (FT-IR) Spectroscopy combined with chemometrics for analysis of rapeseed oil adulterated with refining and purificating …
Food Analytical Methods, 2015
[182] TPA/TiO2-SiO2 的制备及在潲水油预酯化工艺中的应用
中国粮油学报, 2015
[183] Influence of the way of inoculum preparation on synthesis of polysaccharides ethapolan on oil-containing substrates
2015
[184] Self-assembled sulfated zirconia nanocrystals with mesoscopic void space synthesized via ionic liquid as a porogen and its catalytic activity for the synthesis of …
2015
[185] Review of the production of biodiesel from waste cooking oil using solid catalysts
Journal of Mechanical Engineering and Sciences, 2015
[186] 以節能微波系統搭配可再利用綠色溶劑提升生質柴油產率並運用醇類混合燃料對柴油引擎醛酮類化合物及 PM2. 5 排放特徵之研究
中山大學環境工程研究所學位論文, 2015
[187] Türkiye'de Gıda Endüstrisi Kaynaklı Biyokütle ve Biyoyakıt Potansiyeli
GIDA/The Journal of FOOD, 2015
[188] Биотрансформация бактериями рода Acinetobacter отработанного подсолнечного масла в поверхностно-активные вещества и экзополисахариды
2015
[189] LIFE CYCLE ANANLYSIS (LCA) COMPARISON OF FISH OIL EXTRACTION METHODS
Thesis, 2015
[190] Novel utilization of waste marine sponge (< i> Demospongiae) as a catalyst in ultrasound-assisted transesterification of waste cooking oil
Ultrasonics sonochemistry, 2015
[191] Ultrasound assisted transesterification of waste cooking oil using heterogeneous solid catalyst
Ultrasonics Sonochemistry, 2015
[192] Improved synthesis of sophorolipids from waste cooking oil using fed batch approach in the presence of ultrasound
Chemical Engineering Journal, 2015
[193] TÜRKİYE'DE GIDA ENDÜSTRİSİ KAYNAKLI BİYOKÜTLE VE BİYOYAKIT POTANSİYELİ
GIDA/The Journal of FOOD, 2015
[194] Waste sunflower oil as an alternative fuel for diesel engines
Nascent Technologies in the Engineering Field (ICNTE), 2015 International Conference on, 2015
[195] Continuous and pulse sonication effects on transesterification of used vegetable oil
Energy Conversion and Management, 2015
[196] Application of Fourier Transform Infrared (FT-IR) Spectroscopy Combined with Chemometrics for Analysis of Rapeseed Oil Adulterated with Refining and Purificating Waste Cooking Oil
Food Analytical Methods, 2015
[197] Certain investigations on the effect of Compression ratio over the performance And emission characteristics of CI engine with biodiesel blends
2015
[198] Biodiesel production by Base-catalyzed trans-esteri fication of sunflower and date seed oils using methanol: Optimization of para meters
Journal of Chemical and Pharmaceutical Research, 2015
[199] Comparison of biofuel quality of waste derived oils as a function of oil extraction methods
Fuel, 2015
[200] A Review on Green Trend for Oil Extraction Using Subcritical Water Technology and Biodiesel Production
Journal of oleo science, 2015
[201] Suitable Condition of Biodiesel Production from Waste Cooking Oil–Al-Baha City–KSA
Int. J. of Multidisciplinary and Current research, 2015
[202] Self-assembled sulfated zirconia nanocrystals with mesoscopic void space synthesized via ionic liquid as a porogen and its catalytic activity for the synthesis of biodiesels
Applied Catalysis A: General, 2015
[203] Thermal and flow properties of fish oil blends with bunker fuel oil
Fuel, 2015
[204] Supercritical Synthesis of Ethyl Esters via Transesterification from Waste Cooking Oil Using a Co-Solvent
Journal of Environmental Protection, 2015
[205] Measurement of Dielectric Properties and Microwave-Assisted Homogeneous Acid-Catalyzed Transesterification in a Monomode Reactor
The Journal of Physical Chemistry A, 2015
[206] Enzyme-catalysed biodiesel production from edible and waste cooking oils
Chemical and Biochemical Engineering Quarterly, 2015
[207] Increasing biodiesel yields using the energy ̶ saving microwave system with the recyclable green solvent and reducing both carbonyl compounds and …
2015
[208] Effect of Process Parameters in the Production of Biodiesel through Transesterification–A Review
2015
[209] TPA/TiO2-SiO2 的制备及在潲水油, 预酯化工艺中的应用
2015
[210] Kinetics of ultrasonic transesterfication of waste cooking oil
Environmental Progress & Sustainable Energy, 2014
[211] Study of Second and Third Generation Biofuel feed Stocks
2014
[212] Biodiesel Production from Waste Vegetable Oils over MgO/ZrO2 Catalyst
Proceedings of the World Congress on Engineering, 2014
[213] Energy-saving and rapid transesterification of jatropha oil using a microwave heating system with ionic liquid catalyst
Journal of the Taiwan Institute of Chemical Engineers, 2014
[214] UTILIZAÇÃO DE CATÁLISE ENZIMÁTICA PARA ESTERIFICAÇÃO DO ÓLEO DA POLPA DE MACAÚBA COM ELEVADA ACIDEZ
BTF MELLO, SB SILVA, C SILVA - cac-php.unioeste.br, 2014
[215] EVALUATION OF EMISSION CHARACTERISTICS AND PERFORMANCE STUDY OF BIODIESEL DERIVED FROM COMPOSITE OILS FROM WASTE COOKING OIL AND JATROPHA OILS ON A COMPUTERIZED CI ENGINE
SR Tilak - rspublication.com, 2014
[216] Intensification of glycerolysis reaction of higher free fatty acid containing sustainable feedstock using microwave irradiation
Fuel Processing Technology, 2014
[217] Potential of Waste Vegetable Oil for Biodiesel in Nigeria
British Journal of Applied Science & Technology?, 2014
[218] D2. 5 Information related to economic, social and environmental parameters 1st
M Buffi - itaka-project.eu, 2014
[219] Microwave and ultrasound enhanced extractive-transesterification of algal lipids
Applied Energy, 2014
[220] Performance Testing On an Agricultural Diesel Engine Using Waste Cooking Oil Biodiesel
2014
[221] Transesterification of used vegetable oil catalyzed by barium oxide under simultaneous microwave and ultrasound irradiations
Energy Conversion and Management, 2014
[222] Rapid Jatropha-biodiesel production assisted by a microwave system and a sodium amide catalyst
Fuel, 2014
[223] Rapid palm-biodiesel production assisted by a microwave system and sodium methoxide catalyst
Fuel, 2014
[224] Synergistic effect of simultaneous microwave and ultrasound irradiations on transesterification of waste vegetable oil
Fuel, 2014
[225] Transesterification of waste vegetable oil under pulse sonication using ethanol, methanol and ethanol–methanol mixtures
Waste Management, 2014
[226] Esterification pretreatment of free fatty acid in biodiesel production, from laboratory to industry
Fuel Processing Technology, 2014
[227] Review on Biodiesel Production using Process Intensification Techniques
2014
[228] Energy requirement estimates for two step ethanolysis of waste vegetable oils for biodiesel production
Applied Mechanics and Materials, 2014
[229] Effect of graphene oxide on the structural and electrochemical behavior of polypyrrole deposited on cotton fabric
2014
[230] Compostagem da borra de óleos e gorduras residuais com bagaço de cana-de-açúcar e esterco bovino
2013
[231] 동백나무와 차나무 기름의 지방산 조성 및 메틸에스테르 특성 분석
신재생에너지, 2013
[232] Statistical optimization of process variables for biodiesel production from waste cooking oil using heterogeneous base catalyst
British Biotechnology Journal, 2013
[233] Analysis of Fatty Acid Composition and Methyl-ester Properties of Camellia and Tea Oil
2013
[234] Biodiesel production assisted by 4-allyl-4-methylmorpholin-4-ium bromine ionic liquid and a microwave heating system
Applied Thermal Engineering, 2013
[235] Microwave energy potential for biodiesel production
Sustainable Chemical Processes, 2013
[236] Biodiesel from waste cooking oils via direct sonication
Applied Energy, 2013
[237] Biodiesel production from low cost and renewable feedstock
Central European Journal of Engineering, 2013
[238] Kinetics of ultrasonic transesterification of waste cooking oil
Environmental Progress & Sustainable Energy?, 2013
[239] Improving biodiesel yields from waste cooking oil using ionic liquids as catalysts with a microwave heating system
Fuel Processing Technology, 2013
[240] Statistical optimization of process variables for biodiesel production from waste cooking oil using heterogeneous base catalyst.
British Biotechnology Journal, 2013
[241] Biodiesel Synthesis and Analysis: A Technical Review
L Saravanakumar, R Dwarakesh, G Premkumar… - ijser.org, 2013
[242] Prediction of Cetane Number for Biodiesel Fuels: Karanja, Jatropha, Sunflower, Palm and Waste Cooking Oil Methyl Esters
Artificial Intelligent Systems and Machine Learning?, 2013
[243] Comparison of one step and two step process for biodiesel production from waste cooking oil using TGA analysis
2013
[244] Sustainable Biodiesel Production
Proceedings of the 2nd World Sustain. Forum, 2012
[245] Intensification approaches for biodiesel synthesis from waste cooking oil: a review
Industrial & Engineering Chemistry Research, 2012
[246] Microwave and Ultrasound Irradiations for the Intensification on Biodiesel Productions: A Mini
[247] cooking oil (WCO) into biodiesel using acoustic and

Journals Menu
Follow SCIRP
Contact us
+1 323-425-8868
customer@scirp.org
WhatsApp +86 18163351462(WhatsApp)
Click here to send a message to me 1655362766
Paper Publishing WeChat

Copyright © 2024 by authors and Scientific Research Publishing Inc.

Creative Commons License

This work and the related PDF file are licensed under a Creative Commons Attribution 4.0 International License.