Abstract
Background: Durian peel is a type of biomass waste that contains cellulose, hemicelluloses, and lignin. The pyrolysis of these compounds results in production of liquid smoke which can be used as a natural preservative to replace current synthetic preservatives. This research assessed the ability of liquid smoke produced during pyrolysis of durian peel to preserve fish. Methods: Dry durian peel waste underwent batch reactor pyrolysis at 340°C and 380°C, resulting in production of liquid smoke (grade 3), charcoal, and tar. This liquid smoke was then distilled at 190°C to produce grade 1 liquid smoke, which was used to preserve mackerel. The preservation process was conducted by soaking the mackerel samples in liquid smoke at 0.5, 1, 2, and 3% concentration levels followed by observations every 6 hours. Tests to determine the total volatile base nitrogen (TVB-N) content, antibacterial quality of the liquid smoke and organoleptic quality of the fish were conducted in order to assess the preservation properties of the liquid smoke. Results: Tests on the antibacterial effects showed that the liquid smoke inhibited the growth of Escherichia coli and Staphylococcus aureus on fish even at low concentrations. At 54 hours, the TVB-N values remained below 30 mg nitrogen/g, indicating that the fish was still safe for human consumption. Results from the organoleptic tests showed that the concentration of liquid smoke influenced the preservation effects. Conclusions: At a concentration of 2–3%, the fish samples possessed acceptable flavor, taste, color and texture for up to 48 hours of soaking. However, the best conditions were obtained with a 3% concentration of liquid smoke (produced with 340°C pyrolysis), as the fish was still considered acceptable for up to 42 hours.
Highlights
Indonesia is located at the equator and is rich in abundant plantation produce as well as other natural resources, such as durian
Durian peel contains a high level of cellulose (50–60%), starch (20%) and lignin[1], and has the potential to be used as a raw material for production of liquid smoke
This process occurs in various stages: (i) hemicelluloses are disintegrated at 200–315°C, resulting in formation of furan, acetic acid and its derivatives; (ii) cellulose is disintegrated at 240–350°C, resulting in carbonic acid formation; (iii) lignin is disintegrated at 280–500°C, resulting in production of phenol, phenolic ether and its derivatives[2]
Summary
Indonesia is located at the equator and is rich in abundant plantation produce as well as other natural resources, such as durian. Previous research[11,12,13] has shown that the liquid smoke produced from pyrolysis of palm kernel shells contained phenol, carbonyl and other acids These compounds have antimicrobial properties that can help preserve food[14,15,16,17]; they inhibit damaging and spoilage microbes and increase the shelf-life of food products. Durian peel is a type of biomass waste that contains cellulose, hemicelluloses, and lignin The pyrolysis of these compounds results in production of liquid smoke which can be used as a natural preservative to replace current synthetic preservatives. Methods: Dry durian peel waste underwent batch reactor pyrolysis at 340°C and 380°C, resulting in production of liquid smoke (grade 3), charcoal, and tar. Conclusions: At a concentration of 2–3%, the fish samples possessed version 5 (revision)
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