Browse > Article
http://dx.doi.org/10.12925/jkocs.2019.36.4.1399

Prospects of Insect Biodiesel Production in Korea: A review  

Park, Jo Yong (K-Petro, Research Institute of Petroleum Technology)
Publication Information
Journal of the Korean Applied Science and Technology / v.36, no.4, 2019 , pp. 1399-1409 More about this Journal
Abstract
Biodiesel is a renewable and environmentally friendly liquid biofuel for transportation. Insect is considered as a new valuable biomass to convert into biodiesel. In particular, BSF(Black Soldier Fly) containing high fat is a renewable source of biodiesel. Biodiesel drived BSF has high concentration of saturated fatty acid methyl ester and low concentration of polyunsaturted fatty acid methyl ester which makes it potentially an ideal substrate for producing excellent quality biodiesel. Most of the fuel properties of BSF biodiesel were met the requirements of standard EN 14214. BSF have a higher lipid yield and biodiesel productivity as compared to microalgae and vegetable oils. This review paper includes the overall summary and compilation of the insect research conducted on biodiesel production and includes the BSF biodiesel properties.
Keywords
Insect; Black soldier fly; Fatty acid; Biodiesel; Biodiesel productivity;
Citations & Related Records
Times Cited By KSCI : 3  (Citation Analysis)
연도 인용수 순위
1 Q. A. Li, L. Zheng, N. Qiu, H. Cai, J. K. Tomberlin, Z. Yu, "Bioconversion of Dairy Manure by Black Solider Fly(Diptera: Stratiomyidae) for Biodiesel and Sugar Production", Water Management, Vol.31, pp. 1316-1320, (2011).
2 A. L. Ahmad, N. H. Yasin, C. J. C. Derek, J. K. Lim, "Microalgae as a Sustainable Energy Source for Biodiesel Production: A Review", Renewable and Sustainable Energy Reviews, Vol.15, pp. 584-593, (2011).   DOI
3 S. N. Gebremariam, J. M. Marchetti, "Economics of Biodiesel Production: Review", Energy conversion and Management, Vol.168, pp. 74-84, (2018).   DOI
4 J. Y. Park, J. K. Kim, C. K. Park. "A Review of Biofuels Production Technologies from Microalgae", Trans. of the Korean Hydrogen and New Energy Society, Vol.27, pp. 368-403. (2016).
5 J. Y. Park, J. K. Kim, H. S. Im, "A Review on Fuel Properties and Liquid Biofuels Production Technologies from Sewage Sludge", Journal of Oil & Applied Science, Vol.35, pp. 540-559, (2018).   DOI
6 J. K. Kim, J. Y. Park, C. H. Jeon, K. I. Min, E. S. Yim, C. S. Jung, J. H. Lee, "Fuel Properties of Various Biodiesels Derived Vegetable Oil", Journal of Oil & Applied Science, Vol.30 pp. 35-48, (2013).   DOI
7 A. E. Atabani, A. S. Silitonga, I. A. Badruddin, T. M. I. Mahlia, H. H. Masjuki, S. Mekhilef, "A Comprehensive Review on Biodiesel as an Alternative Energy Resource and its Characteristics", Renewable and Sustainable Energy Reviews, Vol.16, pp. 2070-2093, (2012).   DOI
8 C. Zi-Zhe, Y. De-po, W. Sheng-qing, W. Yong, M. J. T. Reaney, Z. Zhi-min, Z. Long-ping, S. Guo, N. Yi, Z. Dong, N. Hui-ran, Y. Wen-zhe, "Conversion of Poultry Manure to Biodiesel, a Practical Method of Producing Fatty Acid Methyl Esters via Housefly(Musca donestica L.) Larval Lipid", Fuel, Vol.210, pp. 463-471, (2017).   DOI
9 K. C. Surendra, R. Olivier, K. K. Tomberlin, R. Jha, "Bioconversion of Organic Wastes into Biodiesel and Animal Feed via Insect Farming", Renewable Energy, Vol.98, pp. 197-202, (2016).   DOI
10 L. Zheng, Y. Hou, W. Li, S. Yang, Q. Li, Z. Yu, "Biodiesel Production from Rice Straw and Restaurant Waste Employing Black Solder Fly Assisted by Microbes", Energy, Vol.47, pp. 225-229, (2012).   DOI
11 F. M. Agugliaro. M. J. S. Muros, F. G. Barroso, A. M. Sanchez, S. Rojo, "Insects for Biodiesel Production", Renewable and Sustainable Energy Reviews, Vol.16, pp. 3744-3753, (2012).   DOI
12 H. C. Nguyen, S. H. Liang, S. Y. Li, C. H. Su, C. C. Chein, D. T. M. Huong, "Direct Transesterification of Black Solder Fly Larvae(Hermetia illucens) for Biodiesel Production", Journal of the Taiwan Institute Chemical Engineers, Vol.85, pp. 165-169, (2018).   DOI
13 S. P. Singh, D. Singh, "Biodiesel Production through the Use of Different Sources and Characterization of Oils and their Esters as the Substitute of Diesel: a Review", Renewable and Sustainable Energy Reviews, Vol.14, pp. 200-216, (2009).   DOI
14 M. Balat, H. Balat, "Progress in Biodiesel Processing", Applied Energy, Vol.87, pp. 1815-1835, (2010).   DOI
15 J-Y. Lee, C. Yoo, S-Y. Jun, C-Y. Ahn, H-M. Oh, "Comparison of Several Methods for Effective Lipid Extraction from Microalgae", Bioresource Technology, Vol.101, pp. 575-577, (2010).
16 H. C. Nguyen, S. H. Liang, S. S. Chen, C. H. Su, J. H. Lin, "Enzymatic Production of Biodiesel from Insect Fat Using Methyl Acetate as an Acyl Acceptor: Optimization by Using Response Surface Methodology", Energy Conversion and Management, Vol.158, pp. 168-175, (2018).   DOI
17 P. Verma, M. P. Sharma, "Review of Process Parameters for Biodiesel Production from Different Feedstocks", Renewable and Sustainable Energy Reviews, Vol.62, pp. 1063-1070, (2016).   DOI
18 A. Jarmakar, S. Karmakar, S. Mukherjee, "Properties of Various Plants and Animals Feedstocks for Biodiesel Production", Bioresource Technology, Vol.101, pp. 7201-7210, (2010).   DOI
19 I. Ambat, V. Srivastava, M. Sillanpaa, "Recent Advancement in Biodiesel Production Methodologies Using Various Feedstock: A Review", Renewable and Sustainable Energy Reviews, Vol.90, pp. 356-369, (2018).   DOI
20 R. Salomone, G. Saija, G. Mondello, A. Giannetto, S. Fasulo, D. Savastano, "Environmental Impact of Food Waste Bioconversion by Insects: Application of Life Cycle Assessment to Process Using Hermetia Illucens", Journal of Cleaner Production, Vol.140, pp. 890-905, (2017).   DOI
21 D. Y. C. Leung, X. Wu, M. K. H. Leung, "A Review on Biodiesel Production Using Catalyzed Transesterification", Applied Energy, Vol.87, pp. 1083-1095, (2010).   DOI
22 C. Wang, L. Qian, W. Wang, T. Wang, Z. Deng, F. Yang, J. Xiong, W. Feng, "Exploring the Potential of Lipids from Black Solder Fly; New Paradigm for Biodiesel Production(1)", Renewable Energy, Vol.111, pp. 749-756, (2017).   DOI
23 Q. Li, L. Zheng, H. Cai, E. Garza, Z. Yu, S. Zhou, "From Organic Waste to Biodiesel: Black Solider Fly, Hermetia Illucens, Makes it Feasible", Fuel, Vol.90, pp. 1545-1548, (2011).   DOI
24 S. K. Hoekman, A. Broch, C. Robbins, E. Ceniceros, M. Natarajan, "Review of Biodiesel Composition, Properties, and Specifications", Renewable and Sustainable Energy Reviews, Vol.16, pp. 143-169, (2012).   DOI
25 X. Deng, Z. Fang, Y. Liu, C. Yu, "Production of Biodiesel from Jatropha Oil Catalyzed by Nanosized Solid Basic Catalyst", Energy, Vol.32, pp. 777-784, (2011).
26 R. Sarin, M. Sharma, S. Sinharay, R. K. Malhotra, "Jatropha-Palm Biodiesel Blends: an Optimum Mix for Asia", Fuel, Vol.86, pp. 1365-1371, (2007).   DOI
27 M. J. Haas, "Improving the Economics of Biodiesel Production through the Use of Low Value Lipids as Feedstocks: Vegetable Oil Soapstock", Fuel Process Technology, Vol.86, pp. 1087-1096, (2005).   DOI
28 A. S. Ramadhas, S. Jayaraj, C. Muraleedhaaran, "Biodiesel Production from High FFA Rubber Seed Oil", Fuel, Vol.84, pp. 335-340, (2005).   DOI
29 L. T. Thanh, K. Okitsu, L. V. Boi, Y. Maeda, "Catalytic Technologies for Biodiesel Fuel Production and Utilization of Glycerol: A Review", Catalysts, Vol.2, pp. 191-222, (2012).   DOI
30 P. Zareh, A. A. Zare, B. Ghobadian, "Comparative Assessment of Performance and Emission Characteristics of Castor, Coconut and Waste Cooking Based Biodiesel as Fuel in a Diesel Engine", Energy, Vol.139, pp. 883-894, (2017).   DOI