Ultrafiltration to Increase the Consistency of Fruit Pulps: The Role of Permeate Flux

IF 2.8 Q2 ENGINEERING, CHEMICAL ChemEngineering Pub Date : 2023-12-20 DOI:10.3390/chemengineering8010003
F. Chiampo
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Abstract

Ultrafiltration is a well-known operation, widely used in food processing, especially to concentrate selectively liquid compounds. However, so far, it has been mainly used to change concentration and/or clarify liquids with low viscosity. Ultrafiltration has seldomly been applied to viscous fluids. In this study, it was used to increase the consistency of fruit pulps, without changing their taste and organoleptic properties. This paper reports the findings achieved in experimental runs carried out on a pilot plant, equipped with four ultrafiltration tubular membranes (total surface area = 0.8 m2). Raw fruit pulps, namely, apple, apricot, and pear, were used to study the influence of the operative parameters on the permeate flux and organoleptic properties of the final products (retentate and permeate). The flow rate was in the range of 3.0–5.1 m3/h, at 50 °C. The influence of temperature on the permeate flux was checked, with one run with apple pulp at 20 °C. As expected, the findings show that high flow rate and temperature improve the permeate flux. Membranes show different performance in permeate flux for the tested pulps. This is probably due to their different chemical and physical composition, which could be responsible for different fouling of the membrane and, as a consequence, a different resistance to the permeate flow. The final products have the same taste as the raw ones, and each of them can be used as it is or as an ingredient. These results have a technological relevance, and, besides, the study shows a methodology for future applications of ultrafiltration.
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超滤提高果肉浓度:渗透通量的作用
超滤是一种众所周知的操作,广泛用于食品加工,尤其是选择性浓缩液体化合物。然而,迄今为止,超滤主要用于改变浓度和/或澄清低粘度液体。超滤很少应用于粘性液体。在这项研究中,超滤被用来增加果肉的稠度,而不改变其口感和感官特性。本文报告了在试验设备上进行的实验结果,该设备配备了四个超滤管式膜(总表面积 = 0.8 m2)。使用苹果、杏和梨等原果肉来研究操作参数对渗透通量和最终产品(回流液和渗透液)感官特性的影响。流速范围为 3.0-5.1 m3/h,温度为 50 °C。对温度对渗透通量的影响进行了检测,其中一次是在 20 °C 下用苹果浆进行的。正如预期的那样,研究结果表明,高流速和高温度可提高渗透通量。对于测试的纸浆,膜在渗透通量方面表现出不同的性能。这可能是由于它们的化学和物理成分不同,导致膜的堵塞情况不同,因此对渗透流的阻力也不同。最终产品的味道与原料产品相同,每种产品都可以直接使用或用作配料。这些结果具有技术意义,此外,这项研究还为超滤的未来应用提供了一种方法。
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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来源期刊
ChemEngineering
ChemEngineering Engineering-Engineering (all)
CiteScore
4.00
自引率
4.00%
发文量
88
审稿时长
11 weeks
期刊最新文献
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