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2. A review of the use of rice husk silica as a sustainable alternative to traditional silica sources in various applications.

Author

Taiye, Mustapha Abdullateef, Hafida, Wahia, Kong, Fangong, and Zhou, Cunshan

Subjects
SUSTAINABILITY, RICE hulls, NANOPARTICLE synthesis, SUSTAINABLE chemistry, ENVIRONMENTAL responsibility
Abstract

Rice husk silica (RHS) has emerged as a sustainable alternative to traditional sources of silica in various applications, offering eco‐friendly attributes, cost‐effectiveness, and versatility. This review explores the potential of RHS as a substitute for conventional silica sources, highlighting its alignment with sustainable development objectives and its appeal to industries seeking environmental responsibility. Among the extraction methods, acid leaching is identified as yielding higher purity silica. In contrast, among the novel techniques, the hydrothermobaric process stands out for producing high purity and yielding nanosilica. Despite challenges like limited access to high‐quality rice husks and variations in silica content, RHS extraction methods show promising avenues for sustainable silica production, addressing waste management, and environmental concerns. Further development and optimization of extraction techniques are essential for widespread acceptance, with future research focusing on nanoparticle synthesis and incorporating green chemistry principles. This comprehensive review of RHS provides a valuable resource for researchers seeking to explore sustainable alternatives in their respective fields, aiming to foster adopting more sustainable practices and materials across various industries. [ABSTRACT FROM AUTHOR]

Published
2024
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3. Evaluation of dual-frequency multi-angle ultrasound on physicochemical properties of tofu gel and its finished product by TOPSIS-entropy weight method

Author

Lei Zhang, Xue Wang, Wenjuan Qu, Ao Zhang, Hafida Wahia, Xianli Gao, Haile Ma, and Cunshan Zhou

Subjects
Dual-frequency multi-angle ultrasound, TOPSIS-entropy weight method, Physicochemical property, Tofu, Chemistry, QD1-999, Acoustics. Sound, QC221-246
Abstract

The effects of dual-frequency (40 + 20 kHz) and multi-angle ultrasound (0°, 30°, 45°) on the coagulation state, network structure, flavor and protein conformation of tofu gel were studied. The results showed that the gel flavor of 40 + 20 kHz 0° group was the best and fluorescence intensity was low. The gel flavor in the 40 + 20 kHz 30° group was better than the group without ultrasound, and hydrophobic interaction and disulfide bond content was the largest. Meanwhile, the degree of protein cross-link was increased. The gel in 40 + 20 kHz 45° group had tightly gel state, high thermal stability, but poor flavor. Combined with The Order Preference by Similarity to Ideal Solution (TOPSIS)-entropy weight method, the 40 + 20 kHz 30° group, was the best ultrasonic treatment of gel. It can change the interaction between proteins, promote protein cross-link, and form a uniform and dense gel network. Finally, the hardness and moisture content of finished tofu were increased significantly, and the quality was improved.

Published
2022
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4. Preparation of corn ACE inhibitory peptide-ferrous chelate by dual-frequency ultrasound and its structure and stability analyses

Author

Wenjuan Qu, Yiting Feng, Ting Xiong, Yuhan Li, Hafida Wahia, and Haile Ma

Subjects
Corn ACE inhibitory peptides, Peptide-ferrous chelate, Ultrasound, Structural characteristics, ACE inhibition activity, Chemistry, QD1-999, Acoustics. Sound, QC221-246
Abstract

In order to improve iron chelating ability and retain the activity of functional peptide, corn peptide was chelated with iron to form corn ACE inhibitory peptide-ferrous chelate (CP-Fe) treated by dual-frequency ultrasound. Furthermore, the chelating mechanism was revealed by analyzing various structural changes, and the stability was further evaluated. Under this study condition, the iron-binding capacity of corn ACE inhibitory peptide (CP) and chelate yield reached 66.39% and 82.87%, respectively. Ultrasound-treated CP exhibited a high iron chelating ability, meanwhile, chelation reaction had no significant effect on the ACE inhibition activity (82.21%) of the peptide. CP-Fe was formed by binding the peptides amino, carbonyl and carboxyl groups with Fe2+ demonstrated by Ultra-violet spectroscopy, Fourier transform infrared characterization, X-ray diffraction, energy dispersion spectrum, zeta potential, amino acid composition and other multi-angle analyses. Moreover, ultrasound-treated CP-Fe chelate exhibited porous surface and uniform nanoparticle shape. Furthermore, ultrasound-treated CP-Fe chelate exhibited an excellent stability towards various pH (retention rate ≥ 95.47% at pH 6–10), temperatures (retention rate ≥ 85.10% at 25–70 °C), and gastrointestinal digestion (retention rate 79.18%). Overall, ultrasound-treated CP-Fe chelate possessed high iron-chelating ability, ACE inhibition activity and stability. This study provides a novel synthesis method of the iron-chelating corn ACE inhibitory peptide, which is promising to be applied as iron supplements with high efficiency, bioactivity, and stability.

Published
2022
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5. Preparation of tuna skin collagen-chitosan composite film improved by sweep frequency pulsed ultrasound technology

Author

Wenjuan Qu, Tiantian Guo, Xinxin Zhang, Yuting Jin, Bo Wang, Hafida Wahia, and Haile Ma

Subjects
Tuna skin collagen-chitosan film, Sweep frequency pulsed ultrasound, Structural property, Functional property, Antioxidant activity, Antibacterial activity, Chemistry, QD1-999, Acoustics. Sound, QC221-246
Abstract

To produce a natural food packaging film from tuna skin collagen (TSC) and chitosan (CTS) and improve its mechanical and physicochemical properties, the sweep frequency pulsed ultrasound (SFPU) was introduced as a new technology and compared with the conventional method. The optimum preparation conditions of the SFPU-TSC-CTS film were sweep frequency of 28 ± 0.5 kHz, power density of 100 W/L, sweep frequency cycle of 100 ms, pulse duty ratio of 77%, and ultrasonic time of 10 min. Significant increases in the tensile strength (27.14%) and elongation at break (16.54%) and a significant decrease in the water vapor permeability (12.15%) were observed by sonication. Thus, a moderate SFPU treatment can significantly improve the moisture resistance and mechanical properties of the film. These enhancements were achieved by a more ordered and compact structure, a good crystallinity and a higher thermostability of SFPU-TSC-CTS film, which were verified by the Fourier transform infrared spectroscopy (FTIR), circular dichroism (CD), scanning electron microscopy (SEM), X-ray diffraction (XRD), and thermal stability indexes. Moreover, SFPU-TSC-CTS film also presented good antioxidant and antibacterial activities. Therefore, SFPU was an effective auxiliary technology for improving the quality of food packaging film and can be deeply explored.

Published
2022
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6. Multiple-frequency ultrasound for the inactivation of microorganisms on food: A review.

Author

Taiye Mustapha, Abdullateef, Hafida Wahia, Qunghua Ji, Abiola Fakayode, Olugbenga, Lei Zhang, and Cunshan Zhou

Subjects
MICROBIAL inactivation, ULTRASONIC imaging, FOOD science, FOOD quality, CAVITATION
Abstract

A multiple-frequency ultrasound (MFU) technique is proficient in enhancing the effect of acoustic cavitation compared to a single-frequency ultrasound. This comprehensive review delves into the complex field of MFU and its profound impact on microbial inactivation in food processing. The exploration begins with an intricate examination of the mechanism of power ultrasound, elucidating the intricate interplay of acoustic cavitation and its diverse effects. Subsequently, the mechanism of MFU was provided, which is basically the enhanced cavitation obtained during its application. Delving into the core mechanisms of MFU, the review navigates through microbial inactivation, unraveling the ways in which MFU disrupts and eliminates microorganisms. The exploration extends to the synergistic potential of combined applications, where MFU is applied with other treatment techniques to enhance microbial inactivation. Beyond its microbial inactivation prowess, the review meticulously explores the far-reaching effects of MFU on the nutritional and quality attributes of food products. Furthermore, the diverse applications of MFU were also reviewed. In addition, limitations and adverse effects, emphasizing the importance of optimizing parameters to balance microbial safety and food quality, were also discussed. As the review unfolds, it lays the groundwork for future research, identifying avenues for further exploration and innovation in this dynamic field. In essence, this review not only consolidates the current understanding of MFU but also guides future research endeavors in the quest for more efficient, sustainable, and qualitypreserving food processing technologies. [ABSTRACT FROM AUTHOR]

Published
2024
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8. Ultrasound freeze-thawing style pretreatment to improve the efficiency of the vacuum freeze-drying of okra (Abelmoschus esculentus (L.) Moench) and the quality characteristics of the dried product

Author

Xin Xu, Lei Zhang, Yabin Feng, Cunshan Zhou, Abu ElGasim A. Yagoub, Hafida Wahia, Haile Ma, Jin Zhang, and Yanhui Sun

Subjects
Okra, Ultrasound, Freeze-thawing, Vacuum-freeze drying efficiency, Quality characteristics, Chemistry, QD1-999, Acoustics. Sound, QC221-246
Abstract

Vacuum freeze-drying is a new and high technology on agricultural product dehydrating dry, but it faces the high cost problem caused by high energy consumption. This study investigated the effect of ultrasound (US), freeze-thawing (including the freeze-air thawing (AT), freeze-water thawing (WT), freeze-ultrasound thawing (UST), and freeze-air ultrasound thawing (AT + US)) pretreatments on the vacuum freeze-drying efficiency and the quality of dried okra. The results indicated that the application of ultrasound and different freeze-thawing pretreatments reduced the drying time by 25.0%–62.50% and the total energy consumption was 24.28%–62.35% less. The AT pretreatment reduced the time by of okra slices by 62.50% and the total energy consumption was 62.35% less. The significant decrease in drying time was due to a change in the microstructure caused by pretreatment. Besides, the okra pretreated with the US retained most of the quality characteristics (flavor, color, hardness, and frangibility) among all methods, while, AT + US had the most changeable characteristics in quality, which is deprecated in our study. The okra pretreated with the US and AT, separately, had the best dry matter content loss (9.008%, 5.602%), lower chlorophyll degradation (5.05%, 5.44% less), and higher contents of total phenolics, total flavonoids, and pectin, with strong antioxidant capacity, compared to other methods. The pretreatments did not have a large effect on the functional groups and the structure of pectin, but slightly affected the viscosity. It can be concluded that AT and US pretreatment methods are better than others.

Published
2021
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13. Integrated bioprocess for bio-ethanol production from watermelon rind biomass: Ultrasound-assisted deep eutectic solvent pretreatment, enzymatic hydrolysis and fermentation

Author

Manni Ren, Hafida Wahia, Shanshan Tu, Cunshan Zhou, Nelson Dzidzorgbe Kwaku Akpabli-Tsigbe, Haile Ma, and Olugbenga Abiola Fakayode

Subjects
chemistry.chemical_classification, chemistry.chemical_compound, Hydrolysis, Chromatography, Renewable Energy, Sustainability and the Environment, Chemistry, Enzymatic hydrolysis, Ethanol fuel, Fermentation, Hemicellulose, Cellulose, Deep eutectic solvent, Reducing sugar
Abstract

Herein, the potential of watermelon rind (WMR) biomass for bio-ethanol production through an integrated bioprocess consisting of combinative sequential ultrasonication and deep eutectic solvent (DES) pretreatments, enzymatic hydrolysis and fermentation was investigated. For the improvement of the efficiency of the WMR conversion into bio-ethanol, the effectiveness of the ultrasonic-assisted DES pretreatment on bio-ethanol yield was studied by optimization, adopting Central Composite Rotatable Design. Glucose was the most dominant sugar in the WMR biomass which enhanced its suitability as cheap carbon source for fermentation process. Maximum glucose and total reducing sugar yields of 60.17 % and 83.03 % were respectively obtained, and the enzymatic hydrolysis efficiencies ranged from 75.79 to 91.13 % . The bio-ethanol yield ranged from 0.276 to 0.458 g g − 1 raw WMR, corresponding to fermentation efficiencies of 54.12–89.80 % , with the maximum obtained at ultrasonication power 180 W , ultrasonication frequency 40 k H z , ultrasonication time 40 m i n , DES reaction temperature 120° C and DES reaction time 180 m i n . Results showed that all the pretreatment factors considered had significant effect on bio-ethanol yield. It was established that combinative pretreatment was efficient for delignification, solubilization and hydrolysis of cellulose and hemicellulose into monomeric sugars by removing hemicellulose from the cellulose fibers. This enhanced fermentable sugar recovery, which consequently increased bio-ethanol yield.

Published
2021
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14. Preparation of zein/chitosan/eugenol/curcumin active films for blueberry preservation

Author

Manni Ren, Zhe Cai, Li Chen, Hafida Wahia, Li Zhang, Yang Wang, Xiaojie Yu, and Cunshan Zhou

Subjects
Structural Biology, General Medicine, Molecular Biology, Biochemistry
Abstract

This study aimed to develop zein/chitosan-based films formulated with curcumin and eugenol to improve the quality of postharvest blueberries. First, the film-forming solutions were characterized (rheological property and water distribution), and the mechanical, structural properties and bioactivity of active films fabricated by casting were evaluated. Further, the active film was coated with blueberry stored at 4 °C, and physicochemical properties (weight loss, hardness, microbial counts, and appearance changes) were measured. The film-forming solutions exhibited non-Newtonian behavior. The incorporation of curcumin and eugenol improved the tensile strength and elongation at the break of films, reaching 17.86 MPa and 92.80 %, respectively. The antioxidant capacity was enhanced, and DPPH and ABTS radical scavenging rates were up to 90.60 ± 0.06 % and 86.34 ± 0.39 %, respectively. Meanwhile, the prepared active films possessed good anti-UV and sensitive pH-response color-shifting ability. Compared to the uncoated blueberry, blueberry coated with zein/chitosan/curcumin/eugenol showed lower weight loss and higher hardness, indicating that the prepared active films played a vital role in delaying the deterioration of blueberry and extending its shelf life. Overall, the zein-chitosan incorporated with curcumin and eugenol films could be a promising candidate to prolong the shelf life of food products due to their excellent bioactive capacity.

Published
2022

16. Effects of tri-frequency ultrasonic vacuum-assisted ethanol pretreatment on infrared drying efficiency, qualities and microbial safety of scallion stalk slices

Author

Feng Yabin, Abu ElGasim A. Yagoub, Haile Ma, Hafida Wahia, Zhe Cai, Wang Xule, Xin Xu, Cunshan Zhou, and Yanhui Sun

Subjects
Ethanol, Microbial safety, Materials science, business.industry, Vacuum assisted, Infrared, General Chemical Engineering, Ultrasound, 04 agricultural and veterinary sciences, 02 engineering and technology, 040401 food science, chemistry.chemical_compound, 0404 agricultural biotechnology, 020401 chemical engineering, Chemical engineering, chemistry, Stalk, Scientific method, Ultrasonic sensor, 0204 chemical engineering, Physical and Theoretical Chemistry, business
Abstract

This paper aims to evaluate the impact of simultaneous tri-frequency ultrasound (20 + 40 + 60 kHz) combined vacuum (0.6 bar) assisted ethanol (75%) pretreatment on the infrared drying process, qual...

Published
2021
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17. Revolutionizing food processing with infrared heating: New approaches to quality and efficiency

Author

Olugbenga Abiola Fakayode, Olayemi Olubunmi Ojoawo, Man Zhou, Hafida Wahia, and Clement Adesoji Ogunlade

Subjects
Infrared (IR) radiation, Novel technologies, Food products, Product quality, Heat transfer, Food processing and manufacture, TP368-456, Physical and theoretical chemistry, QD450-801
Abstract

Infrared (IR) heating technology represents a cutting-edge thermal technology in food processing, offering energy-efficient and effective solutions for various unit operations such as blanching, microbial decontamination, peeling, roasting, and thawing. Recent advancements in IR heating have highlighted its advantages over conventional methods, including short processing time, uniform heating and product temperature, superior quality of products, low energy consumption, high heat transfer rate, high energy efficiency, ease of control, compact equipment and eco-friendliness over the conventional heating systems. Considering these merits, IR has found several applications in food processing with increased interest and research in the last decade. Thus, this review discusses recent studies and technological advancements in IR heating, addressing the benefits, limitations, and challenges of its implementation across different food processing applications. In addition, it explores the synergistic utilization of IR radiation when combined with other novel technologies by assessing their combined impact on process efficiency, energy savings, and food quality. The findings of this study showed that in blanching, IR heating has shown potential to reduce nutrient loss and preserve sensory quality, enhancing the retention of vitamins and minerals. For microbial decontamination, it provides a non-chemical approach to pathogen reduction, minimizing foodborne risks while preserving product quality. In peeling applications, IR heating can achieve efficient removal of skin with minimal waste and damage to the edible portion, making it an eco-friendly option. When used for roasting, it contributes to the development of desirable colour, flavor, and texture attributes. Finally, in thawing applications, IR technology provides faster and more uniform heating, reducing drip loss and improving product quality. From the foregoing, it was established that the adoption of IR heating technology in food processing represents a significant advancement in enhancing product quality and process efficiency across the various applications. Moreover, combining IR heating with other novel food processing technologies further improved process efficiency, enhanced energy savings, and preserved or even boosted food quality. Further research on optimization, process modelling, and the integration of IR heating with other technologies could expand its applicability and effectiveness, paving the way for more sustainable and high-quality food processing solutions.

Published
2025
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18. Mitigation of relative humidity (RH) on phytochemicals and functional groups of dried pineapple (Ananas comosus) slices

Author

Tahany Abdel-Ghafr Ahmed Aly, Hafida Wahia, Muhammad Tayyab Rashid, Frederick Sarpong, and Cunshan Zhou

Subjects
0106 biological sciences, biology, Chemistry, Dried pineapple, 04 agricultural and veterinary sciences, biology.organism_classification, 040401 food science, 01 natural sciences, 0404 agricultural biotechnology, Polyphenol, 010608 biotechnology, Relative humidity, Food science, Ananas, Engineering (miscellaneous), Food Science, Biotechnology
Abstract

As part of finding a mechanism to ameliorate the decomposition of phytochemicals and antioxidant in drying processing, this research was conducted. To achieve this, pineapple slices was dried using relative humidity (RH) dryer at varied temperature (60–80 °C) combined with RH (10–30%) conditions. The results revealed that higher RH retained with significantly difference (p

Published
2020
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20. Effect of Drying Techniques on the Physical, Functional, and Rheological Attributes of Isolated Sunflower Protein and Its Hydrolysate

Author

Mokhtar Dabbour, Rokkaya Sami, Benjamin K. Mintah, Ronghai He, Hafida Wahia, Ebtihal Khojah, Anka Trajkovska Petkoska, and Mohammad Fikry

Subjects
Process Chemistry and Technology, Chemical technology, sunflower protein, freeze drying, convection drying, turbidity, functionality, viscosity, molecular weight, Bioengineering, TP1-1185, Chemistry, Chemical Engineering (miscellaneous), QD1-999
Abstract

The influence of freeze and convection (at 40 and 50 °C) drying on the physical, functional, and rheological attributes of sunflower protein (SP) and its hydrolysate (SPH) was investigated. Compared with convectively-dried samples, the lightness, turbidity, bulk density, and particle size values of the freeze-dried SP and SPH were substantially higher, but the browning index was lower (p < 0.05). Additionally, freeze-dried samples exhibited good solubility and foaming characteristics, whereas lower emulsion properties with the most pH values were observed. Furthermore, SPHs possessed higher solubility as well as foamability over SPs under varying pH values (2.0–10.0), whilst reduction in the emulsion activity index was clearly observed (p < 0.05). Convectively-dried powders exhibited greater viscosity and consistency coefficient; and significantly lower flow behavior index of dispersions, relative to the respective freeze-dried preparations, indicating that dehydration methods influenced the flow behavior of the investigated samples. From a molecular weight analysis, convectively-dried samples at various temperatures were characterized with high proportion of small-sized particles at ≤1 kDa fractions over the respective powders obtained by freeze drying. The observations made, thus, would benefit food processors and manufacturers in electing better dehydration technique based on the desired traits of SP and SPH powders for successful application in food product formulations.

Published
2021
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22. Pulsed multifrequency thermosonication induced sonoporation in Alicyclobacillus acidoterrestris spores and vegetative cells

Author

Hafida Wahia, Long Zhang, Cunshan Zhou, Abdullateef Taiye Mustapha, Olugbenga Abiola Fakayode, Robert Amanor-Atiemoh, Haile Ma, and Mokhtar Dabbour

Subjects
Beverages, Spores, Spores, Bacterial, Alicyclobacillus, Hydrogen Peroxide, Food Science
Abstract

Alicyclobacillus acidoterrestris (AAT) was proposed as an index of pasteurization design for high-acid fruit products due to its spore resistance and repeated spoilage incidences in fruit juices. This study aimed to determine the effectiveness of pulsed multifrequency ultrasound to minimize AAT spores and vegetative cells in aqueous suspension. For this research, an investigation of the reactive oxygen species and antioxidant activity was performed to examine the effect of temperature and frequency on AAT spore inoculation. Total decreases in AAT bacteria were 5.99, 5.74 Log CFU/mL in vegetative cells for dual-frequency thermosonication (DFTS) and dual-frequency ultrasonication (DFUS), respectively, while 5.90 and 5.38 Log CFU/mL in spores for both DFUS and DFTS, respectively. The loss of the percentage of cells in ultrasound (US) and thermosonication (TS) treatments was inversely associated with the rate of O

Published
2021

23. Intensive pulsed light pretreatment combined with controlled temperature and humidity for convection drying to reduce browning and improve quality of dried shiitake mushrooms

Author

Cunshan Zhou, Haile Ma, Jin Zhang, Abu ElGasim A. Yagoub, Hafida Wahia, Arun S. Mujumdar, and Yanhui Sun

Subjects
Quality Control, Antioxidant, Light, 030309 nutrition & dietetics, medicine.medical_treatment, Shiitake Mushrooms, Color, Umami, Polysaccharide, Antioxidants, Fungal Proteins, 03 medical and health sciences, 0404 agricultural biotechnology, Food Preservation, Browning, medicine, Furaldehyde, Food science, Desiccation, chemistry.chemical_classification, 0303 health sciences, Mushroom, Nutrition and Dietetics, biology, Temperature, Humidity, 04 agricultural and veterinary sciences, 040401 food science, Enzyme assay, Enzyme structure, chemistry, biology.protein, sense organs, Agronomy and Crop Science, Catechol Oxidase, Food Science, Biotechnology
Abstract

Background The change of surface color caused by browning during the drying process of shiitake mushroom seriously affects its market circulation. Intensive pulsed light (IPL) as a non-heat treatment method can reduce enzyme activity by changing the enzyme structure. Therefore, in this study, the use of IPL pretreatment before drying was aimed to reduce the adverse reactions caused by browning reaction during the drying processing of shiitake mushroom. Results Shiitake mushroom pretreated with IPL energy of 400 J for 25 pulse numbers reduced the initial PPO enzyme activity, the browning index (BI) and browning degree (BD) values by 42.83 %, 43.02 % and 47.54 %, respectively. The IPL pretreatment enhanced the polysaccharides and reducing sugars contents (RSC) while it reduced 5-hydroxymethylfurfural (5-HMF) generation in the dried shiitake mushroom. The pretreatment also improved the surface color, the antioxidant activity and retained the umami taste characteristics in the dried shiitake mushroom. Conclusion The IPL pretreatment combined with the controlled temperature and humidity for convection drying could be a suitable method to improve the quality of dried shiitake mushroom. Therefore, this study provides a new pretreatment method for materials that are prone to browning during drying. This article is protected by copyright. All rights reserved.

Published
2021

24. Quality attributes optimization of orange juice subjected to multi-frequency thermosonication: Alicyclobacillus acidoterrestris spore inactivation and applied spectroscopy ROS characterization

Author

Long Zhang, Haile Ma, Olugbenga Abiola Fakayode, Cunshan Zhou, Robert Amanor-Atiemoh, Abdullateef Taiye Mustapha, Zhang Rong, Jin Zhang, Hafida Wahia, and Baoguo Xu

Subjects
Orange juice, chemistry.chemical_classification, Spores, Bacterial, Microbial Viability, Alicyclobacillus, Chemistry, Spectrum Analysis, Temperature, General Medicine, Ascorbic Acid, Ascorbic acid, Alicyclobacillus acidoterrestris, Box–Behnken design, Analytical Chemistry, Spore, Fruit and Vegetable Juices, Sonication, Enzyme, Food Microbiology, Food Quality, Food science, Reactive Oxygen Species, Food Science, Citrus sinensis
Abstract

This is the first time to investigate the synergistic inactivation effect and mechanism of multifrequency ultrasound (MTUS) on A. acidoterrestris (AAT) vegetative cells and spores, nutrients and enzymes of orange juice. The optimized results of MTUS (using Box Behnken design- surface response methodology) and further comparison with different mode of ultrasound (mono-and multi-frequency) revealed that 20/40 kHz, 24 min and 64 °C were the best optimum results. The AAT spores and vegetative cells were inactivated by 2 and 4 logs, respectively, without deteriorating orange juice contents. In addition, AAT inactivation indicated an inversely proportional relationship with ROS production. FT-IR and UV–Vis spectroscopy characterization confirmed the existence of ROS in treated orange juice and LF-NMR analysis confirmed the inactivation of AAT spores. The findings illustrated the successfully used dual-frequency ultrasound technology for fruit beverages, promoting beneficial changes in physical properties without any significant effects on the quality of ascorbic acid.

Published
2020

25. Acoustically-aided osmo-dehydration pretreatments under pulsed vacuum dryer for apple slices: drying kinetics, thermodynamics, and quality attributes

Author

Gilbert Owiah Sampson, Ruoyu Zhou, Robert Amanor-Atiemoh, Abdullateef Taiye Mustapha, Hafida Wahia, Abigail Amoa-Owusu, Haile Ma, Muhammad Tayyab Rashid, and Cunshan Zhou

Subjects
Osmosis, Coefficient of determination, Vacuum, 030309 nutrition & dietetics, Kinetics, Phytochemicals, Thermodynamics, Color, Ascorbic Acid, 03 medical and health sciences, 0404 agricultural biotechnology, Mass transfer, medicine, Humans, Dehydration, Control sample, Desiccation, 0303 health sciences, Moisture, Chemistry, Food Packaging, 04 agricultural and veterinary sciences, medicine.disease, 040401 food science, Fruit, Malus, Degradation (geology), Food Science, Osmotic dehydration
Abstract

The research work investigates the effect of different pretreatment conditions (osmotic dehydration [OD], ultrasound [US], and ultrasound-assisted osmotic dehydration [UOD]) on the drying kinetics modeling, thermodynamics, weight reduction, degradation kinetics of vitamin C, and color of apple slices under pulsed vacuum dryer (PVD). The findings showed that UOD pretreatment significantly improved drying time and increased weight reduction comparative to OD, US, and the control sample. Drying kinetics modeling revealed that the Hii model better described the drying kinetic behavior of the apple slices than the other nine mathematical models based on higher coefficient of determination (R2 ), root mean square error (RMSE), and reduced chi-square (χ2 ). Analysis of vitamin C content revealed a 46.05%, 31.28%, and 25.95% retention for UOD, US, and OD, respectively, after drying. Second-order kinetics could accurately predict the degradation kinetics of vitamin C compared to first-order kinetics. Vitamin C degradation kinetics showed lower k-value, higher D-value (time required for 90% degradation), and half-life indicating a higher retention of vitamin C content for UOD pretreatment compared to OD and US during drying. L*, b*, and chroma values of UOD were significantly (P

Published
2020

26. Ultrasound freeze-thawing style pretreatment to improve the efficiency of the vacuum freeze-drying of okra (Abelmoschus esculentus (L.) Moench) and the quality characteristics of the dried product

Author

Zhang Lei, Yanhui Sun, Xin Xu, Haile Ma, Jin Zhang, Feng Yabin, Hafida Wahia, Cunshan Zhou, and Abu ElGasim A. Yagoub

Subjects
food.ingredient, Acoustics and Ultrasonics, Pectin, Vacuum, Okra, Vacuum-freeze drying efficiency, Quality characteristics, lcsh:QC221-246, 02 engineering and technology, Freeze thawing, 010402 general chemistry, 01 natural sciences, lcsh:Chemistry, Inorganic Chemistry, Freeze-drying, Sonication, food, Abelmoschus, Spectroscopy, Fourier Transform Infrared, Ultrasound, Chemical Engineering (miscellaneous), Environmental Chemistry, Radiology, Nuclear Medicine and imaging, Dry matter, Food science, Original Research Article, Desiccation, Electronic Nose, Flavor, biology, business.industry, Chemistry, Freeze-thawing, Organic Chemistry, 021001 nanoscience & nanotechnology, biology.organism_classification, 0104 chemical sciences, Freeze Drying, lcsh:QD1-999, lcsh:Acoustics. Sound, 0210 nano-technology, business
Abstract

Highlights • Ultrasound freeze-thawing pretreatments improved the vacuum freeze-drying. • Pretreatment reduced the drying time and energy consumption. • Pretreatment changed the microstructure to various extent. • Ultrasound pretreatment retained most of the quality characteristics. • Pretreatment had no effect on the function groups and structure of pectin., Vacuum freeze-drying is a new and high technology on agricultural product dehydrating dry, but it faces the high cost problem caused by high energy consumption. This study investigated the effect of ultrasound (US), freeze-thawing (including the freeze-air thawing (AT), freeze-water thawing (WT), freeze-ultrasound thawing (UST), and freeze-air ultrasound thawing (AT + US)) pretreatments on the vacuum freeze-drying efficiency and the quality of dried okra. The results indicated that the application of ultrasound and different freeze-thawing pretreatments reduced the drying time by 25.0%–62.50% and the total energy consumption was 24.28%–62.35% less. The AT pretreatment reduced the time by of okra slices by 62.50% and the total energy consumption was 62.35% less. The significant decrease in drying time was due to a change in the microstructure caused by pretreatment. Besides, the okra pretreated with the US retained most of the quality characteristics (flavor, color, hardness, and frangibility) among all methods, while, AT + US had the most changeable characteristics in quality, which is deprecated in our study. The okra pretreated with the US and AT, separately, had the best dry matter content loss (9.008%, 5.602%), lower chlorophyll degradation (5.05%, 5.44% less), and higher contents of total phenolics, total flavonoids, and pectin, with strong antioxidant capacity, compared to other methods. The pretreatments did not have a large effect on the functional groups and the structure of pectin, but slightly affected the viscosity. It can be concluded that AT and US pretreatment methods are better than others.

Published
2020

27. Sonozonation: Enhancing the antimicrobial efficiency of aqueous ozone washing techniques on cherry tomato

Author

Abdullateef Taiye Mustapha, Haile Ma, Cunshan Zhou, Hafida Wahia, Adiamo Qudus, Robert Amanor-Atiemoh, Olugbenga Abiola Fakayode, and Phyllis Naa Yarley Otu

Subjects
Ozone, Microbial safety, Food Safety, Acoustics and Ultrasonics, Microorganism, 02 engineering and technology, 010402 general chemistry, Shelf life, 01 natural sciences, Inorganic Chemistry, chemistry.chemical_compound, Cherry tomato, Anti-Infective Agents, Solanum lycopersicum, Chemical Engineering (miscellaneous), Environmental Chemistry, Radiology, Nuclear Medicine and imaging, Food science, Volume concentration, Mechanical Phenomena, Aqueous solution, biology, Organic Chemistry, Water, 021001 nanoscience & nanotechnology, biology.organism_classification, Antimicrobial, 0104 chemical sciences, chemistry, Ultrasonic Waves, Fruit, Food Microbiology, 0210 nano-technology
Abstract

Ultrasound requires high power and longer treatment times to inactivate microorganisms when compared to ultrasound combined with other technologies. Also, the antimicrobial efficiency of aqueous ozone increases with an increase in its concentration and exposure time, but with a detrimental effect on the quality of the treated food. In this study, the effect of aqueous ozone at low concentration, multi-mode frequency irradiation and their combination on microbial safety and nutritional quality of cherry tomato was investigated. Individual washing with aqueous ozone and mono-mode frequency irradiation resulted in1 log CFU/g reduction in the spoilage microorganisms, while dual-mode frequency irradiation (DMFI) resulted in higher microbial reduction (1.3-2.6 1 log CFU/g). The combined system (20/40 kHz + aqueous ozone) on the other hand, resulted in3 log CFU/g microbial reduction. The application of DMFI enhanced the antimicrobial efficiency of aqueous ozone without any detrimental effect on the physicochemical properties (except the firmness), bioactive compounds, and antioxidants of the cherry tomato during 21 days refrigerated storage. The result obtained indicates the promising substitute to the single washing technique for microbial safety as well as preserving the nutritional quality and enhancing the shelf life of cherry tomato.

Published
2020

28. Ultrasonic-assisted protein extraction from sunflower meal: Kinetic modeling, functional, and structural traits

Author

Benjamin K. Mintah, Hui Jiang, Ronghai He, Hafida Wahia, and Mokhtar Dabbour

Subjects
Residue (complex analysis), Chemistry, Mass transfer, Sonication, Extraction (chemistry), Kinetics, Protein purification, General Chemistry, Food science, Solubility, Sunflower, Industrial and Manufacturing Engineering, Food Science
Abstract

Effect of mono and dual frequency (20, 28 and 20/28 kHz) ultrasound action on extraction kinetics, functional, and structural traits of sunflower protein (SP) was examined. A simplified model based on Fick's second law was developed, and the mass transfer of soluble SP in a heterogeneous system was successfully described. Findings suggested that ultrasound action significantly increased (p Industrial relevance Sunflower protein, isolated from sunflower residue, is a potentially low-cost resource for food applications. Ultrasonication is reported to improve the extraction of proteins as well as enhancing their functionalities. The existing study displayed that ultrasonication (observably dual frequency treated) was successfully applied to improve the extractability of soluble sunflower protein, and enhanced its functionality (solubility and OHe) reference to control. The research outcomes may benefit food/ chemical industries in extraction and/or alteration of sunflower protein in new applications.

Published
2021
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29. Application and challenge of nanocellulose in the food industry

Author

Abu ElGasim A. Yagoub, Hafida Wahia, Cunshan Zhou, Qiaomin Lu, and Xiaojie Yu

Subjects
Engineering, Food industry, business.industry, Nanotechnology, business, Biochemistry, Food Science, Nanocellulose
Abstract

In recent years, nanocellulose from a wide range of sources has attracted extensive attention. Nanocellulose is mainly divided into three categories: nanofibrillated cellulose (NFC), nanocellulose crystals (NCC), bacterial nanocellulose (BNC), which can be obtained by physical method, chemical method, biological method. Nanocellulose is an ideal nanomaterial in many fields due to its biodegradability and other properties. This paper is divided into two parts, focusing on the application and challenges of NFC and NCC in the food field and the application and challenges of BNC in the food field.

Published
2021
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30. Conveyor belt catalytic infrared as a novel apparatus for blanching processing applied to sweet potatoes in the industrial scale

Author

Okonkwo Clinton Emeka, Xiaojie Yu, Song Xiaoqian, Hafida Wahia, Baoguo Xu, Li Chen, Cunshan Zhou, and Abu ElGasim A. Yagoub

Subjects
0106 biological sciences, Materials science, Moisture, Infrared, Blanching, Conveyor belt, 04 agricultural and veterinary sciences, Microstructure, 040401 food science, 01 natural sciences, Catalysis, chemistry.chemical_compound, 0404 agricultural biotechnology, Point of delivery, chemistry, 010608 biotechnology, Phenol, Food science, Food Science
Abstract

In this study, effects of conveyor belt catalytic infrared blanching (CBCIRB) on peroxidase (POD), moisture reduction, physical and chemical properties, and microstructure of sweet potato slices were investigated. The parameters of CBCIRB were infrared irradiation distance (6, 12, and 18 cm), sample thickness (3, 5, and 7 mm), and conveyor speed (0.7, 0.35, 0.1 m/min, etc.). Meanwhile, the effect of conventional hot water blanching (HB) on sweet potato slices were also investigated. The results showed that shortening the infrared irradiation distance and reducing the slice thickness could both accelerate the POD inactivation rate. When 90% POD inactivation was achieved, CBCIRB samples yielded better hardness and higher preservation of phytochemicals than HB samples. The appropriate CBCIRB parameters were the slice thickness of 3 mm, infrared radiation distance of 12 cm and conveyor belt speed of 0.16 m/min, the moisture reduction, surface colour change, hardness, vitamin C retention rate, β-carotene retention rate, and total phenol content were: 78.34%, 7.41, 1690.4 g, 75.16%, 133.49%, and 1.03 mg/g, respectively. The microstructure observation showed that the damage of sweet potato slice cells by HB was more severe than CBCIRB. Overall, CBCIRB achieved higher product quality in a relatively uniform air environment.

Published
2021
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31. Higher heating value, exergy, pyrolysis kinetics and thermodynamic analysis of ultrasound-assisted deep eutectic solvent pretreated watermelon rind biomass

Author

Haile Ma, Cunshan Zhou, Hafida Wahia, Abdullateef Taiye Mustapha, Zezhi Wang, and Olugbenga Abiola Fakayode

Subjects
0106 biological sciences, Exergy, Environmental Engineering, Enthalpy, Biomass, Thermodynamics, Bioengineering, Activation energy, 010501 environmental sciences, 01 natural sciences, Citrullus, Heating, chemistry.chemical_compound, 010608 biotechnology, Coal, Waste Management and Disposal, 0105 earth and related environmental sciences, Renewable Energy, Sustainability and the Environment, business.industry, General Medicine, Deep eutectic solvent, Kinetics, chemistry, Thermogravimetry, Solvents, Heat of combustion, business, Pyrolysis
Abstract

The higher heating value (HHV) and exergy of ultrasound-assisted deep eutectic solvent pretreated watermelon rind (WMR) biomass were investigated. Thereafter, the co-pyrolysis of the WMR biomass and coal blends was studied. The pyrolysis kinetics and thermodynamic parameters of the WMR-coal blends were determined using four isoconversional models (Flynn-Wall-Ozawa, Kissinger-Akahira-Sunose, Friedman and Starink). The HHVs of the pretreated WMR ranged between 12.73 and 19.28 MJ/kg, while the exergy value for the raw and pretreated WMR were 16.08 and 21.55 MJ/kg, respectively. The lower heating value related exergy had the greatest influence on the overall exergy of the WMR. The values of the pre-exponential factor showed variations in wide range, and the change in entropy of the system displayed both negative and positive entropies. The activation energy and enthalpy varied directly with the amount of coal in the blends. Amongst the isoconversional model methods, Friedman model was the best predictor of the kinetic parameters.

Published
2021
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32. Effect of ultrasound‐ethanol pretreatment on drying kinetics, quality parameters, functional group, and amino acid profile of apple slices using pulsed vacuum drying

Author

Abigail Amoa-Owusu, Frederick Sarpong, Cunshan Zhou, Li Chen, Haile Ma, Hafida Wahia, Robert Amanor-Atiemoh, and Mustapha Abdullaleef Taiye

Subjects
Ethanol, Moisture, Food industry, business.industry, General Chemical Engineering, Activation energy, Thermal diffusivity, chemistry.chemical_compound, Nutrient, chemistry, Food processing, Composition (visual arts), Food science, business, Food Science
Abstract

The influence of ultrasound‐ethanol (US‐E) pretreatment durations (10, 20, and 30 min) on apple slices dried with varied temperatures (60, 70, and 80°C) using pulsed vacuum dryer was investigated. The results showed that untreated sample (control) took 375, 325, and 225 min to achieve a constant weight of drying whereas drying time for 30 US‐E samples were 275, 225, and 175 min, indicating that 30 US‐E reduced the total drying time by 26.66, 30.77, and 22.22% at 60, 70, and 80°C, respectively. Moisture effective diffusivity and activation energy were in the range of 1.98–4.08 × 10⁻⁸ m²/s and 12.58–23.43 kJ/mol, respectively. Color (L*, a*, b*) and texture were affected significantly (p

Published
2019
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33. Combination of thermal and dual‐frequency sonication processes for optimum microbiological and antioxidant properties in cherry tomato

Author

Haile Ma, Frederick Sarpong, Mustapha Muhammad Nasiru, Yusuf Bashir Adegbemiga, Cunshan Zhou, Abdullateef Taiye Mustapha, and Hafida Wahia

Subjects
0106 biological sciences, Microbial safety, Antioxidant, biology, General Chemical Engineering, Sonication, medicine.medical_treatment, Combined use, 04 agricultural and veterinary sciences, General Chemistry, Nutritional quality, biology.organism_classification, 040401 food science, 01 natural sciences, 0404 agricultural biotechnology, Cherry tomato, 010608 biotechnology, medicine, Dual frequency, Food science, Response surface methodology, Food Science, Mathematics
Abstract

Cherry tomato fruits were treated with three dual‐frequency ultrasound (US) at different temperature and time. The three treatment variables, that is, dual‐frequency US, temperature, and time were optimized with the aid of response surface methodology (RSM). About 20/40 kHz, 52°C, and 6 min were the optimum condition obtained for total bacteria count (TBC, 1.08 log cfu/g), firmness (15.90 N), and total phenolic content (TPC, 34.34 mg GAE/100 g). All the linear relations of the treatment variables showed a significantly negative and positive effect on the TBC and TPC, respectively, while positive significant effects were obtained for some of the relations of the firmness. Hence dual‐frequency sonication is effective for microbial safety and maintaining the quality of cherry tomato. Also, RSM was found to be a useful tool in setting and optimizing the variables responsible for sonication treatment. PRACTICAL APPLICATIONS: Thermosonication (ultrasonication and heat) has been applied toward improving the microbial safety and nutritional quality of vegetables and fruit. However, factors such as power, frequency, time, temperature, etc. determine the efficiency of its operation. Controlling these factors is difficult and therefore requires a robust and efficient optimization tool in determining their effects (individual and interactions) on food during treatment. In this study, response surface methodology provides the solution in settling and optimizing the variables for the sonication treatment. Besides, the remarkable result obtained in this work offers an alternative to the combined use of ultrasound and chemical in food industries.

Published
2019
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34. Simultaneous optimization of Alicyclobacillus acidoterrestris reduction, pectin methylesterase inactivation, and bioactive compounds enhancement affected by thermosonication in orange juice

Author

Hafida Wahia, Liu Shulan, Chen Li, Abdullateef Taiye Mustapha, Xiaojie Yu, Cunshan Zhou, and Frederick Sarpong

Subjects
Orange juice, food.ingredient, food, Pectin, General Chemical Engineering, General Chemistry, Business, Food science, Simultaneous optimization, Alicyclobacillus acidoterrestris, ComputingMilieux_MISCELLANEOUS, Food Science
Abstract

Policy Guidance Program (Research Cooperation) of Jiangsu, Grant/Award Number: BY2016072‐03; National Key Research and Development Program of China, Grant/Award Number: 2017YFD0400903‐01, 2016YFD0400705‐04, and 2018YFD0; Science and Technology Major Project of Anhui, Grant/Award Number: 18030701152; Social Development Program (General Project) of Jiangsu, Grant/Award Number: BE2016779, NY2017015

Published
2019
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35. Simultaneous multifrequency: A possible alternative to improve the efficacy of ultrasound treatment on cherry tomato during storage

Author

Haile Ma, Abdullateef Taiye Mustapha, Patrick Owusu-Ansah, Richard Osae, Frederick Sarpong, Phyllis Naa Yarley Otu, Hafida Wahia, Cunshan Zhou, and Yanhui Sun

Subjects
Engineering management, Ultrasound treatment, Cherry tomato, biology, General Chemical Engineering, Political science, General Chemistry, biology.organism_classification, ComputingMilieux_MISCELLANEOUS, Food Science
Abstract

Science and Technology Major Project of Anhui, Grant/Award Number: 18030701152; Social Development Program (General Project) of Jiangsu, Grant/Award Number: BE2016779 and NY2017015; Policy Guidance Program (Research Cooperation) of Jiangsu, Grant/Award Number: BY2016072-03; National Key Research and Development Program of China, Grant/Award Number: 2016YFD0400705-04, 2017YFD0400903-01 and 2018YFD0700101-02

Published
2019
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36. Rehydration characteristics of vacuum freeze- and hot air-dried garlic slices

Author

Xiaojie Yu, Hafida Wahia, Haile Ma, Yanhui Sun, Cunshan Zhou, Abu ElGasim A. Yagoub, Zhang Lei, and Feng Yabin

Subjects
0106 biological sciences, Materials science, Chromatography, Absorption of water, Moisture, Slice thickness, 04 agricultural and veterinary sciences, Microstructure, 040401 food science, 01 natural sciences, Contact angle, 0404 agricultural biotechnology, 010608 biotechnology, Water holding capacity, Wetting, Porosity, Food Science
Abstract

This work aimed to study the rehydration characteristics of vacuum freeze- (VFD) and hot air-dried (HAD) garlic slices and explain the rehydration mechanism. It was observed that VFD samples had significantly faster water absorption rates than HAD samples. However, VFD samples had lower final moisture contents than the HAD samples. Additionally, the effect slice thickness on rehydration characteristics of samples was lower than that of drying methods. The contact angle and microstructure analysis of dried samples revealed that the strong water wettability and the porous structure contributed to the faster water absorption rate of VFD samples. Moreover, we found and confirmed, for the first time, that numerous air bubbles trapped in the VFD samples hindered the absorption of water. This resulted in a lower water holding capacity in VFD samples compared with HAD samples, which had less air bubbles.

Published
2021
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37. Structure and stability of low molecular weight collagen peptide (prepared from white carp skin) -calcium complex

Author

Xuan Yang, Li Chen, Hafida Wahia, Xiaojie Yu, Richard Osae, AbuEl-GasimA. Yagoub, and Cunshan Zhou

Subjects
0106 biological sciences, biology, Ultrafiltration, chemistry.chemical_element, Ionic bonding, 04 agricultural and veterinary sciences, Calcium, biology.organism_classification, 040401 food science, 01 natural sciences, Oxygen, Ion, 0404 agricultural biotechnology, Membrane, chemistry, 010608 biotechnology, Particle size, Carp, Food Science, Nuclear chemistry
Abstract

The low molecular weight (≤3 kDa) collagen peptide (CPLW) was prepared from white carp skin by intestinal simulation digested and ultrafiltration membranes. CPLW and calcium ions were combined to form a peptide-calcium complex (CPLW-Ca), and the structure and stability of the complex were characterized. The single factor optimization results indicated that the highest protein conversion rate and the maximum calcium binding ability were 60%, and 22.16 ± 0.55 mg/g, respectively. Structural analysis demonstrated that calcium ions bound to CPLW mainly via the formation of ionic bonds with carboxyl oxygen, hydroxyl oxygen and amino nitrogen atom of CPLW. The CD and particle size analyses showed that after CPLW was combined with calcium ions, the spatial structure was folded, which reduced the particle size with the formation of irregular nanoparticles. Stability analysis revealed that the calcium retention rate of the prepared CPLW-Ca remained substantially at 90% below 90 °C, and the calcium content of CPLW-Ca was significantly decreased under high acidic conditions. CPLW-Ca has the potential to be applied as an alternative for dietary calcium supplements.

Published
2021
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38. Novel two-pot approach ultrasonication and deep eutectic solvent pretreatments for watermelon rind delignification: Parametric screening and optimization via response surface methodology

Author

Hafida Wahia, Dong Yan, Haile Ma, Abdullateef Taiye Mustapha, Cunshan Zhou, Olugbenga Abiola Fakayode, Elmuez Alsir Ahmed Aboagarib, and Mo Li

Subjects
Hydrogen bond, Chemistry, 020209 energy, Mechanical Engineering, Sonication, Composite number, 02 engineering and technology, Building and Construction, Pretreatment method, Pollution, Industrial and Manufacturing Engineering, Deep eutectic solvent, chemistry.chemical_compound, General Energy, 020401 chemical engineering, 0202 electrical engineering, electronic engineering, information engineering, Lignin, Response surface methodology, 0204 chemical engineering, Electrical and Electronic Engineering, Fourier transform infrared spectroscopy, Civil and Structural Engineering, Nuclear chemistry
Abstract

Sequential delignification of watermelon rind using ultrasonication and deep eutectic solvent (DES) pretreatment methods was demonstrated in this study. The effects of pretreatment factors on delignification were investigated using parametric screening and subsequent optimization of significant factors. Plackett–Burman Design was used for the screening of pretreatment variables, while optimization was performed adopting Central Composite Rotatable Design. For the range of variables considered in the study, the screening experiments revealed that the effects of ultrasonication power, ultrasonication frequency, ultrasonication time, DES reaction temperature and DES reaction time on delignification were significant, while the effects of ultrasonication solid-liquid ratio, ultrasonication temperature, hydrogen bond acceptor/hydrogen bond donor molar ratio, and DES solid-to-liquid ratio were not significant. The significant factors were further investigated and maximum lignin removal of 43.56 % was achieved at ultrasonication power 180 W , ultrasonication frequency 60 k H z , ultrasonication time 40 m i n , reaction temperature 120° C and reaction time 180 m i n . Synergistic effect between the two pretreatment methods was observed and it correlated positively with the severity of the ultrasound pretreatment. The SEM and FTIR analyses further established the effectiveness of the sequential combinative pretreatment methods on watermelon rind delignification.

Published
2020
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39. Storage effects on the quality quartet of orange juice submitted to moderate thermosonication: Predictive modeling and odor fingerprinting approach

Author

Olugbenga Abiola Fakayode, Robert Amanor-Atiemoh, Abdullateef Taiye Mustapha, Haile Ma, Hafida Wahia, Li Mo, and Cunshan Zhou

Subjects
food.ingredient, Chemical Phenomena, Acoustics and Ultrasonics, Pectin, Food spoilage, 02 engineering and technology, 010402 general chemistry, Shelf life, 01 natural sciences, Esterase, Antioxidants, Inorganic Chemistry, Sonication, food, Food Quality, Chemical Engineering (miscellaneous), Environmental Chemistry, Radiology, Nuclear Medicine and imaging, Food science, Aroma, Orange juice, biology, Chemistry, Alicyclobacillus, Organic Chemistry, Temperature, 021001 nanoscience & nanotechnology, biology.organism_classification, 0104 chemical sciences, Fruit and Vegetable Juices, Food Storage, Odor, Taste, Odorants, 0210 nano-technology, Citrus sinensis
Abstract

The effects of moderate thermosonication (MTS) on the quality quartet: physico-chemical, microbial, nutritional and sensory qualities of orange juice (OJ) inoculated with Alicyclobacillus acidoterrestris (AAT) were studied during 24 days of storage at ambient and refrigerated temperatures. The bioactive compounds and antioxidant activity of OJ decreased with storage, while the pectin methyl esterase (PME) increased. Nonetheless, noticeable changes were observed from the 12th day of storage. There was no obvious (p > 0.05) variation in pH and total soluble solids. To determine the nutritional and microbial quality characteristics of OJ during storage, non-linear kinetic curves were successfully fitted with least square fitting polynomial and four-parameter log-logistic distribution models. The E-nose sensors succeeded in discriminating between the aroma of non-treated and treated OJ based on linear discriminant analysis (LDA). Furthermore, terpenes, alcohol and partially aromatic compounds were the main spoilage indicators of OJ during storage based on E-nose analysis and confirmed by HS-SPME-GC/MS analysis. Thus, MTS significantly extended the shelf life of the quality quartet of natural OJ at 4 °C. E-nose-GC/MS fusion offered odor fingerprints to AAT microorganisms that can be used as spoilage index without using traditional food analysis techniques. The proposed approach can be used as an alternative tool for rapid detection of spoilage microorganisms in OJ.

Published
2020
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40. Kinetic modeling of inactivation of natural microbiota and Escherichia coli on cherry tomato treated with fixed multi-frequency sonication

Author

Hafida Wahia, Abdullateef Taiye Mustapha, Olugbenga Abiola Fakayode, Haile Ma, Robert Amanor-Atiemoh, Mariam Owusu-Fordjour, and Cunshan Zhou

Subjects
Acoustics and Ultrasonics, Aerobic bacteria, Sonication, medicine.disease_cause, Kinetic energy, Models, Biological, Inorganic Chemistry, Solanum lycopersicum, Cherry tomato, Escherichia coli, medicine, Chemical Engineering (miscellaneous), Environmental Chemistry, Radiology, Nuclear Medicine and imaging, Microbial Viability, Chromatography, biology, Chemistry, Microbiota, Organic Chemistry, biology.organism_classification, Microbial inactivation, Yeast, Kinetics, Mesophile
Abstract

The suitability of some non-linear kinetic models (Weibull {with or without tail}, Log-linear, Log-linear shoulder {with or without tail}, Biphasic linear, Logistic, Multi-target and Single-target models) were evaluated to determine the inactivation kinetics of inoculated E. coli, and natural microbiota (i.e. mesophilic aerobic bacteria, and mold and yeast) on cherry tomato treated with fixed multi-frequency ultrasound. Almost all the studied model fitted well (R2 ≥ 0.9) for the inactivation kinetics; however, the Weibull, Log-linear shoulder, and Biphasic linear model showed the highest statistical parameters (0.9 ≤ adj. R2 ≤ 0.99 and smallest RMSE and SSE values). All the three models could be used to compare the kinetic behavior of E. coli and the first two models for the kinetic behavior of mesophilic aerobic bacteria and mold and yeast during sonication treatment. Two distinctive inactivation curves were obtained for the mono-frequency and the multi-frequency (dual and tri-frequency) for all the microbial inactivation. The remarkable results obtained for dual and tri-frequency sonication shows to be an effective and promising alternative to the traditional microbial inactivation techniques and the common practice of using ultrasound with other sanitizing methods.

Published
2020
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41. Efficacy of dual-frequency ultrasound and sanitizers washing treatments on quality retention of cherry tomato

Author

Abdullateef Taiye Mustapha, Haile Ma, Robert Amanor-Atiemoh, Hafida Wahia, Yanhui Sun, Tahany A.A. Ali, and Cunshan Zhou

Subjects
chemistry.chemical_classification, biology, Flavonoid, food and beverages, Titratable acid, 04 agricultural and veterinary sciences, General Chemistry, biology.organism_classification, 040401 food science, Industrial and Manufacturing Engineering, Sodium dichloroisocyanurate, chemistry.chemical_compound, 0404 agricultural biotechnology, chemistry, Cherry tomato, Dual frequency ultrasound, Peracetic acid, Food science, Hydrogen peroxide, Food Science, Mesophile
Abstract

Refrigeration is an effective means of reducing losses in fresh fruit; however, its efficacy as a means of preservation is mostly limited to crops that are not vulnerable to chill injury. Cherry tomato is one of these crops where other supporting processes or storage alternatives are sought. The effect of 10-min post-harvest treatment of cherry tomato with individual or combined application of dual-frequency ultrasound (20/40 kHz) and chemical sanitizers was investigated. The sanitizers used are 200 mg/L sodium dichloroisocyanurate (SD), 40 mg/L peracetic acid (PAA), 40 mg/L peracetic acid with 5% H2O2 (PAAH), and 5% hydrogen peroxide. The results showed that the treatments significantly reduced the natural microbiota (aerobic mesophiles and yeasts and molds) within the values of 0.29–3.10 log CFU/g. The highest inactivation was observed for the PAAH and ultrasound when applied as an individual (2.08–2.32 log CFU/g) and combined (3.07–3.10 log CFU/g) treatment. Also, the ultrasound and combined treatment resulted in higher retention of the total phenolic, and flavonoid contents, but with a loss in firmness of the cherry tomato. Nevertheless, during storage, the treatments when compared with the untreated samples, impede the loss in firmness. The other quality parameters such as pH, total soluble solids, titratable acidity, and maturity index were not affected, which signified that irrespective of the treatment, similar changes take place on the fruit during storage, especially in both control and chemically treated fruit. The combination of 40 mg/L PAAH and 20/40 kHz for 10 min caused ≥3-log CFU/g reduction of the natural microbiota. It mitigated the senescence of the cherry tomato during the refrigerated storage (4 °C), which thereby increased the shelf-life. The results obtained at the end of the storage thereby indicated that the combined treatments could guarantee microbial safety and retain the quality of the cherry tomato.

Published
2020
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