Enzyme-assisted extraction of insect fat for biodiesel production Su, CH, Nguyen, Hoang Chinh, Bui, TL and Huang, DL 2019, Enzyme-assisted extraction of insect fat for biodiesel production, Journal of Cleaner Production, vol. 223, pp. 436-444, doi: 10.1016/j.jclepro.2019.03.150. Attached Files Name Description MIMEType Size Downloads Title Enzyme-assisted extraction of insect fat for biodiesel production Author(s) Su, CH Nguyen, Hoang Chinh Bui, TL Huang, DL Journal name Journal of Cleaner Production Volume number 223 Start page 436 End page 444 Total pages 9 Publisher Elsevier Publication date 2019 ISSN 0959-6526 Keyword(s) Science & Technology Technology Life Sciences & Biomedicine Green & Sustainable Science & Technology Engineering, Environmental Environmental Sciences Science & Technology - Other Topics Engineering Environmental Sciences & Ecology Black soldier fly Biodiesel Enzymatic extraction Insect fat Protease Response surface methodology LIFE-CYCLE ASSESSMENT AQUEOUS EXTRACTION OIL EXTRACTION OPTIMIZATION LIPIDS HYDROLYSIS PROTEIN TRANSESTERIFICATION IMPROVEMENT Summary Black soldier fly larvae (BSFL), high-fat-containing insects, are a promising non-edible feedstock for biodiesel production. Extracting fat from BSFL biomass for biodiesel production by using traditional methods requires a high amount of solvent, long extraction time, and thermal conditions. To address these limitations, this study proposed an enzyme-assisted extraction method for extracting fat from BSFL biomass for biodiesel production. Different proteases were used to pretreated BSFL biomass prior to the extraction by n-hexane. Among the tested enzymes, Protamex was the most effective for the pretreatment, resulting in the highest fat yield (2.2-fold increase in the fat yield, compared with the extraction without enzymatic treatment). The extraction of insect fat using Protamex-assisted pretreatment was then optimized using response surface methodology (RSM). A four-factor, three-level Box–Behnken design was employed to optimize the factors for the highest fat yield using 27 experimental runs. The optimized conditions were water-to-biomass weight ratio of 4.33:1, enzyme amount of 3.85%, enzymatic treatment temperature of 38.1 °C, and enzymatic treatment time of 4.27 h for a maximum fat yield of 36.09%. The extracted BSFL fat was then used as feedstock for producing biodiesel. Most properties of the synthesized biodiesel met American Society for Testing and Materials (ASTM) specification D6751 and European standard EN 14214. The enzyme-assisted extraction process was then proposed for use in large-scale operations to evaluate its economic feasibility, revealing promising industrial applications. This study suggests that the enzyme-assisted extraction is an efficient method for extracting insect fat, and the extracted fat has potential for use as oil for biodiesel production. DOI 10.1016/j.jclepro.2019.03.150 Field of Research 0907 Environmental Engineering 0910 Manufacturing Engineering 0915 Interdisciplinary Engineering HERDC Research category C1.1 Refereed article in a scholarly journal Persistent URL http://hdl.handle.net/10536/DRO/DU:30162170 Document type: Journal Article Collections: Faculty of Science, Engineering and Built Environment School of Life and Environmental Sciences Related Links Link Description Connect to published version Go to link with your DU access privileges   Connect to Elements publication management system Go to link with your DU access privileges     Unless expressly stated otherwise, the copyright for items in DRO is owned by the author, with all rights reserved. Versions Version Filter Type Thu, 03 Feb 2022, 07:18:27 EST Thu, 03 Feb 2022, 13:37:56 EST Fri, 04 Feb 2022, 07:06:34 EST Fri, 04 Feb 2022, 07:10:32 EST Fri, 04 Feb 2022, 07:16:04 EST Thu, 10 Mar 2022, 10:04:11 EST Thu, 10 Mar 2022, 12:44:19 EST Fri, 11 Mar 2022, 10:10:56 EST Filtered Full Citation counts:   Cited 27 times in TR Web of Science Cited 33 times in Scopus Search Google Scholar Access Statistics: 8 Abstract Views, 0 File Downloads  -  Detailed Statistics Created: Thu, 03 Feb 2022, 13:37:56 EST