References
- Demirbas A. Biodiesel: a realistic fuel alternative for diesel engines. London (UK): Springer-Verlag; 2008.
- Kwon O, Kim J, Han J. Organic waste derived biodiesel supply chain network: deterministic multi-period planning model. Appl Energy. 2022;305:117847.
- Arora A, Singh V. Biodiesel production from engineered sugarcane lipids under uncertain feedstock compositions: process design and techno-economic analysis. Appl Energy. 2020;280:115933.
- Cong W-J, Wang Y-T, Li H, et al. Direct production of biodiesel from waste oils with a strong solid base from alkalized industrial clay ash. Appl Energy. 2020;264:114735.
- Zhao W, Li Z, Huang G, et al. Experimental investigation of direct injection dual fuel of n-butanol and biodiesel on intelligent charge compression ignition (ICCI) combustion mode. Appl Energy. 2020;266:114884.
- Andreo-Martínez P, Ortiz-Martínez VM, García-Martínez N, et al. Production of biodiesel under supercritical conditions: state of the art and bibliometric analysis. Appl Energy. 2020;264:114753.
- Kan X, Wei L, Li X, et al. Effects of the three dual-fuel strategies on performance and emissions of a biodiesel engine. Appl Energy. 2020;262:114542.
- Krishnamoorthi M, Sreedhara S, Duvvuri PP. Experimental, numerical and exergy analyses of a dual fuel combustion engine fuelled with syngas and biodiesel/diesel blends. Appl Energy. 2020;263:114643.
- Babu D, Thangarasu V, Ramanathan A. Artificial neural network approach on forecasting diesel engine characteristics fuelled with waste frying oil biodiesel. Appl Energy. 2020;263:114612.
- Kang S, Heo S, Realff MJ, et al. Three-stage design of high-resolution microalgae-based biofuel supply chain using geographic information system. Appl Energy. 2020;265:114773.
- Harahap F, Leduc S, Mesfun S, et al. Meeting the bioenergy targets from palm oil based biorefineries: an optimal configuration in Indonesia. Appl Eenrgy. 2020;278.
- Perčić M, Vladimir N, Fan A. Life-cycle cost assessment of alternative marine fuels to reduce the carbon footprint in short-sea shipping: a case study of Croatia. Appl Energy. 2020;279.
- Ong HC, Mahlia TMI, Masjuki HH, et al. Life cycle cost and sensitivity analysis of palm biodiesel production. Fuel. 2012;98:131–139.
- Gharehghani A, Pourrahmani H. Performance evaluation of diesel engines (PEDE) for a diesel-biodiesel fueled CI engine using nano-particles additive. Energy Convers Manage. 2019;198:111921.
- Keera ST, Sabagh SME, Taman AR. Castor oil biodiesel production and optimization. Egypt J Pet. 2018;27(4):979–984.
- Pari L, Suardi A, Stefanoni W, et al. Environmental and economic assessment of castor oil supply chain: a case study. Sustainability. 2020;12(16):6339.
- Bateni H, Karimi K, Zamani A, et al. Castor plant for biodiesel, biogas, and ethanol production with a biorefinery processing perspective. Appl Energy. 2014;136:14–22.
- Sridhar LN, Kazi S. Multiobjective non linear model predictive control of transesterification and lipid oil production. Biofuels. 2021;13(7):885–894.
- Rana QUA, Irfan M, Ahmed S, et al. Bio-catalytic transesterification of mustard oil for biodiesel production. Biofuels. 2022;13(1):69–76.
- Muhammad AB, Jodi LM, Hassan LG, et al. Optimization of reaction variables of ultrasound-assisted transesterification of Abelmoscus esculentus seed oil into biodiesel. Biofuels. 2021;12(9):1059–1065.
- Rajagopalachar S, Joshi SS, Reddy RP. Biodiesel synthesis from Garcinia gummi-gutta (L. Robson) seed oil: fuel feasibility evaluation of a novel feedstock by homogeneous and heterogeneous transesterification. Biofuel. 2019;10(3):403–410.
- Soares AT, D’Alessandro EB, Lopes RG, et al. Optimization of biodiesel production by in situ transesterification from dry biomass of Choricystis minor var. minor via response surface methodology. Biofuels. 2021;12(10):1301–1307.
- Murray R, King G, Wyse-Mason R. Micro-emulsification vs. transesterification: an investigation of the efficacy of methanol use in improving vegetable oil engine performance. Biofuels. 2021;12(9):1165–1174.
- Betiku E, Osunleke AS, Odude VO, et al. Performance evaluation of adaptive neuro-fuzzy inference system, artificial neural network and response surface methodology in modeling biodiesel synthesis from palm kernel oil by transesterification. Biofuels. 2021;12(3):339–354.
- Tulashie SK, Kotoka F. Kinetics and thermodynamic studies on Moringa oleifera oil extraction for biodiesel production via transesterification. Biofuels. 2022;13(3):341–349.
- Bharti RK, Katiyar R, Dhar DW, et al. In situ transesterification and prediction of fuel quality parameters of biodiesel produced from Botryococcus sp. MCC31. Biofuels. 2021;12(9):1131–1140.
- Vinayaka AS, Mahanty B, Rene ER, et al. Biodiesel production by transesterification of a mixture of pongamia and neem oils. Biofuels. 2021;12(2):187–195.
- Vázquez VÁ, Estrada RAD, Flores MMA, et al. Transesterification of non-edible castor oil (Ricinus communis L.) from Mexico for biodiesel production: a physicochemical characterization. Biofuels. 2020;11(7):1–762.
- Guide to the Expression of Uncertainty in Measurement. International Electrotechnical Commission, 1995.
- Aydin H, Bayindir H. Performance and emission analysis of cottonseed oil methyl ester in a diesel engine. Renew Energy. 2010;35(3):588–592.
- Utlu Z, Koçak MS. The effect of biodiesel fuel obtained from waste frying oil on direct injection diesel engine performance and exhaust emissions. Renew Energy. 2008;33(8):1936–1941.
- Usta N. Use of tobacco seed oil methyl ester in a turbocharged indirect injection diesel engine. Biomass Bioenergy. 2005;28(1):77–86.
- Xue J, Grift TE, Hansen AC. Effect of biodiesel on engine performances and emissions. Renew Sustain Energy Rev. 2011;15(2):1098–1116.
- Qi DH, Chen H, Geng LM, et al. Experimental studies on the combustion characteristics and performance of a direct injection engine fueled with biodiesel/diesel blends. Energy Convers Manage. 2010;51(12):2985–2992.
- Gevrey M, Dimopoulos I, Lek S. Review and comparison of methods to study the contribution of variables in artificial neural network models. Ecol Modell. 2003;160(3):249–264.
- Mirgolbabaei H, Echekki T. The reconstruction of thermo-chemical scalars in combustion from a reduced set of their principal components. Combust Flame. 2015;162(5):1650–1652.
- Echekki T, Mirgolbabaei H. Principal component transport in turbulent combustion: a posteriori analysis. Combust Flame. 2015;162(5):1919–1933.
- Edwards JR, Patton CH, Mirgolbabaei H, et al. 4D data assimilation for large eddy simulation of high speed turbulent combustion. In 51st AIAA/SAE/ASEE Joint Propulsion Conference, Orlando, FL, 2015.
- Patton C, Wignall T, Mirgolbabaei H, et al. LES model assessment for high speed combustion using mesh-sequenced realizations. In 51st AIAA/SAE/ASEE Joint Propulsion Conference, Orlando, FL, 2015.
- Mirgolbabaei H, Echekki T, Smaoui N. A nonlinear principal component analysis approach for turbulent combustion composition space. Int J Hydrogen Energy. 2014;39(9):4622–4633.
- Mirgolbabaei H. Low-dimensional manifold simulation of turbulent reacting flows using linear and nonlinear principal components analysis. Raleigh (NC): North Carolina State University; 2014.
- Mirgolbabaei H, Echekki T. Nonlinear reduction of combustion composition space with kernel principal component analysis. Combust Flame. 2014;161(1):118–126.
- Mirgolbabaei H, Echekki T. A novel principal component analysis-based acceleration scheme for LES–ODT: an a priori study. Combust Flame. 2013;160(5):898–908.
- Yellapu SK, Kaur R, Tyagi RD. Oil extraction from scum and ex situ transesterification to biodiesel. Biofuels. 2021;12(6):715–722.