Non-invasive identification of food fluids from the outside of opaque containers by low-power ultrasound

IF 6.6 1区 农林科学 Q1 FOOD SCIENCE & TECHNOLOGY
Silvia Quintela-Antolinez , Benjamin Rubio-Garcia , Nekane Galarza-Urigoitia , Haritz Vallejo-Artola , Maria Carmen Villarán-Velasco , Jokin Rubio-Botía , Aitor Aranzabal- Maiztegui , Juan Cruz Iriondo-Arrizabalaga
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Abstract

Cleaning in place (CIP) is widely utilized in the beverage industry to clean and lower bacteria levels in pipelines, tanks, and other processing equipment without the need for disassembly or manual cleaning. In this process, it is crucial to distinguish between fluids to determine its duration and to minimize product and water losses. The feasibility of low-power ultrasound (LPU) as a suitable technology to perform an in-line and non-invasive method to identify different food fluids (orange juice, banana puree, banana & apple puree and water) in a stainless steel (SS) opaque container was studied. Different ultrasonic key parameters (time of flight difference (DTOF), gain 80 %, full screen high (FSH) and amplitude difference) have been analysed by using both pulse-echo (PE) and through-transmission (TT) techniques and also, different frequencies (1, 2.25 and 5 MHz). Furthermore, the temperature fluctuation influence on the ultrasound response was studied, considering a typical overall temperature range in industrial juice production (14 °C–22 °C). DTOF together with the temperature and amplitude, was the combination of key parameters able to distinguish all the analysed products. Finally, a simple and easily scalable at an industrial level methodology for non-invasive identification of food fluids is proposed. This work highlights the potential of LPU technology to distinguish and control food fluids in-line, in a harmless way for the products and in a non-invasive way for the facility. This would make such monitoring feasible in many situations where it would otherwise be impractical, thereby improving the efficiency of the processes involved.
用低功率超声对不透明容器外部的食物液体进行无创识别
就地清洗(CIP)在饮料行业被广泛用于清洁和降低管道、储罐和其他加工设备中的细菌水平,而无需拆卸或人工清洗。在此过程中,区分不同流体以确定其持续时间并最大限度地减少产品和水的损失至关重要。研究了低功率超声(LPU)作为一种适用于不锈钢(SS)不透明容器中不同食物液体(橙汁、香蕉泥、香蕉和苹果泥和水)的在线无创检测技术的可行性。利用脉冲回波(PE)和透传(TT)技术分析了不同的超声关键参数(飞行时间差(DTOF)、增益80%、全屏高(FSH)和幅值差)以及不同的频率(1、2.25和5 MHz)。此外,考虑到工业果汁生产中典型的整体温度范围(14°C - 22°C),研究了温度波动对超声响应的影响。dof与温度和振幅是能够区分所有被分析产品的关键参数组合。最后,提出了一种简单且易于扩展的工业级方法,用于食品流体的非侵入性鉴定。这项工作强调了LPU技术在以对产品无害和对设施无害的方式在线识别和控制食品流体方面的潜力。这将使这种监测在许多情况下是可行的,否则这种监测是不切实际的,从而提高有关过程的效率。
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来源期刊
LWT - Food Science and Technology
LWT - Food Science and Technology 工程技术-食品科技
CiteScore
11.80
自引率
6.70%
发文量
1724
审稿时长
65 days
期刊介绍: LWT - Food Science and Technology is an international journal that publishes innovative papers in the fields of food chemistry, biochemistry, microbiology, technology and nutrition. The work described should be innovative either in the approach or in the methods used. The significance of the results either for the science community or for the food industry must also be specified. Contributions written in English are welcomed in the form of review articles, short reviews, research papers, and research notes. Papers featuring animal trials and cell cultures are outside the scope of the journal and will not be considered for publication.
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