梨木热解影响液态烟雾中多环芳烃的质量和水平。

IF 2.1 4区 农林科学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Mingwu Qiao , Fei Wang , Shaohua Meng , Yufei Liu , Lianjun Song , Jiansheng Zhao , Yan Ma , Guanghui Zhao , Xianqing Huang , Dan Hai
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引用次数: 0

摘要

梨木熏鸡是中国的传统美食,但在熏制过程中会产生多环芳烃(PAHs)。我们开发了一种梨木液态烟的热解工艺,可将多环芳烃的生成量降至最低。在自制的热解反应器中,在不同的热解条件下制备了梨木液态烟雾产品,并评估了总酚、羰基化合物、总酸和多环芳烃的含量以及多环芳烃的毒性风险。随着温度的升高,烟液的毒性当量ΣPAH 达到了 3.004 μg/kg。随着颗粒尺寸的增大,总酚含量达到 1.6 mg/mL;酚含量为 5.95 mg/mL。随着颗粒尺寸的增大,烟液的毒性当量 ΣPAHs 达到 2.441 μg/kg。在热反应装置中处理梨木烟液的最佳参数是梨木热解温度大于 350℃、粒度为 S2、蔗糖含量为 8%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Pear Wood Pyrolysis Influences Quality and Levels of Polycyclic Aromatic Hydrocarbons in Liquid Smoke

Limu smoked chicken is a traditional Chinese delicacy; however, polycyclic aromatic hydrocarbons (PAHs) are generated during the smoking process. We developed a pyrolysis process for pear wood liquid smoke with minimal PAH generation. Pear wood liquid smoke products were prepared under different pyrolysis conditions in a self-made pyrolysis reactor, and the total phenol, carbonyl compound, total acid, and PAH contents and PAH toxicity risk were evaluated. With increasing temperatures, the toxicity equivalent ΣPAH of the smoke liquid reached 3.004 μg/kg. With increasing particle sizes, the total phenol content reached 1.6 mg/mL; the phenol content was 5.95 mg/mL. With increasing particle sizes, the toxicity equivalent ΣPAHs of the smoke liquor reached 2.441 μg/kg. The optimal parameters for treating pear wood smoke liquid in the thermal reaction device were a pyrolysis temperature of pear wood of >350 °C, particle size of S2, and sucrose content of 8%.

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来源期刊
Journal of food protection
Journal of food protection 工程技术-生物工程与应用微生物
CiteScore
4.20
自引率
5.00%
发文量
296
审稿时长
2.5 months
期刊介绍: The Journal of Food Protection® (JFP) is an international, monthly scientific journal in the English language published by the International Association for Food Protection (IAFP). JFP publishes research and review articles on all aspects of food protection and safety. Major emphases of JFP are placed on studies dealing with: Tracking, detecting (including traditional, molecular, and real-time), inactivating, and controlling food-related hazards, including microorganisms (including antibiotic resistance), microbial (mycotoxins, seafood toxins) and non-microbial toxins (heavy metals, pesticides, veterinary drug residues, migrants from food packaging, and processing contaminants), allergens and pests (insects, rodents) in human food, pet food and animal feed throughout the food chain; Microbiological food quality and traditional/novel methods to assay microbiological food quality; Prevention of food-related hazards and food spoilage through food preservatives and thermal/non-thermal processes, including process validation; Food fermentations and food-related probiotics; Safe food handling practices during pre-harvest, harvest, post-harvest, distribution and consumption, including food safety education for retailers, foodservice, and consumers; Risk assessments for food-related hazards; Economic impact of food-related hazards, foodborne illness, food loss, food spoilage, and adulterated foods; Food fraud, food authentication, food defense, and foodborne disease outbreak investigations.
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