Investigation of Conversion of Sunflower Oil Production Wastes to High Value Compounds by Supercritical CO2

Environmental Research and Technology Pub Date : 2023-05-02 DOI:10.35208/ert.1245691

Müberra Nur Kiliçarslan, M. E. Argun

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Abstract

The evaluation of wastes from edible oil production industry has increasing importance because of resources deficiency and growing population day by day. It was aimed to investigate the recovery potential of oil and valuable components such as total phenolic contents (TPC), total flavonoid content (TFC) and antioxidant activities with conventional and green extraction methods from edible sunflower oil production wastes. Firstly, Soxhlet extraction was applied on the waste samples from filtration of the oil and then supercritical CO2 (SC- CO2) extraction was performed to compare extraction yield. The statistical evaluation of the SC- CO2 extraction experiments was conducted with the Minitab Software program. It was concluded that 37% extraction yield was obtained with the mixture of perlite and waste sample, while the highest recovery was observed as 27% for the perlite-free sample. The interaction of independent variables (temperature and pressure) on the recovery yields were determined as significant (p=0.002). Pressure was detected more effective on the valuable substance contents of the extracts than temperature. The most efficient conditions were 50 oC and 22.1 MPa for oil recovery, while 60 oC and 20 MPa for valuable substance recovery.

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超临界CO2法将葵花籽油废渣转化为高值化合物的研究

随着资源的匮乏和人口的日益增长，食用油工业废弃物的评价日益重要。以食用葵花籽油生产废弃物为研究对象，考察常规提取法和绿色提取法对葵花籽油中油脂、总酚含量、总黄酮含量及抗氧化活性的回收潜力。首先对油过滤后的废样进行索氏萃取，然后进行超临界CO2 (SC- CO2)萃取，比较萃取率。利用Minitab软件程序对SC- CO2萃取实验进行统计评价。结果表明，废样品与珍珠岩混合提取得率为37%，不含珍珠岩的样品回收率最高，为27%。自变量(温度和压力)对回收率的交互作用被确定为显著(p=0.002)。压力对提取物中有价物质含量的影响比温度更大。在50℃、22.1 MPa条件下采收率最高，在60℃、20 MPa条件下采收率最高。

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来源期刊

Environmental Research and Technology

CiteScore

0.90

自引率

0.00%

发文量