Probabilistic-Mechanistic Evaluation of a Hybrid Drying System Using l1 Norm Regularisation: Simultaneous Ohmic Heating and Convection Drying

IF 2 3区 农林科学 Q3 FOOD SCIENCE & TECHNOLOGY
Sebahattin Serhat Turgut, Erdogan Kucukoner, Erkan Karacabey, Aberham Hailu Feyissa
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引用次数: 0

Abstract

Ohmic-assisted drying (OAD) is a novel drying system that combines ohmic heating and convection drying simultaneously. The present study is aimed at evaluating the mechanism of OAD system behaviours against the combined impact of operational and model uncertainties. Moreover, the dynamic (time-dependent), as well as static (end-of-drying) spatial homogeneity of the model predictions, was quantitatively described for the first time in the literature using Buzas and Gibson’s evenness value (an α-diversity index). The Monte Carlo simulation approach was used to propagate the uncertainty of randomly selected input variables using the Halton sequence sampling method. Mechanistic models include input uncertainties that lead to deviations in model estimations. Both time-dependent and independent global sensitivity of moisture, sample temperature, sample’s internal pressure, their spatial homogeneity, and drying time were assessed using Lasso regression (a variable selection method that penalises the coefficients using l1 norm). The stochastic results of the mechanistic investigation showed that the effects of the input variables are almost identical both as static and time-dependent variables. Lasso regression results indicated that operational and model uncertainties cause varying changes in the magnitude and direction of the stochastic model predictions throughout the process. By contrast, the homogeneity properties of the dry product are not caused by these variations and heterogeneous distribution of the electric field. Additionally, electrical conductivity, oven temperature, applied voltage, and initial moisture were found to be the variables which have the most significant effect on all the variables which were examined in terms of operational and model uncertainties. Practical Applications. The present study investigates the stochastic behaviour of the OAD system through the mechanistic model and using a probabilistic modelling approach. To the best of our knowledge, in addition to being the first study to probabilistically evaluate the OAD system, we are introducing Buzas and Gibson’s evenness value for the first time in the food science/technology literature. This measure serves as a numerical indicator of the spatial distribution homogeneity of the physical properties of the sample. The study’s findings and proposed methodologies will have further applications not only for researchers but also for manufacturers, particularly for those involved in the design and analysis of new drying and food systems in general. Moreover, the presented methods and novel homogeneity measures are generic tools; they can be easily adapted to other process improvement practices involving input/output uncertainty/variability.

使用 l1 Norm 正则化对混合干燥系统进行概率-机械评估:同时进行欧姆加热和对流干燥
欧姆辅助干燥(OAD)是一种新型干燥系统,它同时结合了欧姆加热和对流干燥。本研究旨在评估欧姆辅助干燥系统在操作和模型不确定性综合影响下的行为机制。此外,文献中首次使用 Buzas 和 Gibson 的均匀度值(α 多样性指数)对模型预测的动态(随时间变化)和静态(干燥结束)空间均匀性进行了定量描述。采用蒙特卡罗模拟方法,利用 Halton 序列采样法传播随机选择的输入变量的不确定性。机理模型包括输入的不确定性,这些不确定性会导致模型估计值出现偏差。使用 Lasso 回归法(一种使用 l1 准则对系数进行惩罚的变量选择方法)评估了水分、样品温度、样品内部压力、其空间均匀性和干燥时间的时间依赖性和独立全局敏感性。机理研究的随机结果表明,输入变量对静态变量和时间变量的影响几乎相同。拉索回归结果表明,在整个过程中,操作和模型的不确定性会导致随机模型预测的大小和方向发生不同的变化。相比之下,这些变化和电场的异质分布并不影响干制品的均匀性。此外,电导率、烘箱温度、外加电压和初始湿度被认为是对所有变量影响最大的变量,这些变量都是在操作和模型不确定性方面进行研究的变量。实际应用。本研究通过机械模型和概率建模方法研究了 OAD 系统的随机行为。据我们所知,除了是第一项对 OAD 系统进行概率评估的研究外,我们还首次在食品科学/技术文献中引入了 Buzas 和 Gibson 的均匀度值。该指标是衡量样本物理特性空间分布均匀性的数字指标。这项研究的发现和提出的方法不仅将进一步应用于研究人员,也将应用于生产商,特别是参与设计和分析新型干燥和食品系统的人员。此外,所介绍的方法和新颖的均匀性测量方法都是通用工具;它们可以很容易地应用于涉及输入/输出不确定性/变异性的其他流程改进实践。
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来源期刊
CiteScore
5.30
自引率
12.00%
发文量
1000
审稿时长
2.3 months
期刊介绍: The journal presents readers with the latest research, knowledge, emerging technologies, and advances in food processing and preservation. Encompassing chemical, physical, quality, and engineering properties of food materials, the Journal of Food Processing and Preservation provides a balance between fundamental chemistry and engineering principles and applicable food processing and preservation technologies. This is the only journal dedicated to publishing both fundamental and applied research relating to food processing and preservation, benefiting the research, commercial, and industrial communities. It publishes research articles directed at the safe preservation and successful consumer acceptance of unique, innovative, non-traditional international or domestic foods. In addition, the journal features important discussions of current economic and regulatory policies and their effects on the safe and quality processing and preservation of a wide array of foods.
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