液液萃取气相色谱-串联质谱法测定含油半固体食品中19种邻苯二甲酸酯类化合物

建立液液萃取结合气相色谱-串联质谱法测定含油半固体食品中19种邻苯二甲酸酯类化合物含量。样品经正己烷饱和的乙腈提取,提取液与乙腈饱和的正己烷液液萃取净化,采用HP-5MS色谱柱分离,多反应监测模式定量分析。19种邻苯二甲酸酯类化合物的质量浓度在20~1000μg/L范围内线性相关系数均大于0.9993,方法检出限为0.0012~0.060 mg/kg,定量限为0.0036~0.18 mg/kg,0.2、1.0、7.5 mg/kg低、中、高三水平加标试验的平均回收率为81.2%~100.7%,测定结果的相对标准偏差为0.9%~5.7%(n=6)。该方法适用于含油半固体食品中19种邻苯二甲酸酯类化合物的定量分析。

气相色谱质谱法测定聚乳酸食品接触材料中丙交酯的迁移量

建立气相色谱质谱联用法(GC-MS)测定聚乳酸食品接触材料中丙交酯迁移量的方法。橄榄油模拟物经过乙腈提取,离心分层与过滤后,使用GC-MS测试分析;异辛烷模拟物过滤后直接使用GC-MS测试分析。该法实现了聚乳酸食品接触材料中丙交酯迁移量的测定,检出限为0.01 mg/kg,加标回收率为80.0%~120.0%,相对标准偏差为2.6%~6.6%(n=6)。运用该方法对7款聚乳酸(PLA)食品接触材料的实际样品进行测定,丙交酯的整体检出率为85.7%,迁移量的检出范围为0.033~1.1 mg/kg。该方法灵敏度、回收率和准确度高,检测限能够满足法规判定要求,可用于PLA食品接触材料中丙交酯迁移量的实际检验工作。实际样品检测结果表明,PLA样品中的丙交酯迁移量检出率较高,需引起安全关注。相对于替代溶剂异辛烷,由于橄榄油迁移温度较高,样品的橄榄油迁移量比替代条件下异辛烷的迁移量高。

肉制品废水AO生化处理工艺调试研究

中国人无法停下对美食追求的脚步,越来越多的工厂为了制作美食崛地而起。在我国快速发展食品工艺的同时,水污染也成了一个不可忽视的问题,净化废水成为迫在眉睫的一件事情。课题组采用改进的AO工艺法对红毛鸡爪厂的废水进行处理,文章在原水水质分析的基础上,采用三阶段法对项目的水质工程进行调试分析。研究结果表明低负荷挂膜;提负荷适应;原水适应的三阶段调试方法,成功进行了工程项目调试。挂膜效果明显,镜检发现了漫游虫、轮虫、钟虫等指示污泥系统的改善及指示污泥处理效果好的微生物,废水中的总磷、氨氮、SS、CODCr去除效果明显,且结果显示调试后排出的废水达到(GB18918-2002)《城镇污水处理厂污染物排放标准》一级排放标准。

自动电位滴定仪在油脂酸价检测中的应用

酸价是油脂或含油食品酸败程度的衡量指标,冷溶剂自动电位滴定仪检测油脂或含油食品中酸价应用范围广泛。通过突跃曲线pH范围值、阈值、人工辅助识别突跃点等试验,得出自动电位滴定仪关键参数科学合理的设定值:突跃点pH范围设为7~11、仪器阈值设为1等,并辅以人工辅助识别突跃点的方法,探讨自动电位滴定仪使用注意事项,用于指导酸价检测工作。

迷迭香天然食用抗氧化剂的性能试验

本文试验了自制迷迭香天然食用抗氧化剂用于常见油脂及某些含油食品的抗氧化效果,证明它是一种安全、高效、价廉、广谱的抗氧化剂。

可微波冷冻预油炸面拖食品的研制

研究预油炸冷冻面拖食品在微波加热后的浸湿问题,采用 正交实验法和单因素实验法,以产品脆性和含油率为主 要考察指标,筛选出适合微波炉重制的面拖配方。实验结 果表明,当面拖配方中小麦粉、Crispcoat 868、Crispioca、 Hvlon Ⅶ以1:0.43:0.1:0.47的比例加入,另外基于100g 淀粉类配料添加大豆分离蛋白4.5g、CaCl20.24g、黄原胶 1.5g、油27g、小苏打0.83g、焦磷酸盐1.16g时具有较好的 效果,此冷冻预油炸食品经过一个月冻藏后用微波炉加 热仍然有较好的脆性。

浅谈餐饮行业污水排放管理

分析了餐饮业污水排放特点和现状,介绍了餐饮业污水处理的方法,提出了餐饮业污水排放管理的措施。

分散固相萃取-气相色谱-串联质谱法测定油脂食品中33种增塑剂

建立了分散固相萃取-气相色谱-串联质谱同时测定含油食品中33种增塑剂的检测方法。样品经乙腈提取后,上清液经分散固相萃取(dSPE)净化后浓缩。选用DB-5ms非极性毛细管色谱柱对待测物进行分离,经EI离子源电离后以多反应监测(MRM)模式采集数据并做定性筛查和定量分析。33种增塑剂在相应的浓度范围内线性关系良好,相关系数均大于0.99,对4类典型代表的油脂食品进行加标试验,平均回收率85-106%,相对标准偏差RSD在1.13-6.28%,检出限(LOD,S/N=3)为0.010-0.316mg/kg。该方法成本低廉、灵敏度可靠,适用于同时对油脂食品中33种增塑剂进行定性和定量测定。

Factors Determining the Detection Time to Flavor in Healthy Adults

This study analyzed the factors responsible for determining the flavor detection time for chewed semi-solid foods. Thirteen healthy young adults (eight males and five females) were asked to chew gummy candies with five different fruit flavors (i.e., apple, grape, orange, pear, and strawberry) in a random order. The detection time to flavor was measured using an electromyography-based system, which was recently developed by the authors. Briefly, each participant was recorded with surface masseter electromyograms on both sides to determine the start of chewing. Each participant was asked to press a button as soon as possible with his/her preferred hand after detecting the flavor. The time elapsed between the start of chewing and the button press was measured. Two taste components, sugars and organic acids, of the gummy candies were chemically analyzed, and two major sugars and organic acid were individually detected. The odor intensity was also analyzed for the gummy candies. The average detection time significantly differed among the five gummy candies and among the participants. Simple regression analyses revealed that the intensity of the odors was significantly associated with the average time intervals, but the amounts of the two major sugars and the organic acids were not. The analysis yielded the following equation for the regression estimation:?? (y = the time interval, x = the intensity of odors). The results suggest that the intensity of odors of the gummy candies, not the taste components, is responsible for determining the flavor detection time.

An Electromyography-Based System for Measuring the Flavor Detection Time in Healthy Adults

This study aimed to develop a system to measure the flavor detection time for chewed solid and semi-solid foods. Twelve healthy young adults (seven males and five females) were asked to chew gummy candies with three different fruit flavors (grape, lemon, and pineapple) in a random order while their masseter activities were recorded by surface electromyograms on their habitual working and non-working sides. The participants were also asked to press a button as soon as possible with their preferred hand once they detected the flavor. The time interval between the start of chewing and the button press was measured;the start of chewing was defined as the start of a burst in the masseter electromyogram on the habitual working side. The average interval ranged from 2.82 s (lemon in males) to 4.63 s (grape in males);no significant differences were found between the three tested gummy candies or between the sexes of the participants. The present system can perform the measurements of the following two conventional measurement systems: 1) simple reaction time task for the taste and olfactory stimuli of fluids and vapors, respectively, and 2) time-intensity analysis of the flavor from solid and semi-solid foods, which does not generally consider the flavor detection time.

含油食品中塑化剂快速检测

本试验利用乙腈提取塑化剂，氮吹浓缩后甲醇定容通过气相色谱一质谱联用仪测定。试验结果表明：该测定方法的加标回收率在89．1％-104．8％，RSD为1．01％～3．19％，与GB／T2191-2008标准中规定的方法相比相差无几，但样品的处理时间更短，操作方便、经济、快速，适合在基层实验室做大量样品筛选时选用。

含油食品加工废水处理工程方案设计研究

食品加工过程中会产生含油废水,尤其是含油类食品。这些废水处理不当会对生态环境造成严重影响,并且当前食品加工类的含油废水排放标准相对较低,人们对其的关注也相对较少。为了更好地推进环境保护工作,我们需要加强对含油类食品加工废水处理工程的研究,减少含油废水对生态环境以及人类健康造成的破坏,加强对自然环境的保护。

液相色谱-质谱法测定油性食品模拟物中月桂内酰胺迁移量

本研究建立了油性食品模拟物和化学替代溶剂中月桂内酰胺迁移量的检测方法。油性食品模拟物中月桂内酰胺用乙腈提取,而后用固相萃取小柱提纯;95%乙醇中月桂内酰胺直接测定;异辛烷中月桂内酰胺用氮吹除溶剂,而后用乙腈复溶;提取的月桂内酰胺用C18色谱柱分离,而后用质谱分析,采用外标法定量。结果显示,油基食品模拟物中月桂内酰胺的检出限为0.002 mg/kg,定量限为0.006 mg/kg。在6.0~75.0μg/kg浓度范围内线性关系良好,相关系数均大于0.999。在3个浓度水平下重复测定月桂内酰胺加标食品模拟物,回收率为83.0%~104.7%,相对标准偏差(RSD)为1.8%~6.4%(n=6)。该方法操作便捷,灵敏度高,精密度良好,适用于食品接触材料油性食品模拟物及其替代溶剂中月桂内酰胺迁移量的测定。

三重四级杆气质联用法测定食品中的氯丙醇酯

目的建立三重四级杆气质联用法（GC-MS/MS）检测含油食品中一氯丙二醇酯的方法,对市售的多类食品进行调查,为公众健康做指引。方法油脂经皂化、固相萃取净化后由GC-MS/MS测定。色谱柱为DB-WAX;载气为氦气,流速为1.0 ml/min,恒流模式;进样口温度为210℃（脉冲不分流进样）;柱温从50℃保持3 min,以10℃/min升至170℃,再以40℃/min升至250℃/min,并保持2 min,后运行250℃、3 min;接口温度为250℃;离子源类型为EI,离子源温度为280℃;反应监测模式（MRM）检测。对本地市售食用植物油、方便面和糕点中的氯丙醇酯进行检测。结果玉米油中加标回收率为92.3%~101.0%,相对标准偏差（RSD）为0.6%~2.3%,3-MCPD、2-MCPD的检出限分别为10μg/kg、5μg/kg。实际样本检测发现,糕点中氯丙醇酯含量相对偏高。结论本文所建方法快捷、灵敏、准确,适用于含油食品中一氯丙二醇酯的检测。