Microfluidic evaluation of some edible oil quality based on viscosity and interfacial tensions

Deng, Ning; Cao, Ning; Li, Piaopiao; Yu, Peng; Li, Xiaomao; Liu, Liang; Pu, Huayan; Xie, Shaorong; Luo, Jun; Wu, Zhizheng; Liu, Mei

doi:10.1111/ijfs.13667

Cited by 13 publications

(5 citation statements)

References 36 publications

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“…Several recent reviews and studies in the literature provide information regarding the current regulations about olive oil as well as their methods of analysis (Bajoub, Bendini, Fernández-Gutiérrez, & Carrasco-Pancorbo, 2018;Conte et al, 2019;Tena et al, 2015). Some novel techniques (Surface-enhanced Raman spectroscopy (SERS), biosensors, microfluidic devices) have also been applied in olive oil authentication (Bremer, Smits, & Haasnoot, 2009;Deng et al, 2018;Du et al, 2019;McIntosh et al, 2016) and in determination of some bioactive compounds of olive oils especially polyphenolic content (Al Mughairy, Al-Lawati, & Suliman, 2019;Camerlingo, Portaccio, Delfino, & Lepore, 2019;Hammami, Kuliček, & Raouafi, 2016;Ramos, Contreras, & Macías, 2020). Some well-known minor compounds such as sterols, stigmastadienes, aliphatic hydrocarbons and phenolic compounds along with major compounds (triacylglycerols, fatty acid contents) which have official limits in regulations were evaluated in detail in the previous reviews (Aparicio, Conte, & Fiebig, 2013;Arvanitoyannis & Vlachos, 2007;Ben-Ayed, Kamoun-Grati, & Rebai, 2013;Boskou, 2008;García González et al, 2018;Montealegre, Alegre, & García-Ruiz, 2010) Olive oil is very rich in terms of phenolic compounds such as hydroxytyrosol, tyrosol and oleuropein.…”

Section: Introductionmentioning

confidence: 99%

Importance of some minor compounds in olive oil authenticity and quality

Uncu

Özen

2020

Trends in Food Science & Technology

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Section: Introductionmentioning

confidence: 99%

Importance of some minor compounds in olive oil authenticity and quality

Uncu

Özen

2020

Trends in Food Science & Technology

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“…This relationship leads to increased viscosity and decreased interfacial tension, which are two factors that are considered useful indicators of frying oil quality in conjunction with TPM [10][11][12][13][14]. Other researchers have developed pore-based wicking sensors [15,16] and microfluidic methods [17,18], which function based on changing viscosity and interfacial tension and proved feasible for frying oil evaluation as their correlation with TPM is also quite satisfactory.…”

Section: Introductionmentioning

confidence: 99%

Frying Oil Evaluation by a Portable Sensor Based on Dielectric Constant Measurement

Liu

Qin

Chen

et al. 2019

Sensors

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A portable capacitive sensor was designed to assess frying oil degradation by measuring the changes in electrical capacitance. An interdigital electrode (IDE) was designed to be implemented as the testing probe (as IDEs are resistive to parasitic capacitance), together with an adjacent capacitive chip Pcap01 and a further microprocessor STM32, which were used as the data-processing elements. Experimental results demonstrated that viscosity could be a useful frying oil quality indicator, and also proved a preliminary correlation between IDE capacitance and oils’ total polar materials. This implies that IDE capacitance could be a suitable metric for conveniently assessing frying oil degradation. The designed capacitance sensor is light in weight, cost effective, and has excellent potential for simple, inexpensive, on-the-spot testing of the current quality of frying oil.

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“…This study utilized reliable and accurate methods for viscosity measurement to evaluate oil quality, and the research findings indicated a significant relationship between viscosity values and the quality of oil used in food processing. These findings offer a deeper understanding of the significance of viscosity measurement in assessing and ensuring the quality of oil used in the food industry (Deng et al, 2018).…”

Section: Resultsmentioning

confidence: 76%

Educational Tool for Determining Viscosity Coefficient of Cooking Oil Using Arduino UNO

Hilyana,

Marwoto,

Nugroho

2024

jpppf

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The research aims to determine the quality of cooking oil based on the viscosity coefficient using an Arduino UNO-based viscosity coefficient determining tool. By integrating the Arduino UNO into the viscosity measurement process, this research shows innovation in adapting widely available technology for scientific purposes. The series of tools for determining the value of the viscosity coefficient work if an iron ball enters the fluid and will be detected by magnetic sensors 1 and 2 if it passes through the sensor, which is placed at a predetermined distance. Research was conducted to test the quality of cooking oil by determining the viscosity coefficient. The method research is analyzing recorded videos of the motion of objects falling in oil with Tracker Software. By tracking the video recording of the motion of an object falling in a liquid, data, and graphs of the speed of the falling motion can be obtained. Then from the data obtained, the viscosity value is obtained using the equation. The results of the 5 cooking oils, using the tool, were that oil 1 had a viscosity coefficient of 0.2732 Pa.s; oil 2 with 0.3077 Pa.s; oil 3 with 0.3127 Pa.s; oil 4 with 0.3186; and oil 5 with 0.3218 Pa.s. Meanwhile, the results of the oil viscosity coefficient using manual calculations showed that oil 1 had 0.2733 Pa.s; oil 2 with 0.3089 Pa.s; oil 3 with 0.3136 Pa.s; oil 4 with 0.3188; and oil 5 with 0.3219 Pa.s. The percentage of error that occurs from the tool is 0.17%. The oil with a smaller viscosity coefficient is coconut oil (better quality than palm oil), while the quality of bulk oil is indicated by a larger viscosity coefficient. It could be asserted that the oil's quality improves as the viscosity coefficient decreases.

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Microfluidic evaluation of some edible oil quality based on viscosity and interfacial tensions

Cited by 13 publications

References 36 publications

Importance of some minor compounds in olive oil authenticity and quality

Importance of some minor compounds in olive oil authenticity and quality

Frying Oil Evaluation by a Portable Sensor Based on Dielectric Constant Measurement

Educational Tool for Determining Viscosity Coefficient of Cooking Oil Using Arduino UNO

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