A real case study on the physicochemical changes in crude palm oil (&lt;em&gt;Elaeis guineensis&lt;/em&gt;) during the deep-frying of &lt;em&gt;akara&lt;/em&gt;, traditional cowpea-paste balls, in Brazil

Feitosa, Sabrina; Boffo, Elisangela Fabiana; Batista, Carine S C; Velasco, Joaquı́n; Silva, C.S.; Bonfim, R.; Almeida, Deusdélia Teixeira de

doi:10.3989/gya.0703182

Cited by 4 publications

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References 24 publications

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“…A few rapid measurements, such as piezoelectric (using sensors) and optical property measurements (Ali, Angyal, Weaver, Rader, & Mossoba, 1996; Xu, Zhu, Yu, Huyan, & Wang, 2018), are not suitable to be conducted at high temperatures; moreover, certain parameters cannot be measured because of the limited detection area of the employed equipment. Other rapid measurement methods such as gas chromatography (GC) separation and liquid chromatography (LC) separation (Ali et al, 1996; Feitosa, Boffo, Batista, Velasco, & Silva, 2019; Fritsche et al, 1998; Zribi et al, 2016) also have limitations in measuring the types of parameters because of the different physical and chemical properties. Moreover, these rapid methods cannot directly measure the parameter values; instead, they compute them through conversion between the characteristic values of the piezoelectric frequency, spectra or chromatograms, and the parameter values.…”

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confidence: 99%

Physicochemical parameter based estimation of discarding points for frying oil using data interpolation and principal component transformation

Cao

et al. 2020

Food Science & Nutrition

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| INTRODUC TI ONFried food is popular among consumers because of its attractive flavor, crispiness and taste, good shape and color, and rich aftertaste. Frying is a widely used means of food processing in the food industry and home cooking. If the frying temperature is significantly high and the frying time is considerably long, many physicochemical changes occur, producing certain harmful Abstract Data interpolation and principal component transformation (PCT) were used to compute the discarding points of a frying oil by measuring the physicochemical parameters-acid value, carbonyl value, and total polar compounds. Herein, the discarding point refers to the time point (associated with the value of each physicochemical parameter) at which the frying oil should be discarded. First, a primary visual analysis was performed for the obtained data by using line charts. Second, a curve interpolation method was used to compute the discarding points for each parameter and thus determine the discarding points for the frying oil. At 190, 205, and 220°C, the frying oil reached the discarding points at 22.1, 17.7, and 13 hr, respectively. The discarding area was also visualized on the corresponding surfaces for the originally obtained data and the interpolated data to investigate the discarding points. Third, the PCT was conducted for the three parameters at each temperature; the discarding point estimation for the three parameters could be reduced to the estimation from the first principal component (FPC), thereby simplifying this process. At 190, 205, and 220°C, the frying oil reached the discarding points when the FPCs were 10.4524, 6.2881, and −1.7629 at the time points 22.1, 17.7, and 13 hr, respectively. Finally, a verification experiment revealed that the correlation between the results obtained by our interpolation method or PCT and the verified data was higher than 0.98, which demonstrates the effectiveness of our method. K E Y W O R D S acid value, carbonyl value, data interpolation and PCT, discarding points estimation of frying oil, total polar compounds | 2361 YUMEI Et al.substances, which can infiltrate into the food; thus, the food quality and nutritional value is affected, which may harm the human body

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