Atabani, A.E., Badruddin, I., Masjuki, H.H., Chong, W.T., Lee, K., 2015. Pangium edule Reinw: A Promising Non-edible Oil Feedstock for Biodiesel Production. Arab. J. Sci. Eng. 40, 583-594.
Chuah, L.F., Abd Aziz, A.R., Yusup, S., Bokhari, A., Klemeš, J.J., Abdullah, M.Z., 2015a. Performance and emission of diesel engine fuelled by waste cooking oil methyl ester derived from palm olein using hydrodynamic cavitation. Clean Techn. Environ. Policy. 1-13. DOI: 10.1007/s10098-015-0957-2.
Chuah, L.F., Yusup, S., Abd Aziz, A.R., Bokhari, A., Abdullah, M.Z., 2015b. Cleaner production of methyl ester using waste cooking oil derived from palm olein using a hydrodynamic cavitation reactor. J. Cleaner Prod. DOI:10.1016/j.jclepro.2015.06.112.
Chuah, L.F., Yusup, S., Abd Aziz, A.R., Bokhari, A., Klemeš, J.J., Abdullah, M.Z., 2015c. Intensification of biodiesel synthesis from waste cooking oil (Palm Olein) in a hydrodynamic cavitation reactor: Effect of operating parameters on methyl ester conversion. Chem. Eng. Process. Process Intensif. 95, 235-240.
Fadhil, A., 2013. Biodiesel production from beef tallow using alkali-catalyzed transesterification. Arab. J. Sci. Eng. 38, 41-47.
Georgogianni, K.G., Katsoulidis, A.K., Pomonis, P.J., Manos, G., Kontominas, M.G., 2009. Transesterification of rapeseed oil for the production of biodiesel using homogeneous and heterogeneous catalysis. Fuel Process. Technol. 90, 1016-1022.
Jaber, R., Shirazi, M.M.A., Toufaily, J., Hamieh, A.T., Noureddin, A., Ghanavati, H., Ghaffari, A., Zenouzi, A., Karout, A., Ismail, A.F., Tabatabaei, M., 2015. Biodiesel wash-water reuse using microfiltration: toward zero-discharge strategy for cleaner and economized biodiesel production. Biofuel Res. J. 2, 148-151.
Ji, J., Wang, J., Li, Y., Yu, Y., Xu, Z., 2006. Preparation of biodiesel with the help of ultrasonic and hydrodynamic cavitation. Ultrasonics. 44, e411-e414.
Knothe, G., 2006. Analyzing biodiesel: standards and other methods. J. Amer. Oil Chem. Soc. 83, 823-833.
Lee, H.V., Yunus, R., Juan, J.C., Taufiq-Yap, Y.H., 2011. Process optimization design for jatropha-based biodiesel production using response surface methodology. Fuel Process. Technol. 92, 2420-2428.
Lee, J.Y., Yoo, C., Jun, S.-Y., Ahn, C.Y., Oh, H.M., 2010. Comparison of several methods for effective lipid extraction from microalgae. Bioresour. Technol. 101, S75-S77.
Lee, K.T., Matlina Mohtar, A., Zainudin, N.F., Bhatia, S., Mohamed, A.R., 2005. Optimum conditions for preparation of flue gas desulfurization absorbent from rice husk ash. Fuel. 84, 143-151.
Ma, F., Hanna, M.A., 1999. Biodiesel production: a review. Bioresour. Technol. 70, 1-15.
Moradi, G.R., Mohadesi, M., Ghanbari, M., Moradi, M.J., Hosseini, S., Davoodbeygi, Y., 2015. Kinetic comparison of two basic heterogenous catalysts obtained from sustainable resources for transesterification of waste cooking oil. Biofuel Res. J. 2, 236-241.
Motasemi, F., Ani, F.N., 2012. A review on microwave-assisted production of biodiesel. Renew. Sustain. Energy Rev. 16, 4719-4733.
Ong, L.K., Effendi, C., Kurniawan, A., Lin, C.X., Zhao, X.S., Ismadji, S., 2013. Optimization of catalyst-free production of biodiesel from Ceiba pentandra (kapok) oil with high free fatty acid contents. Energy. 57, 615-623.
Ramadhas, A.S., Jayaraj, S., Muraleedharan, C., 2005. Biodiesel production from high FFA rubber seed oil. Fuel. 84, 335-340.
Sharma, Y.C., Singh, B., Upadhyay, S.N., 2008. Advancements in development and characterization of biodiesel: A review. Fuel. 87, 2355-2373.
Sivakumar, P., Sindhanaiselvan, S., Gandhi, N.N., Devi, S.S., Renganathan, S., 2013. Optimization and kinetic studies on biodiesel production from underutilized Ceiba Pentandra oil. Fuel. 103, 693-698.
Vedharaj, S., Vallinayagam, R., Yang, W.M., Chou, S.K., Chua, K.J.E., Lee, P.S., 2013. Experimental investigation of kapok (Ceiba pentandra) oil biodiesel as an alternate fuel for diesel engine. Energy Convers. Manage.75, 773-779.
Vedharaj, S., Vallinayagam, R., Yang, W.M., Saravanan, C.G., Chou, S.K., Chua, K.J.E., Lee, P.S., 2014. Reduction of harmful emissions from a diesel engine fueled by kapok methyl ester using combined coating and SNCR technology. Energy Convers. Manage. 79, 581-589.
Yunus Khan, T.M., Atabani, A.E., Badruddin, I.A., Ankalgi, R.F., Mainuddin Khan, T.K., Badarudin, A., 2015. Ceiba pentandra, Nigella sativa and their blend as prospective feedstocks for biodiesel. Ind. Crops Prod. 65, 367-373.
Yunus khan, T.M., Atabani, A.E., Badruddin, I.A., Badarudin, A., Khayoon, M.S., Triwahyono, S., 2014. Recent scenario and technologies to utilize non-edible oils for biodiesel production. Renew. Sustain. Energy Rev. 37, 840-851.
Yusup, S., Khan, M.A., 2010. Base catalyzed transesterification of acid treated vegetable oil blend for biodiesel production. Biomass Bioenergy. 34, 1500-1504.
Zhang, Q., Liu, C., Sun, Z., Hu, X., Shen, Q., Wu, J., 2012. Authentication of edible vegetable oils adulterated with used frying oil by Fourier Transform Infrared Spectroscopy. Food Chem. 132, 1607-1613.