Open Access
| Issue |
BIO Web Conf.
Volume 146, 2024
2nd Biology Trunojoyo Madura International Conference (BTMIC 2024)
|
|
|---|---|---|
| Article Number | 01025 | |
| Number of page(s) | 5 | |
| Section | Dense Matter | |
| DOI | https://doi.org/10.1051/bioconf/202414601025 | |
| Published online | 27 November 2024 | |
- S. Wyndham Lewis, Eva Crane: Honey, A Comprehensive Survey, Bee World, 98, p. 105, Jul. (2021) [CrossRef] [Google Scholar]
- M. Zarei, A. Fazlara, and N. Tulabifard, Effect of thermal treatment on physicochemical and antioxidant properties of honey, Heliyon, 5, e01894, (2019) [CrossRef] [PubMed] [Google Scholar]
- A. G. Lockhead, Factors Concerned with the Fermentation of Honey, Zentbl. Bakt. Parasitkde II Abst., 88, 296–302, (1933) [Google Scholar]
- D. M. Wakhle and R. P. Phadke, Design for honey processing unit-Part I, Indian Bee J., 57, 144–146, (1995) [Google Scholar]
- D. Wakhle, R. Phadke, D. V. E. Pais, and K. S. Nair, Design for Honey Processing Unit Part II, Indian Bee J, 58, 5–9, (1996) [Google Scholar]
- E. Mungai, C. B. Behravesh, and L. H. Gould, Increased Outbreaks Associated With Nonpasteurized Milk, United States, 2007 2012, Emerg. Infect. Dis., (2015) [Google Scholar]
- T. A. M. Alabdali. N. C. Icyer, G. U. Ozkaya, and M. Z. Durak, Effect of Stand-Alone and Combined Ultraviolet and Ultrasound Treatments on Physicochemical and Microbial Characteristics of Pomegranate Juice, Appl. Sci., (2020) [Google Scholar]
- B. An, N. H. Budak, A. C. Seydim, and Z. B. Guzel-Seydim, Effects of Ozonation on Apple Juice Quality, Int. J. Fruit Sci., (2020) [Google Scholar]
- D. Harjunowibowo, Y. A. Rezeki, Y. Rinanto, A. A. Kamilla, A. Mardhiyah, and A. S. Visinanda, Potensi UV dan Ozon (Untuk Pasteurisasi), 1st ed. Surakarta: Underline, (2023) [Google Scholar]
- S. Yikmiş, E. Bozgeyik, O. Levent, and H. Aksu, Organic Cherry Laurel ( Prunus Laurocerasus ) Vinegar Enriched With Bioactive Compounds With Ultrasound Technology Using Artificial Neural Network (ANN) and Response Surface Methodology (RSM): Antidiabetic, Antihypertensive, Cytotoxic Activities, V, J. Food Process. Preserv., (2021) [Google Scholar]
- J. M. Miranda et al., Egg and Egg-Derived Foods: Effects on Human Health and Use as Functional Foods, Nutrients, (2015) E. Puertolas, G. Saldana, I. Alvarez, and J. Raso, Effect of Pulsed Electric Field Processing of Red Grapes on Wine Chromatic and Phenolic Characteristics During Aging in Oak Barrels, J. Agric. Food Chem., (2010) [Google Scholar]
- E. Adal, Microbial Inactivation by Ultrasound in the Food Industry, (2020) [Google Scholar]
- V. Chiozzi, S. Agriopoulou, and T. Varzakas, Advances, Applications, and Comparison of Thermal (Pasteurization, Sterilization, and Aseptic Packaging) against Non-Thermal (Ultrasounds, UV Radiation, Ozonation, High Hydrostatic Pressure) Technologies in Food Processing, Applied Sciences (Switzerland), 12, MDPI, Feb. (2022) [Google Scholar]
- M. Bourgin et al., Evaluation of a Full-Scale Wastewater Treatment Plant Upgraded With Ozonation and Biological Post-Treatments: Abatement of Micropollutants, Formation of Transformation Products and Oxidation by-Products, Water Res., (2018) [Google Scholar]
- R. Botondi, M. Barone, and C. Grasso, A Review Into the Effectiveness of Ozone Technology for Improving the Safety and Preserving the Quality of Fresh-Cut Fruits and Vegetables, Foods, (2021) [Google Scholar]
- M. Y. Akbas and H. Olmez, Effectiveness of Organic Acid, Ozonated Water and Chlorine Dippings on Microbial Reduction and Storage Quality of Fresh-Cut Iceberg Lettuce, J. Sci. Food Agric., (2007) [Google Scholar]
- S. Sroy, J. F. Fundo, F. A. Miller, T. R. S. Brandao. and C. L. M. Silva, Impact of Ozone Processing on Microbiological, Physicochemical, and Bioactive Characteristics of Refrigerated Stored Cantaloupe Melon Juice. J. Food Process. Preserv., (2019) [Google Scholar]
- D. Beltrán, M. V Selma, and A. Marín, and M. I. Gil, Ozonated Water Extends the Shelf Life of Fresh-Cut Lettuce, J. Agric. Food Chem., 14, 5654–5663, (2005) [CrossRef] [PubMed] [Google Scholar]
- J.-G. Kim, A. E. Yousef, and M. A. Khadre, Ozone and Its Current and Future Application, Adv. Food Nutr. Res., 45, 0–12, (2003) [Google Scholar]
- R. Aslam, M. S. Alam, and P. A. Saeed, Sanitization Potential of Ozone and Its Role in Postharvest Quality Management of Fruits and Vegetables, Food Eng. Rev., 12, 48–67, (2020) [CrossRef] [Google Scholar]
- C. O’Donnell, B. K. Tiwari, P. J. Cullen, and R. G. Rice, Ozone in Food Processing. (2012) [CrossRef] [Google Scholar]
- N. Tzortzakis and A. Chrysargyris, Postharvest ozone application for the preservation of fruits and vegetables, Food Rev. Int., 33, 270–315, (2017). [CrossRef] [Google Scholar]
- R. Tabla and I. Roa, Use of gaseous ozone in soft cheese ripening: Effect on the rind microorganisms and the sensorial quality, Lwt, 170, no. June, p. 114066, (2022) [CrossRef] [Google Scholar]
- R. Serra, L. Abrunhosa, Z. Kozakiewicz, A. Venancio, and N. Lima, Use of Ozone to Reduce Molds in a Cheese Ripening Room, J. Food Prot., 66, 2355–2358, (2003) [CrossRef] [Google Scholar]
- E. I. Epelle et al., Bacterial and fungal disinfection via ozonation in air, J. Microbiol. Methods, 194, no. January, p. 106431, (2022) [CrossRef] [Google Scholar]
- E. I. Epelle et al., Ozone application in different industries: A review of recent developments, Chem. Eng. J., 454, p. 140188, (2023) [CrossRef] [Google Scholar]
- E. Lillo et al., Eval. antibact. O2/O3 mix in vitro act. on bact. isol. from cervico-vag. mucus of cows with acute metritis, Theriogenology, 196, 25–30 (2023) [CrossRef] [PubMed] [Google Scholar]
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