https://orcid.org/0000-0001-9510-9268
References
- Rao P, Rathod V. Valorization of food and agricultural waste: a step towards greener future. Chem Rec. 2019;19(9):1858–1871.
- G G, S K, R YK, et al. Valorization of agricultural residues: different biorefinery routes. J Environ Chem Eng. 2021;9(4):105435.
- Morales G, Iglesias J, Melero JA. Sustainable catalytic conversion of biomass for the production of biofuels and bioproducts. Catalysts. 2020;10(5):581.
- Verma P, Sharma MP. Comparative analysis of effect of methanol and ethanol on karanja biodiesel production and its optimisation. Fuel. 2016;180:164–174.
- Vasudevan PT, Briggs M. Biodiesel production—current state of the art and challenges. J Indus Microbiol Biotechnol. 2008;35(5):421.
- Hameed BH, Lai LF, Chin LH. Production of biodiesel from palm oil (Elaeis guineensis) using heterogeneous catalyst: an optimized process. Fuel Process Technol. 2009;90(4):606–610.
- Atabani AE, Silitonga AS, Badruddin IA, et al. A comprehensive review on biodiesel as an alternative energy resource and its characteristics. Renew Sustain Energy Rev. 2012;16(4):2070–2093.
- Lam MK, Lee KT, Mohamed AR. Homogeneous, heterogeneous and enzymatic catalysis for transesterification of high free fatty acid oil (waste cooking oil) to biodiesel: a review. Biotechnol Adv. 2010;28(4):500–518.
- Betiku E, Ajala SO. Modeling and optimization of Thevetia peruviana (yellow oleander) oil biodiesel synthesis via Musa paradisiacal (plantain) peels as heterogeneous base catalyst: a case of artificial neural network vs. response surface methodology. Indus Crops Prod. 2014;53:314–322.
- Ezebor F, Khairuddean M, Abdullah AZ, et al. Oil palm trunk and sugarcane bagasse derived solid acid catalysts for rapid esterification of fatty acids and moisture-assisted transesterification of oils under pseudo-infinite methanol. Bioresour Technol. 2014;157:254–262.
- Ofori-Boateng C, Lee KT. The potential of using cocoa pod husks as green solid base catalysts for the transesterification of soybean oil into biodiesel: effects of biodiesel on engine performance. Chem Eng J. 2013;220:395–401.
- Ullah K, Ahmad M, Sharma VK, et al. Assessing the potential of algal biomass opportunities for bioenergy industry: a review. Fuel. 2015;143:414–423.
- Khalil HA, Aprilia NS, Bhat AH, et al. A jatropha biomass as renewable materials for biocomposites and its applications. Renewable Sustainable Energy Rev. 2013;22:667–685.
- Xue S-H, Xie H, Ping H, et al. Induced transformation of amorphous silica to cristobalite on bacterial surfaces. RSC Adv. 2015;5(88):71844–71848.
- Ala’a H, et al. Circular economy approach of enhanced bifunctional catalytic system of CaO/CeO2 for biodiesel production from waste loquat seed oil with life cycle assessment study. Energy Convers Manage. 2021;236:114040.
- Attari A, Abbaszadeh-Mayvan A, Taghizadeh-Alisaraei A. Process optimization of ultrasonic-assisted biodiesel production from waste cooking oil using waste chicken eggshell-derived CaO as a green heterogeneous catalyst. Biomass Bioenergy. 2022;158:106357.
- Cholapandian K, Gurunathan B, Rajendran N. Investigation of CaO nanocatalyst synthesized from acalypha indica leaves and its application in biodiesel production using waste cooking oil. Fuel. 2022;312:122958.
- Jamil F, Al-Muhtaseb AH, Al-Haj L, et al. Optimization of oil extraction from waste “date pits” for biodiesel production. Energy Convers Manage. 2016;117:264–272.
- Topare NS, et al. A short review on approach for biodiesel production: feedstock’s, properties, process parameters and environmental sustainability. Materials Today: Proceedings; 2021.
- Abdelhady HH, Elazab HA, Ewais EM, et al. Efficient catalytic production of biodiesel using nano-sized sugar beet agro-industrial waste. Fuel. 2020;261:116481.
- Musa IA. The effects of alcohol to oil molar ratios and the type of alcohol on biodiesel production using transesterification process. Egypt J Pet. 2016;25(1):21–31.
- Sronsri C, Sittipol W, Kongpop U. Performance of CaO catalyst prepared from magnetic-derived CaCO3 for biodiesel production. Fuel. 2021;304:121419.
- Supamathanon N, Boonserm K, Lisnund S, et al. Development of CaO supported on modified geopolymer catalyst for transesterification of soybean oil to biodiesel. Mater Today Commun. 2021;29:102822.
- Salim SM, Izriq R, Almaky MM, et al. Synthesis and characterization of ZnO nanoparticles for the production of biodiesel by transesterification: kinetic and thermodynamic studies. Fuel. 2022;321:124135.
- Zhang Y, Duan L, Esmaeili H. A review on biodiesel production using various heterogeneous nanocatalysts: operation mechanisms and performances. Biomass Bioenergy. 2022;158:106356.
- Wang C, Kant Bhatia S, Manigandan S, et al. Comparative assessment of waste cooking, chicken waste and waste tire biodiesel blends on performance and emission characteristics. Fuel. 2022;320:123859.
- Sadaf S, Iqbal J, Ullah I, et al. Biodiesel production from waste cooking oil: an efficient technique to convert waste into biodiesel. Sustain Cities Soc. 2018;41:220–226.
- Lani NS, Ngadi N, Yahya NY, et al. Synthesis, characterization and performance of silica impregnated calcium oxide as heterogeneous catalyst in biodiesel production. J Clean Prod. 2017;146:116–124.
- Chen G-Y, Shan R, Shi J-F, et al. Transesterification of palm oil to biodiesel using rice husk ash-based catalysts. Fuel Process Technol. 2015;133:8–13.
- Zhao C, Yang L, Xing S, et al. Biodiesel production by a highly effective renewable catalyst from pyrolytic rice husk. J Clean Prod. 2018;199:772–780.
- Sahu O. Characterisation and utilization of heterogeneous catalyst from waste rice-straw for biodiesel conversion. Fuel. 2021;287:119543.
- Yaşar F. Biodiesel production via waste eggshell as a low-cost heterogeneous catalyst: its effects on some critical fuel properties and comparison with CaO. Fuel. 2019;255:115828.