150, 370–377, 2015.
56. Shahraki, H., Entezari, M.H., Goharshadi, E.K., Sono-synthesis of biodiesel from soybean oil by KF/γ–Al2O3 as a nano-solid-base catalyst. Ultrason. Sonochem., 23, 266–274, 2015.
57. Martinez-Guerra, E., and Gude, V.G., Transesterification of used vegetable oil catalyzed by barium oxide under simultaneous microwave and ultrasound irradiations. Energy Convers. Manag., 88, 633–640, 2014.
58. Chen, G., Shan, R., Shi, J., Yan, B., Ultrasonic-assisted production of biodiesel from transesterification of palm oil over ostrich eggshell–derived CaO catalysts. Bioresour. Technol., 171, 428–432, 2014).
59. Takase, M., Zhang, M., Feng, W., Chen, Y., Zhao, T., Cobbina, S.J., Yang, L., Wu, X., Application of zirconia modified with KOH as heterogeneous solid base catalyst to new non-edible oil for biodiesel. Energy Convers. Manag., 80, 117–125, 2014.
60. Sivakumar, P., Sankaranarayanan, S., Renganathan, S., Studies on sono–chemical biodiesel production using smoke deposited nano MgO catalyst. Bull. Chem. React. Eng. Catal., 8 (2), 89–96, 2013.
61. Choudhury, H.A., Chakma, S., Moholkar, V.S., Mechanistic insight into sonochemical biodiesel synthesis using heterogeneous base catalyst. Ultrason. Sonochem., 21 (1), 169–181, 2014.
62. Peña-Rodríguez, R., Márquez-López, E., Guerrero, A., Chiñas, L.E., Hernández-González, D.F., Rivera, J.M., Hydrothermal synthesis of cobalt (II) 3D metal–organic framework acid catalyst applied in the transesterification process of vegetable oil. Mater. Lett., 217, 117–119, 2018.
63. Asif, S., Ahmad, M., Bokhari, A., Chuah, L.F., Klemeš, J.J., Akbar, M.M., Sultana, S., Yusup, S., Methyl ester synthesis of Pistacia khinjuk seed oil by ultrasonic-assisted cavitation system. Ind. Crops Prod., 108, 336–347, 2017.
64. Nikseresht, A., Daniyali, A., Ali-Mohammadi, M., Afzalinia, A., Mirzaie, A., Ultrasound-assisted biodiesel production by a novel composite of Fe(III)-based MOF and phosphotangestic acid as efficient and reusable catalyst. Ultrason. Sonochem., 37, 203–207, 2017.
65. Dehghani, S., and Haghighi, M., Sono-sulfated zirconia nanocatalyst supported on MCM–41 for biodiesel production from sunflower oil: influence of ultrasound irradiation power on catalytic properties and performance. Ultrason. Sonochem., 35, 142–151, 2017.
66. Hajamini, Z., Sobati, M.A., Shahhosseini, S., Ghobadian, B., Waste fish oil (WFO) esterification catalyzed by sulfonated activated carbon under ultrasound irradiation. Appl. Therm. Eng., 94, 141–150, 2016.
67. Maneechakr, P., Samerjit, J., Uppakarnrod, S., Karnjanakom, S., Experimental design and kinetic study of ultrasonic assisted transesterification of waste cooking oil over sulfonated carbon catalyst derived from cyclodextrin. J. Ind. Eng. Chem., 32, 128–136, 2015.
68. Maneechakr, P., Samerjit, J., Karnjanakom, S., Ultrasonic-assisted biodiesel production from waste cooking oil over novel sulfonic functionalized carbon spheres derived from cyclodextrin via one-step: a way to produce biodiesel at short reaction time. RSC Adv., 5 (68), 55252–55261, 2015.
69. Gaikwad, N.D., Gogate, P.R., Synthesis and application of carbon based heterogeneous catalysts for ultrasound assisted biodiesel production. Green Process. Synth., 4 (1), 17–30, 2015.
70. Pukale, D.D., Maddikeri, G.L., Gogate, P.R., Pandit, A.B., Pratap, A.P., Ultrasound assisted transesterification of waste cooking oil using heterogeneous solid catalyst. Ultrason. Sonochem., 22, 278–286, 2015.
71. Badday, A.S., Abdullah, A.Z., Lee, K.T., Transesterification of crude Jatropha oil by activated carbon-supported heteropolyacid catalyst in an ultrasound-assisted reactor system. Renew. Energy, 62, 10–17, 2014.
72. Badday, A.S., Abdullah, A.Z., Lee, K.T., Ultrasound-assisted transesterification of crude Jatropha oil using cesium doped heteropolyacid catalyst: Interactions between process variables. Energy, 60, 283–291, 2013.
73. Malani, R.S., Umriwad, S.B., Kumar, K., Goyal, A., Moholkar, V.S., Ultrasound-assisted enzymatic biodiesel production using blended feedstock of non-edible oils: Kinetic analysis. Energy Convers. Manag., 188, 142–150, 2019.
74. Poppe, J.K., Matte, C.R., Fernandez-Lafuente, R., Rodrigues, R.C., Ayub, M.A.Z. Transesterification of waste frying oil and soybean oil by combilipases under ultrasound–assisted reactions. Appl. Biochem. Biotechnol., 186 (3), 576–589, 2018.
75. Santin, C.M., Michelin, S., Scherer, R.P., Valério, A., di Luccio, M., Oliveira, D., Oliveira, J. V., Comparison of macauba and soybean oils as substrates for the enzymatic biodiesel production in ultrasound–assisted system. Ultrason. Sonochem., 35, 525–528, 2017.
76. Bhangu, S.K., Gupta, S., Ashokkumar, M., Ultrasonic enhancement of lipase–catalysed transesterification for biodiesel synthesis. Ultrason. Sonochem., 34, 305–309, 2017.
77. Adewale, P., Dumont, M.J., Ngadi, M., Enzyme-catalyzed synthesis and kinetics of ultrasonic assisted methanolysis of waste lard for biodiesel production. Chem. Eng. J., 284, 158–165, 2016.
78. Adewale, P., Dumont, M.J., Ngadi, M., Enzyme-catalyzed synthesis and kinetics of ultrasonic-assisted biodiesel production from waste tallow. Ultrason. Sonochem., 27, 1–9, 2015.
79. Subhedar, P.B., Botelho, C., Ribeiro, A., Castro, R., Pereira, M.A., Gogate, P.R., Cavaco-Paulo, A., Ultrasound intensification suppresses the need of methanol excess during the biodiesel production with Lipozyme TL–IM. Ultrason. Sonochem., 27, 530–535, 2015.
80. Michelin, S., Penha, F.M., Sychoski, M.M., Scherer, R.P., Treichel, H., Valério, A., Di Luccio, M., de Oliveira, D., Oliveira, J. V., Kinetics of ultrasound–assisted enzymatic biodiesel production from Macauba coconut oil. Renew. Energy, 76, 388–393, 2015.
81. Trentin, C.M., Popiolki, A.S., Batistella, L., Dalla Rosa, C., Treichel, H., de Oliveira, D., Oliveira, J. V., Enzyme-catalyzed production of biodiesel by ultrasound-assisted ethanolysis of soybean oil in solvent-free system. Bioprocess Biosyst. Eng., 38 (3), 437–448, 2015.
82. Karimi, M., Keyhani, A., Akram, A., Rahman, M., Jenkins, B., Stroeve, P., Hybrid response surface methodology-genetic algorithm optimization of ultrasound–assisted transesterification of waste oil catalysed by immobilized lipase on mesoporous silica/iron oxide magnetic core-shell nanoparticles. Environ. Technol., 34 (13–14), 2201–2211, 2013.
83. Batistella, L., Lerin, L.A., Brugnerotto, P., Danielli, A.J., Trentin, C.M., Popiolski, A., Treichel, H., Oliveira, J. V., de Oliveira, D., Ultrasound-assisted lipase-catalyzed transesterification of soybean oil in organic solvent system. Ultrason. Sonochem., 19 (3), 452–458, 2012.
84. Kumar, G., Kumar, D., Johari, R., Singh, C., Enzymatic transesterification of Jatropha curcas oil assisted by ultrasonication. Ultrason. Sonochemistry, 18 (5), 923–927, 2011.
85. Yu, D., Tian, L., Wu, H., Wang, S., Wang, Y., Ma, D., Fang, X., Ultrasonic irradiation with vibration for biodiesel production from soybean oil by Novozym 435. Process Biochem., 45 (4), 519–525, 2010.
86. Gogate, P.R., Sutkar, V.S., Pandit, A.B., Sonochemical reactors: Important design and scale up considerations with a special emphasis on heterogeneous systems. Chem. Eng. J., 166 (3), 1066–1082, 2011.
87. Gogate, P.R., Shirgaonkar, I.Z., Sivakumar, M., Senthilkumar, P., Vichare, N.P., Pandit, A.B., Cavitation reactors: Efficiency assessment using a model reaction. AIChE J., 47 (11),