光子学酒精检测系统适用于Syari;ah合规食品和饮料

S. M. M. Maharom, N. Hussin, S. M. Idrus, A. Safar, N. Zulkifli
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引用次数: 3

摘要

在食品生产中,糖(一种碳水化合物)被广泛用于使食品或饮料尝起来甜美可口。天然饮料和人造饮料都可能含有少量酒精(特别是乙醇),因为糖基食品可发酵成酒精。因此,穆斯林消费者必须知道,伊斯兰教法规定的食品中允许的酒精含量只有0.01%。本工作的主要灵感是开发一种低成本且可靠的非酒精饮料酒精百分比检测器。研究了饮料对红外辐射在波长和频率范围内的响应特性。在所提出的模型中,饮料中乙醇的百分比直接通过使用近红外(NIR)吸收光谱的一阶导数来确定,其中使用的波长范围为1680 nm至1700 nm。在对近红外技术进行适当假设的基础上,利用Microsoft Excel和Microsoft Visual Basic对酒精检测系统进行了设计、建模和仿真。酒精检测系统的模型被发现对原型开发是实用的,因此该产品将帮助穆斯林消费者识别他们喝的饮料是否清真。
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Photonics alcohol detector system for Syari;ah compliance food and beverages
In food production, sugars (a type of carbohydrate) are widely used to make the food or beverages taste sweet and delicious. Both natural and manufactured beverages may contain a small amount of alcohol (specifically ethanol) as sugar based food is fermentable into alcohol. Therefore, Muslim consumers must be aware that the allowable percentage of alcohol to exist in the food as mentioned by the Shari'ah is only 0.01%. The main inspiration of this work is to develop a low cost yet reliable alcohol percentage detector for non-alcoholics beverages. The optical properties of beverages that respond to the infrared radiation in the optical wavelengths and frequencies range are thoroughly studied. In the proposed model, percentage of ethanol in the beverages is directly determined by using the first derivative of near-infrared (NIR) absorbance spectrum where the range of wavelength used is from 1680 nm to 1700 nm. By making suitable assumptions of the NIR technique, the alcohol detector system was designed, modeled and simulated by using Microsoft Excel and Microsoft Visual Basic. The model of the alcohol detector system was found to be practical for prototype development and hence the product would help the Muslim consumers to indentify whether the beverages they consumed Halal or not.
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