Production of Liquid Smoke From the Process of Carbonization of Durian Skin Biomass, Coconut Shell and Palm Shell for Preservation of Tilapia Fish

Sari, Ellyta; Khatab, Umar; Burmawi,; Rahman, Elly Desni; Afriza, F.; Maulidita, A.; Desti, V.

doi:10.1088/1757-899x/543/1/012075

Cited by 4 publications

(5 citation statements)

References 2 publications

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“…The pH value represents a crucial parameter used to gauge the quality of the distillation product, offering valuable insights into the chemical decomposition processes within coconut shells that yield organic acids present in liquid smoke [21]. Previous research endeavours have shed light on this aspect; Anggraini and Yuniningsih [22] reported a pH value of 1.41 for liquid smoke derived from coconut shells, while Sari et al, [15] observed a pH value of 2.4 for coconut shell liquid smoke subjected to redistillation using the vacuum method at 81°C. Further research by Saloko et al, [23] yielded a pH value of 2.54 for the redistillation of coconut shell liquid smoke at 98±2°C.…”

Section: Ph Value Of Coconut Shell Liquid Smoke Distillation Productmentioning

confidence: 99%

“…The initial phase targets the removal of harmful compounds, while a subsequent redistillation stage seeks to isolate pure phenol compounds. Phenol's diverse attributes, encompassing antioxidative, antibacterial, and antifungal properties, extend its potential utility to food preservation [9,[12][13][14][15][16]. Thus, the study's primary objective is to establish optimal conditions that yield enhanced quantities of coconut shell liquid smoke, simultaneously maximizing phenol content.…”

Section: Introductionmentioning

confidence: 99%

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Characterization of Distillation and Redistillation Product of Coconut Shell Liquid Smoke at Various Temperatures

Novi Caroko,

Indah Hartati

2024

ARFMTS

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This study investigates the impact of distillation temperature on phenol content in coconut shell liquid smoke, a product derived from pyrolysis and subsequent condensation processes. Liquid smoke, renowned for its versatile applications including preservation, antioxidation, antiseptic, and antibacterial properties, necessitates distillation for both quality enhancement and safety. The research comprises a two-stage distillation, featuring 11 temperature variations (100-150°C) in the first stage and 9 variations (75-155°C) in the second stage. Characterization involves pH assessment and Gas Chromatography-Mass Spectrometry (GC-MS) analysis to identify chemical components. The pH range in the initial distillation stage spans 1.18-1.30, and the second stage ranges from 1.11-1.39. GC-MS analysis of raw coconut shell liquid smoke reveals 25 components, including phenol, furan, ketone, acid, alcohol, benzenediol and derivatives, alkyl aryl ether, deoxycytidine, and silicone grease. GC-MS evaluation is conducted on products of the first stage at 125 and 135°C, and the second stage products at 145 and 155°C. In the first distillation stage, liquid smoke contains phenol and assorted compounds. Conversely, the second stage yields purer phenol compounds. The findings suggest potential applications of the redistillation product as raw material in food preservation, antiseptics, and insecticides.

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Section: Ph Value Of Coconut Shell Liquid Smoke Distillation Productmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Characterization of Distillation and Redistillation Product of Coconut Shell Liquid Smoke at Various Temperatures

Novi Caroko,

Indah Hartati

2024

ARFMTS

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“…Proses pengolahan ikan asap secara tradisional masih menggunakan sistem terbuka. Kekurangan pengasapan ini antara lain penampakan ikan kurang menarik, kesulitan dalam mengontrol suhu, dan menimbulkan polusi udara (Sari et al, 2019). Proses pengasapan terbuka juga beresiko terkontaminasi oleh debu kotoran atau mikroorganisme yang dapat menghasilkan produk yang kurang higienis sehingga tidak aman dikonsumsi (Ibanga et al, 2019).…”

Section: Daftar Rujukanunclassified

Pengaruh berbagai sumber pengasapan terhadap kadar protein, mikrobiologis dan organoleptik ikan nila (Oreochromis niloticus) asap

et al. 2022

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One of the processes of smoking fish is using organic materials. Smoking also gives a good flavor and aroma. Smoked fish can be consumed directly and also processed further. The study aimed to measure the effect of various smoke sources on microbiological, organoleptic and protein levels of smoked tilapia. The research design was experimental with a Randomized Control Trial (RCT) using coconut husk, rice husk, and bamboo leaf smoke sources. The research was conducted at the Organoleptic Laboratory of the Department of Nutrition, Health Polytechnic of Aceh, Ministry of Health, in 2021. Fish smoking uses three smoke sources burning coconut fiber, bamboo leaves and rice husks in aluminum smoke tubes. Microbiological tests and protein content in the Laboratory of the Balai Pengujian dan Sertifikasi Mutu Barang (BPSMB). Data analysis using ANOVA and Duncan tests at 95% CI. The results showed that smoking tilapia with three smoke sources had a significant effect on color, taste and aroma and protein content (p<0,05) but had no significant effect on texture and microbial count of smoked tilapia (p>0,05). In conclusion, rice husk smoked tilapia was most preferred in terms of color, taste, texture and aroma. Coconut husk smoked tilapia has the highest protein content and lowest microbial count.

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“…The liquid smoke resulting from pyrolysis is then purified by the distillation method. 500 mL of liquid smoke, then boiled to a temperature of 100˚C [20]. From the process of making liquid smoke, there are three types of liquid smoke solutions with different boiling points, namely liquid smoke without distillation (A) at 0˚C -400˚C, liquid smoke residue (B) at 100 0 C -400˚C and liquid smoke distillate (C) 0˚C -100˚C.…”

Section: ) the Procedures Of Making Liquid Smokementioning

confidence: 99%

Characteristics and Chemical Compounds Liquid Smoke of Mangrove Stem Bark Waste from Charcoal Industry

Idiawati¹,

Monica²,

Sofiana³

et al. 2021

Journal of Southwest Jiaotong University

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In Batu Ampar, the charcoal industry, West Kalimantan, used Rhizophora sp. mangrove to produce liquid acid with mangrove stem bark waste as a side product. Pyrolysis of liquid smoke of mangrove stem bark waste at a temperature of 4000C for 6 hours resulted in a yield of 33.97% with pH, specific gravity, and color were 2.8, 1.004, and brown, respectively. Analysis of GC-MS showed that liquid smoke without distillation has 16 chemical compounds where the main components were acetone (12.32%), acetic acid (11.62%), 2-furancarboxaldehyde (26.72%), 5-methyl furfural (13.87%) and phenol, 2-methoxy (13.31%). Furthermore, this liquid smoke is distilled at 1000C to produces residual liquid smoke and distillate liquid smoke. The residual liquid smoke resulted in a yield of 95.8% with characteristics of pH, specific gravity, and color were the lowest 2.73, 1.004, and dark brown, respectively. The liquid smoke residue contained 12 chemical compounds where the main components were butanal, 3-hydroxy- (17.46%), acetone (17.15%), acetic acid (32.27 %), and 2-furancarboxaldehyde (13.28%). Distillate liquid smoke resulted in a yield of 4.2% with pH, specific gravity, and color characteristics, which were 2.8, 1.001, and yellow, respectively. This liquid smoke contained nine chemical compounds, with the main components were ethyl ester (26.69%) and ethylene glycol (64.70%). Based on the GC-MS data, the liquid smoke from mangrove leather waste did not contain poly-aromatic hydrocarbon (PAH) or benzopyrene compounds.

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Production of Liquid Smoke From the Process of Carbonization of Durian Skin Biomass, Coconut Shell and Palm Shell for Preservation of Tilapia Fish

Cited by 4 publications

References 2 publications

Characterization of Distillation and Redistillation Product of Coconut Shell Liquid Smoke at Various Temperatures

Characterization of Distillation and Redistillation Product of Coconut Shell Liquid Smoke at Various Temperatures

Pengaruh berbagai sumber pengasapan terhadap kadar protein, mikrobiologis dan organoleptik ikan nila (Oreochromis niloticus) asap

Characteristics and Chemical Compounds Liquid Smoke of Mangrove Stem Bark Waste from Charcoal Industry

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