Determination of kelp (Laminaria digitata) technological characteristics depending on the drying method

Mikhail Ershov, Ludmila Kuranova, Irina Smirnova, Julia Alloyarova
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Abstract

The paper considers four methods of drying kelp ( Laminaria digitata ): convective dehydration at an air temperature of minus 5 oС, relative air humidity of 55 and 90 %; vacuum drying at a metal carrier temperature of 20°C and a vacuum depth of 250 Pa; convective dehydration at an air temperature of 20°C and a relative air humidity of 35 %. In dried algae, the final moisture content, water activity, and strength characteristics were evaluated. To determine the swelling coefficient, dry algae were pre-crushed. It was established that at a temperature of minus 5°C and a relative air humidity of 90 %, dehydration had an unsatisfactory result in terms of the final moisture content of the finished product 27.4 %. This type of drying at a relative air humidity of 55 % provides a final moisture content of the product (12.3 ± 0.48) % and a relatively high swelling coefficient of 6.9. Algae, dehydrated at minus 5°C, had elastic properties, in contrast to other considered methods. Vacuum drying made it possible to obtain the minimum final moisture content of dry algae and the highest swelling coefficient of 7.7. However, drying to constant weight lasted 25.5 hours. Of the considered drying options, the convective method ( t = 20°C) showed the highest rate. The duration of drying to constant weight was 8 hours. The final moisture content of the product was acceptable (9.8±1.52) %. However, the water activity after algae swelling had the highest value of 0.97±0.004, and the swelling coefficient had a relatively low value of 6.5. In further studies, it is planned to study the effect of various methods of algae dehydration on the preservation of its biologically active substances.
海带(海带)干燥方法的工艺特性测定
本文考虑了四种干燥海带(海带)的方法:温度为零下5℃oС,相对空气湿度为55%和90%的对流脱水;真空干燥,金属载体温度20℃,真空深度250pa;在空气温度为20℃,相对湿度为35%的条件下进行对流脱水。在干燥的藻类中,评估了最终水分含量、水活度和强度特性。为测定膨胀系数,对干藻进行预碎。结果表明,在温度为- 5℃,相对空气湿度为90%的条件下,脱水效果不理想,成品的最终含水率为27.4%。这种干燥在相对空气湿度为55%时,产品的最终水分含量为(12.3±0.48)%,膨胀系数相对较高,为6.9。与其他考虑的方法相比,在零下5°C脱水的藻类具有弹性特性。真空干燥可使干藻的最终含水率最小,膨胀系数最高,为7.7。干燥至恒重需25.5小时。在考虑的干燥选项中,对流方法(t = 20°C)显示出最高的速率。干燥至恒重时间为8小时。产品的最终含水率(9.8±1.52)%是可接受的。藻类溶胀后的水活度最高,为0.97±0.004,溶胀系数较低,为6.5。在进一步的研究中,计划研究各种藻类脱水方法对其生物活性物质保存的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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