Utilization of kitchen food waste for biodiesel production

Abstract Hermetia illucens L. (the black soldier fly) has received increased attention because of its great potential in converting organic waste into a renewable resource. The prepupae have high proportions of proteins and fats and can serve as feedstuff for livestock and as feedstock for biodiesel production. With the goal to upgrade the conversion of low-value organic wastes into high-value proteins and fat on a large scale, the effects of the feedstuffs food waste, pig manure, chicken manure, and cow dung on the reproductive potential and nutrient composition of H. illucens were evaluated. The intrinsic rate of increase of H. illucens fed food waste (0.1249 d−1) was significantly greater than the rate of those fed pig manure (0.1167 d−1), chicken manure (0.1154 d−1), and cow dung (0.1049 d−1). The ash content of H. illucens fed food waste (30.8 g·kg−1 lyophilized prepupa matter (LPM)) was significantly lower than that of those fed chicken manure (37.6 g·kg−1 LPM) and cow dung (49.5 g·kg−1 LPM). The contents of crude fat, 372.4 g·kg−1 LPM, and protein, 436.9 g·kg−1 LPM, in prepupae fed food waste were the highest among the four treatments. The reproductive performance and prepupal nutrient composition indicated that food waste was the most suitable feed for H. illucens. The results from this study further demonstrate that the prepupae of H. illucens have great potential for use as a protein and fat source in animal feeds and as biodiesel material.

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Lipids from food waste as feedstock for biodiesel production: Case Hong Kong

Lipid Technology ◽

10.1002/lite.201400044 ◽

2014 ◽

Vol 26 (9) ◽

pp. 206-209 ◽

Cited By ~ 27

Author(s):

Sanjib Kumar Karmee ◽

Carol Sze Ki Lin

Keyword(s):

Hong Kong ◽

Food Waste ◽

Biodiesel Production

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Single phase blend: An advanced microwave process for improved quality low-cost biodiesel production from kitchen food waste

Biochemical Engineering Journal ◽

10.1016/j.bej.2018.06.006 ◽

2018 ◽

Vol 137 ◽

pp. 273-283 ◽

Cited By ~ 8

Author(s):

Deepayan Priyadarshi ◽

Kakoli Karar Paul

Keyword(s):

Food Waste ◽

Single Phase ◽

Low Cost ◽

Biodiesel Production ◽

Microwave Process

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Simultaneous treatment of food-waste recycling wastewater and cultivation of Tetraselmis suecica for biodiesel production

Bioprocess and Biosystems Engineering ◽

10.1007/s00449-015-1380-0 ◽

2015 ◽

Vol 38 (7) ◽

pp. 1393-1398 ◽

Cited By ~ 8

Author(s):

Sung-Woon Heo ◽

Byung-Gon Ryu ◽

Kibok Nam ◽

Woong Kim ◽

Ji-Won Yang

Keyword(s):

Food Waste ◽

Waste Recycling ◽

Biodiesel Production ◽

Tetraselmis Suecica ◽

Simultaneous Treatment ◽

Food Waste Recycling

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Optimization of Feed Components to Improve Hermetia illucens Growth and Development of Oil Extractor to Produce Biodiesel

Animals ◽

10.3390/ani11092573 ◽

2021 ◽

Vol 11 (9) ◽

pp. 2573

Author(s):

Kyu-Shik Lee ◽

Eun-Young Yun ◽

Tae-Won Goo

Keyword(s):

Weight Gain ◽

Food Waste ◽

Low Cost ◽

Animal Manure ◽

Waste Cooking Oil ◽

Fat Content ◽

Biodiesel Production ◽

Chicken Manure ◽

Livestock Feed ◽

Optimal Feed

HIL are useful in agriculture because they can be used as feed for livestock or fertilizer and can bioconvert organic wastes, such as food waste and human and animal manure to usable fertilizer. In addition, HIL are being studied as a source of biodiesel because of their high-fat content. However, their use for biodiesel production has not been fully adopted. Here, the results showed that survival, weight gains, and total dried weight were significantly enhanced when HIL were fed dried-food waste (DFW)/chicken manure (CM). Furthermore, increased weight gain was observed in HIL fed DFW containing 5 mL waste cooking oil (WCO) per 100 g and 1.2% (v/w) fermented effective microorganism (F-EM). Based on these results, we prepared experimental feeds containing DFW, CM, WCO, and F-EM to establish an optimal feed for biodiesel production. We found that FT-1-2, a feed prepared with 60 g DFW, 40 g CM, 2 mL WCO, and 0.8% F-EM (v/w), significantly enhanced fat content, weight gain, and total dried weight of HIL. Our results indicate FT-1-2 is a suitable feed to breed HIL for biodiesel production. We then developed an automatic oil extractor for biodiesel production. The yield of the oil extractor was higher than that of solvent extraction. The study shows FT-1-2 is an optimal HIL feed for biodiesel production and that the developed oil extractor is useful for the extraction of crude oil from HIL and for the harvesting of defatted HIL frass for livestock feed and fertilizer. Taken together, we established an optimized low-cost feed for HIL breeding and developed an automatic oil extractor for the production of biodiesel from HIL.

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