热风烘干关键因素对浒苔物理特性的影响OA
Effects of key factors in hot air drying on the physical properties of Ulva prolifera
[目的]探究浒苔在热风干燥过程中的品质变化规律.[方法]考察热风温度、风速及物料厚度3个关键烘干因素对浒苔物理特性(含水率、孔隙率、比热容及热导率)的影响.通过单因素试验与多因素相关性分析相结合的方法,明确各因素的影响规律,并构建偏最小二乘回归预测模型.[结果]升高温度可显著降低浒苔含水率,提高孔隙率和比热容,同时使热导率呈下降趋势;风速增大能有效促进水分脱除和孔隙结构形成,对降低热导率作用显著;物料厚度对热导率的影响最为突出,厚度增加会抑制孔隙结构发展.皮尔逊相关性表明,浒苔各物理特性之间均存在显著相关性.基于偏最小二乘回归建立的物理特性的预测模型,其中含水率、孔隙率、比热容、热导率的 R2 值分别为 96.8%,97.6%,94.2%,95.2%,模型拟合良好,准确性较高,验证实验证实模型可靠.[结论]热风温度、风速及物料厚度对浒苔物理特性的影响规律,可以为浒苔工业化干燥工艺优化与品质调控提供参考.
[Objective]To explore the quality change patterns of Ulva prolifera during the hot air drying process.[Methods]The effects of three key drying factors(hot air temperature,air velocity,and material thickness)on the physical properties of U.prolifera(including moisture content,porosity,specific heat capacity,and thermal conductivity)are systematically investigated.Then,the influence patterns of each factor are clarified by single-factor experiments combined with multi-factor correlation analysis.Finally,a partial least squares regression prediction model is constructed.[Results]An increase in temperature significantly reduces the moisture content,increases porosity and specific heat capacity,while causing a downward trend in thermal conductivity.An increase in air velocity facilitates water removal and pore structure formation,significantly reducing thermal conductivity.The effect of material thickness on thermal conductivity is the most prominent,as increased thickness inhibits pore structure development.Pearson correlation analysis indicates significant correlations between the physical properties of U.prolifera.A prediction model on physical properties is constructed based on partial least squares,with R2 values of 96.8%,97.6%,94.2%,and 95.2%for moisture content,porosity,specific heat capacity,and thermal conductivity,respectively.The model fits well and exhibits high accuracy,confirmed to be reliable by the verification test.[Conclusion]The influence patterns of temperature,air velocity,and material thickness on the physical properties of U.prolifera provide a reference for industrial drying process optimization and quality control.
王震;杨进
江苏海洋大学机械工程学院,江苏 连云港 222005江苏海洋大学机械工程学院,江苏 连云港 222005
浒苔热风烘干装置物理特性含水率相关性分析偏最小二乘回归分析
Ulva proliferahot air drying devicephysical propertymoisture contentcorrelation analysispartial least squares regression analysis
《食品与机械》 2026 (3)
183-188,6
江苏省现代农机装备与技术推广项目(编号:NJ2025-13)
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