A Review of Tropical Organic Materials for Biodiesel as a Substitute Energy Source in Internal Combustion Engines: A Viable Solution?

In this article, the most important publications on the subject are compiled to highlight the progress in biodiesel production from tropical cultivars, including energy and environmental potential, raw materials, and the advantages and disadvantages of this biofuel. A critical and objective review of biodiesel production as an alternative fuel for power generation systems and its importance in the energy matrix was conducted. A survey of real applications, new computational and experimental trends, and proposals in internal combustion engines employing organic biofuel was performed. The main findings were as follows: (i) there is the possibility of integration and support in the energy matrix of different countries, as well as the competing with and complementing, energetically, other renewable energy sources, such as solar and wind; (ii) Jatropha curcas, sunflowers, soybean, Moringa oleifera, palm, cottonseed, castor, rubber seed, and coconut are tropical cultivars used to obtained oils into biodiesel; (iii) the findings can be utilized as a theoretical basis for future policies influencing the energy sector through regulatory measures.

[1]  P. Show,et al.  Bayesian Regularization Neural Network-Based Machine Learning Approach on Optimization of CRDI-Split Injection with Waste Cooking Oil Biodiesel to Improve Diesel Engine Performance , 2023, Energies.

[2]  M. P. Dorado,et al.  Feasibility of the Production of Argemone pleiacantha Ultrasound-Assisted Biodiesel for Temperate and Tropical Marginal Areas , 2023, Energies.

[3]  I. M. Rizwanul Fattah,et al.  Synthesis of Biobased Composite Heterogeneous Catalyst for Biodiesel Production Using Simplex Lattice Design Mixture: Optimization Process by Taguchi Method , 2023, Energies.

[4]  N. Kondrasheva,et al.  Environmentally Friendly Diesel Fuel Obtained from Vegetable Raw Materials and Hydrocarbon Crude , 2023, Energies.

[5]  A. Afzal,et al.  Poultry fat biodiesel as a fuel substitute in diesel-ethanol blends for DI-CI engine: Experimental, modeling and optimization , 2023, Energy.

[6]  R. Manimaran,et al.  Biodegradable waste-derived biodiesel as a potential green fuel: Optimization of production process and its application in diesel engine , 2023, Industrial Crops and Products.

[7]  Raja Mazuir Raja Ahsan Shah,et al.  Comparative Analysis of Battery Thermal Management System Using Biodiesel Fuels , 2023, Energies.

[8]  B. Nath,et al.  Post-harvest waste to value-added materials: Musa champa plant as renewable and highly effective base catalyst for Jatropha curcas oil-based biodiesel production , 2023, Bioresource Technology Reports.

[9]  Y. Bilan,et al.  The Keys to Clean Energy Technology: Impact of Environmental Taxes on Biofuel Production and Consumption , 2022, Energies.

[10]  A. Aneseyee,et al.  Biodiesel Production in Ethiopia: Current Status and Future Prospects , 2022, Scientific African.

[11]  Wei-hsin Chen,et al.  Experimental Investigation of Biodiesel Blends with High-Speed Diesels—A Comprehensive Study , 2022, Energies.

[12]  M. Aghbashlo,et al.  Biomethane and biodiesel production from sunflower crop: A biorefinery perspective , 2022, Renewable Energy.

[13]  Kun Liu,et al.  Synthesis, characterization and application of a novel carbon-doped mix metal oxide catalyst for production of castor oil biodiesel , 2022, Journal of Cleaner Production.

[14]  Md. Nurun Nabi,et al.  Investigation of engine performance, combustion, and emissions using waste tire Oil-Diesel-Glycine max biodiesel blends in a diesel engine , 2022, Case Studies in Thermal Engineering.

[15]  Daryoush Dadpour,et al.  Proposing a new method for waste heat recovery from the internal combustion engine for the double-effect direct-fired absorption chiller , 2022, Applied Thermal Engineering.

[16]  E. S. Silva Lora,et al.  Techno-economic and environmental potential of Renewable Diesel as complementation for diesel and biodiesel in Brazil: A Comprehensive review and perspectives , 2022, Journal of Cleaner Production.

[17]  Shaik Shafi,et al.  Waste cooking oil biodiesel with FeO nanoparticle – A viable alternative fuel source , 2022, Materials Today: Proceedings.

[18]  J. Vazquez-Arenas,et al.  Zinc Oxide-co-Sodium Zirconate: A Fast Heterogeneous Catalyst for Biodiesel Production From Soybean Oil , 2022, Journal of Environmental Chemical Engineering.

[19]  A. Algieri,et al.  Experimental Investigation and RSM Modeling of the Effects of Injection Timing on the Performance and NOx Emissions of a Micro-Cogeneration Unit Fueled with Biodiesel Blends , 2022, Energies.

[20]  H. S. Che,et al.  Estimation of Greenhouse Gas Emissions of Petrol, Biodiesel and Battery Electric Vehicles in Malaysia Based on Life Cycle Approach , 2022, Sustainability.

[21]  A. Oliveira,et al.  Social life cycle assessment of feedstocks for biodiesel production in Brazil , 2022, Renewable and Sustainable Energy Reviews.

[22]  Luciene Kazue Tokura,et al.  Comparison of emissions and engine performance of safflower and commercial biodiesels , 2022, Industrial Crops and Products.

[23]  E. Lora,et al.  Parametric comparison of biodiesel transesterification processes using non‐edible feedstocks: Castor bean and jatropha oils , 2022, Biofuels, Bioproducts and Biorefining.

[24]  G. Najafi,et al.  A Review of the Existing Potentials in Biodiesel Production in Iran , 2022, Sustainability.

[25]  H. Doukas,et al.  A comparative study of biodiesel in Brazil and Argentina: An integrated systems of innovation perspective , 2022, Renewable and Sustainable Energy Reviews.

[26]  P. Y. Liew,et al.  The dilemma in energy transition in Malaysia: A comparative life cycle assessment of large scale solar and biodiesel production from palm oil , 2022, Journal of Cleaner Production.

[27]  M. U. Khan,et al.  Recent development of advanced processing technologies for biodiesel production: A critical review , 2022, Fuel Processing Technology.

[28]  Taras Hutsol,et al.  Modeling of Diesel Engine Fuel Systems Reliability When Operating on Biofuels , 2022, Energies.

[29]  Su Wang,et al.  The Effects of Nano-Additives Added to Diesel-Biodiesel Fuel Blends on Combustion and Emission Characteristics of Diesel Engine: A Review , 2022, Energies.

[30]  Hwai Chyuan Ong,et al.  Current Progress of Jatropha Curcas Commoditisation as Biodiesel Feedstock: A Comprehensive Review , 2022, Frontiers in Energy Research.

[31]  R. D. da Costa,et al.  Biodiesel in South American countries: A review on policies, stages of development and imminent competition with hydrotreated vegetable oil , 2022, Renewable and Sustainable Energy Reviews.

[32]  Y. Vasseghian,et al.  Utilization of biodiesel blended fuel in a diesel engine – Combustion engine performance and emission characteristics study , 2021, Fuel.

[33]  J. Krahl,et al.  Solketal as a renewable fuel component in ternary blends with biodiesel and diesel fuel or HVO and the impact on physical and chemical properties , 2021, Fuel.

[34]  C. Gennequin,et al.  Transesterification of Refined Sunflower Oil to Biodiesel Using CaO/ZSM‐5 Powder Catalyst , 2021, Chemical Engineering & Technology.

[35]  Semakula Maroa,et al.  A review of sustainable biodiesel production using biomass derived heterogeneous catalysts , 2021, Engineering in life sciences.

[36]  P. R. Vallejo Maldonado,et al.  Investigation of the Performances of a Diesel Engine Operating on Blended and Emulsified Biofuels from Rapeseed Oil , 2021, Energies.

[37]  Z. Curguz,et al.  Experimental Testing of Combustion Parameters and Emissions of Waste Motor Oil and Its Diesel Mixtures , 2021, Energies.

[38]  Zhen Fang,et al.  Soybean biodiesel production using synergistic CaO/Ag nano catalyst: Process optimization, kinetic study, and economic evaluation , 2021 .

[39]  A. Yusuff,et al.  Calcium Oxide Supported on Coal Fly Ash (CaO/CFA) as an Efficient Catalyst for Biodiesel Production from Jatropha curcas Oil , 2021, Topics in Catalysis.

[40]  L. A. D. do Nascimento,et al.  Use of Oxone® as a Potential Catalyst in Biodiesel Production from Palm Fatty Acid Distillate (PFAD) , 2021, Catalysis Letters.

[41]  J. Vazquez-Arenas,et al.  NaFeTiO4/Fe2O3–FeTiO3 as heterogeneous catalyst towards a cleaner and sustainable biodiesel production from Jatropha curcas L. oil , 2021, Journal of Cleaner Production.

[42]  B. Ravindran,et al.  Heterogeneous base catalysts: Synthesis and application for biodiesel production - A review. , 2021, Bioresource technology.

[43]  N. P. Asri,et al.  Transesterification of jatropha curcas oil for biodiesel production Over NiO catalyst , 2021 .

[44]  N. Widiarti,et al.  Upgrading catalytic activity of NiO/CaO/MgO from natural limestone as catalysts for transesterification of coconut oil to biodiesel , 2021, Biomass Conversion and Biorefinery.

[45]  B. Nath,et al.  Utilization of renewable and sustainable basic heterogeneous catalyst from Heteropanax fragrans (Kesseru) for effective synthesis of biodiesel from Jatropha curcas oil , 2021 .

[46]  P. Chavan,et al.  Production of biodiesel from high free fatty acids content Jatropha curcas oil using environment affable K–Mg composite catalyst , 2021 .

[47]  A. Ochoa,et al.  Natural gas based cogeneration system proposal to a textile industry: a financial assessment , 2021, Energy Efficiency.

[48]  Herliana,et al.  Transesterification of coconut oil (Cocos nucifera L.) into biodiesel using zeolite-A catalyst based on rice husk silica and aluminum foil , 2021 .

[49]  Kuihua Han,et al.  Preparation of calcium modified Zn-Ce/Al2O3 heterogeneous catalyst for biodiesel production through transesterification of palm oil with methanol optimized by response surface methodology , 2021 .

[50]  H. Husin,et al.  Conversion of rubber seed oil into biodiesel with potassium oxide alumina supported by (K2O/Al2O3) catalyst , 2021, IOP Conference Series: Materials Science and Engineering.

[51]  K. Hawboldt,et al.  A critical review on life cycle analysis of algae biodiesel: current challenges and future prospects , 2020 .

[52]  P. Chavan,et al.  Transesterification of Jatropha curcas Oil by using K impregnated CaO Heterogeneous Catalyst , 2020, Journal of Scientific & Industrial Research.

[53]  M. Carvalho,et al.  Life cycle assessment and comparative exergoenvironmental evaluation of a micro-trigeneration system , 2020 .

[54]  M. Kazemeini,et al.  Biodiesel Production from Sunflower Oil Using K 2 CO 3 Impregnated Kaolin Novel Solid Base Catalyst , 2020, Journal of the American Oil Chemists' Society.

[55]  M. Kazemeini,et al.  Transesterification of sunflower oil to biodiesel fuel utilizing a novel K2CO3/Talc catalyst: Process optimizations and kinetics investigations , 2020 .

[56]  D. Boffito,et al.  One-pot transesterification of non-edible Moringa oleifera oil over a MgO/K2CO3/HAp catalyst derived from poultry skeletal waste , 2020 .

[57]  Narath Moni Reang,et al.  A comprehensive study on prospects of economy, environment, and efficiency of palm oil biodiesel as a renewable fuel , 2020 .

[58]  Hwai Chyuan Ong,et al.  Critical review on sesame seed oil and its methyl ester on cold flow and oxidation stability , 2020 .

[59]  T. Khan A Review of Performance-Enhancing Innovative Modifications in Biodiesel Engines , 2020 .

[60]  H. Caliskan,et al.  Energy, exergy and environmental assessments of biodiesel and diesel fuels for an internal combustion engine using silicon carbide particulate filter , 2020, Journal of Thermal Analysis and Calorimetry.

[61]  Muhammad Zulfattah Zakaria,et al.  Sustainability of Palm Biodiesel in Transportation: a Review on Biofuel Standard, Policy and International Collaboration Between Malaysia and Colombia , 2020, BioEnergy Research.

[62]  P. Ejikeme,et al.  Methanolysis optimization of cottonseed oil to biodiesel using heterogeneous catalysts , 2020 .

[63]  S. Brar,et al.  Production of Biodiesel from Castor Oil: A Review , 2020, Energies.

[64]  J. Dantas,et al.  Transesterification reaction for biodiesel production from soybean oil using Ni0.5Zn0.5Fe2O4 nanomagnetic catalyst: Kinetic study , 2020, International Journal of Energy Research.

[65]  T. E. Odetoye,et al.  Thermal modification of chicken eggshell as heterogeneous catalyst for palm kernel biodiesel production in an optimization process , 2020 .

[66]  Anantharaman Narayanan,et al.  Biodiesel production from rubber seed oil using calcined eggshells impregnated with Al_2O_3 as heterogeneous catalyst:  A comparative study of RSM and ANN optimization , 2020, Brazilian Journal of Chemical Engineering.

[67]  C. Gennequin,et al.  Biodiesel production from refined sunflower oil over Ca–Mg–Al catalysts: Effect of the composition and the thermal treatment , 2020 .

[68]  A. Algieri,et al.  Analysis of multi-source energy system for small-scale domestic applications. Integration of biodiesel, solar and wind energy , 2020, Energy Reports.

[69]  Chao Chen,et al.  Synthesis and characterization of carbon-based MgO catalysts for biodiesel production from castor oil , 2019 .

[70]  O. Ogunkunle,et al.  A review of global current scenario of biodiesel adoption and combustion in vehicular diesel engines , 2019, Energy Reports.

[71]  Md. Nurun Nabi,et al.  The potential of utilising papaya seed oil and stone fruit kernel oil as non-edible feedstock for biodiesel production in Australia—A review , 2019, Energy Reports.

[72]  Yuejin Liu,et al.  Synthesis of Biodiesel from Soybean Oil with Methanol Catalyzed by Ni‐Doped CaO‐MgO Catalysts , 2019, ChemistrySelect.

[73]  S. Sarıdemir,et al.  Experimental investigation of combustion, performance and emission characteristics of a diesel engine fuelled with diesel–biodiesel–alcohol blends , 2019, Journal of the Brazilian Society of Mechanical Sciences and Engineering.

[74]  Ritunesh Kumar,et al.  Microalgae biodiesel: A review on oil extraction, fatty acid composition, properties and effect on engine performance and emissions , 2019, Fuel Processing Technology.

[75]  Sergio Leal Braga,et al.  Performance and combustion characteristics of a compression ignition engine running on diesel-biodiesel-ethanol (DBE) blends – Potential as diesel fuel substitute on an Euro III engine , 2019, Renewable Energy.

[76]  S. Niju,et al.  A comprehensive review on biodiesel production using Moringa oleifera oil , 2019, International Journal of Green Energy.

[77]  Amjad Ali,et al.  5-Na/ZnO doped mesoporous silica as reusable solid catalyst for biodiesel production via transesterification of virgin cottonseed oil , 2019, Renewable Energy.

[78]  M. Carvalho,et al.  Exergoeconomic and exergoenvironmental comparison of diesel-biodiesel blends in a direct injection engine at variable loads , 2019, Energy Conversion and Management.

[79]  G. Prateepchaikul,et al.  Continuous process for biodiesel production from palm fatty acid distillate (PFAD) using helical static mixers as reactors , 2019, Renewable Energy.

[80]  Veronica Winoto,et al.  Optimization of Biodiesel Production Using Nanomagnetic CaO-Based Catalysts with Subcritical Methanol Transesterification of Rubber Seed Oil , 2019, Energies.

[81]  A. Ochoa,et al.  Numerical simulation of the performance of a diesel cycle operating with diesel-biodiesel mixtures , 2019, Energy Conversion and Management.

[82]  N. Anantharaman,et al.  Biodiesel production from rubber seed oil using calcium oxide derived from eggshell as catalyst – optimization and modeling studies , 2019, Green Processing and Synthesis.

[83]  T. Balamurugan,et al.  Biodiesel derived from corn oil – A fuel substitute for diesel , 2018, Renewable and Sustainable Energy Reviews.

[84]  Manabu Kano,et al.  Biodiesel Production from Palm Oil, Its By-Products, and Mill Effluent: A Review , 2018, Energies.

[85]  J. F. Sierra-Cantor,et al.  Leaching and reusing analysis of calcium–zinc mixed oxides as heterogeneous catalysts in the biodiesel production from refined palm oil , 2018, International Journal of Environmental Science and Technology.

[86]  Renato Wagner da Silva Barros,et al.  Experimental Evaluation of the use of Cottonseed Biodiesel and Mixtures With Commercial Diesel Engine Generator , 2018 .

[87]  Gholamhassan Najafi,et al.  Potentials of palm oil as new feedstock oil for a global alternative fuel: A review , 2017 .

[88]  M. Gad,et al.  Performance and emissions characteristics of C.I. engine fueled with palm oil/palm oil methyl ester blended with diesel fuel , 2017, Egyptian Journal of Petroleum.

[89]  Shahaboddin Shamshirband,et al.  Limiting factors for the use of palm oil biodiesel in a diesel engine in the context of the ASTM standard , 2017 .

[90]  M. Sharma,et al.  Evaluation and enhancement of cold flow properties of palm oil and its biodiesel , 2016 .

[91]  Haji Hassan Masjuki,et al.  Optimization of performance, emission, friction and wear characteristics of palm and Calophyllum inophyllum biodiesel blends , 2016 .

[92]  Obed M. Ali,et al.  Analysis of blended fuel properties and engine performance with palm biodiesel–diesel blended fuel , 2016 .

[93]  Haji Hassan Masjuki,et al.  Implementation of palm biodiesel based on economic aspects, performance, emission, and wear characteristics , 2015 .

[94]  Vivian Vicentini Kuss,et al.  Potential of biodiesel production from palm oil at Brazilian Amazon , 2015 .

[95]  Srithar Rajoo,et al.  Oxygenated palm biodiesel: Ignition, combustion and emissions quantification in a light-duty diesel engine , 2015 .

[96]  A. Modi,et al.  Experimental Study on LHR Diesel Engine Performance with Blends of Diesel and Neem Biodiesel , 2015 .

[97]  Ruengwit Sawangkeaw,et al.  Statistical optimization of biodiesel production from para rubber seed oil by SO3H-MCM-41 catalyst , 2015, Arabian Journal of Chemistry.

[98]  A. Sanjid,et al.  Production of palm and jatropha based biodiesel and investigation of palm-jatropha combined blend properties, performance, exhaust emission and noise in an unmodified diesel engine , 2014 .

[99]  Teuku Meurah Indra Mahlia,et al.  A comparative evaluation of physical and chemical properties of biodiesel synthesized from edible and non-edible oils and study on the effect of biodiesel blending , 2013 .

[100]  Haji Hassan Masjuki,et al.  A comprehensive review on biodiesel as an alternative energy resource and its characteristics , 2012 .

[101]  Saad Mekhilef,et al.  A review on palm oil biodiesel as a source of renewable fuel , 2011 .

[102]  M. A. Fazal,et al.  Biodiesel feasibility study: An evaluation of material compatibility; performance; emission and engine durability , 2011 .

[103]  Flavio Caresana,et al.  Impact of biodiesel bulk modulus on injection pressure and injection timing. The effect of residual pressure , 2011 .

[104]  Suzana Yusup,et al.  Basic properties of crude rubber seed oil and crude palm oil blend as a potential feedstock for biodiesel production with enhanced cold flow characteristics , 2010 .

[105]  Abdul Rahman Mohamed,et al.  Utilization of oil palm as a source of renewable energy in Malaysia , 2008 .

[106]  J. Agudelo,et al.  Basic properties of palm oil biodiesel–diesel blends , 2008 .

[107]  Michael J. Haas,et al.  Attempts to reduce NOx exhaust emissions by using reformulated biodiesel , 2007 .

[108]  N. R. Krishnamoorthy,et al.  Machine learning algorithms for a diesel engine fuelled with biodiesel blends and hydrogen using LSTM networks , 2023, Fuel.

[109]  K. Amesho,et al.  Kinetics studies of sustainable biodiesel synthesis from Jatropha curcas oil by exploiting bio-waste derived CaO-based heterogeneous catalyst via microwave heating system as a green chemistry technique , 2022, Fuel.

[110]  M. Anwar,et al.  Mussel shell based CaO nano-catalyst doped with praseodymium to enhance biodiesel production from castor oil , 2022, Fuel.

[111]  Benyong Han,et al.  Optimization and kinetics of biodiesel production from soybean oil using new tetraethylammonium ionic liquids with amino acid-based anions as catalysts , 2022, Fuel.

[112]  A. Ghassemi,et al.  Rice bran oil-based biodiesel as a promising renewable fuel alternative to petrodiesel: A review , 2021 .

[113]  Mudrikaand Helmiyati Nanocomposite of cellulose and magnetite-magnesia as catalyst for biodiesel from coconut oil , 2021, IOP Conference Series: Earth and Environmental Science.

[114]  Ruslan,et al.  Utilizing of CaO catalyst from chicken eggshells at several concentrations to produce biodiesel based on moringa seed oil , 2021 .

[115]  C. Omonhinmin,et al.  Utilization of Moringa oleifera oil for biodiesel production: A systematic review , 2020, AIMS Energy.

[116]  S. Kacimi,et al.  Heterogeneous transesterification of castor oil for biodiesel production by Al2O3, Al2O3-NiO and Al2O3-CoO modified bentonite as catalyst , 2020 .

[117]  Teuku Meurah Indra Mahlia,et al.  Prospects of dedicated biodiesel engine vehicles in Malaysia and Indonesia , 2011 .