USING OF ELECTROSPUN CHROMIUM OXIDE NANPFIBER TO INCREASE THE SHELF LIFE OF FROZEN BEEF BURGER
Electrospun Whey protein membranes reinforced with electrospun chromium oxide nanofibers were utilized for the packaging of beef burger, which were subsequently frozen and stored for 3 months. The chromium oxide nanofibers were incorporated into the membranes at two concentrations 6, 8 %. The study...
Saved in:
| Main Authors: | , , |
|---|---|
| Format: | Article |
| Language: | English |
| Published: |
Baghdad University
2025-01-01
|
| Series: | The Iraqi Journal of Agricultural science |
| Subjects: | |
| Online Access: | https://www.jcoagri.uobaghdad.edu.iq/index.php/intro/article/view/2123 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| _version_ | 1823859211940921344 |
|---|---|
| author | Majd A. A Alrubeii, A. M. S. L. T. Al–Hadedee |
| author_facet | Majd A. A Alrubeii, A. M. S. L. T. Al–Hadedee |
| author_sort | Majd A. A |
| collection | DOAJ |
| description |
Electrospun Whey protein membranes reinforced with electrospun chromium oxide nanofibers were utilized for the packaging of beef burger, which were subsequently frozen and stored for 3 months. The chromium oxide nanofibers were incorporated into the membranes at two concentrations 6, 8 %. The study exhibited promising results for the electrospun nanofibers, as their addition contributed to reducing the total bacterial count, psychrophilic bacterial count, and coliform count during the storage period, at both concentrations: 4.89 × 103, 4.36 × 103, 3.28 × 101, 2.48 × 103, and 2.79 × 103 colony-forming units per gram (CFU/g), respectively. Meanwhile, the moisture, protein, fat, and ash percentage of the beef burger reached 60.19, 60.10, 18.41, and 18.49%, respectively, for both additive concentrations. The addition of nanofibers also improved water-holding capacity during storage, reaching 39.02 and 39.63% for the respective concentrations. Moreover, it helped maintain a stable pH level of 5.70 and 5.64 during the final storage period. Additionally, the inclusion of nanofibers ensured that the peroxide value remained within acceptable limits at 7.17 and 6.84 milliequivalents per kilogram, respectively.
|
| format | Article |
| id | doaj-art-d2d49998823e46c9b69467a51ce6e933 |
| institution | Kabale University |
| issn | 0075-0530 2410-0862 |
| language | English |
| publishDate | 2025-01-01 |
| publisher | Baghdad University |
| record_format | Article |
| series | The Iraqi Journal of Agricultural science |
| spelling | doaj-art-d2d49998823e46c9b69467a51ce6e9332025-02-11T07:09:37ZengBaghdad UniversityThe Iraqi Journal of Agricultural science0075-05302410-08622025-01-0156Special10.36103/2x991f27USING OF ELECTROSPUN CHROMIUM OXIDE NANPFIBER TO INCREASE THE SHELF LIFE OF FROZEN BEEF BURGERMajd A. AAlrubeii, A. M. S.L. T. Al–Hadedee Electrospun Whey protein membranes reinforced with electrospun chromium oxide nanofibers were utilized for the packaging of beef burger, which were subsequently frozen and stored for 3 months. The chromium oxide nanofibers were incorporated into the membranes at two concentrations 6, 8 %. The study exhibited promising results for the electrospun nanofibers, as their addition contributed to reducing the total bacterial count, psychrophilic bacterial count, and coliform count during the storage period, at both concentrations: 4.89 × 103, 4.36 × 103, 3.28 × 101, 2.48 × 103, and 2.79 × 103 colony-forming units per gram (CFU/g), respectively. Meanwhile, the moisture, protein, fat, and ash percentage of the beef burger reached 60.19, 60.10, 18.41, and 18.49%, respectively, for both additive concentrations. The addition of nanofibers also improved water-holding capacity during storage, reaching 39.02 and 39.63% for the respective concentrations. Moreover, it helped maintain a stable pH level of 5.70 and 5.64 during the final storage period. Additionally, the inclusion of nanofibers ensured that the peroxide value remained within acceptable limits at 7.17 and 6.84 milliequivalents per kilogram, respectively. https://www.jcoagri.uobaghdad.edu.iq/index.php/intro/article/view/2123protein, meat processing ,WHC, food safety |
| spellingShingle | Majd A. A Alrubeii, A. M. S. L. T. Al–Hadedee USING OF ELECTROSPUN CHROMIUM OXIDE NANPFIBER TO INCREASE THE SHELF LIFE OF FROZEN BEEF BURGER The Iraqi Journal of Agricultural science protein, meat processing ,WHC, food safety |
| title | USING OF ELECTROSPUN CHROMIUM OXIDE NANPFIBER TO INCREASE THE SHELF LIFE OF FROZEN BEEF BURGER |
| title_full | USING OF ELECTROSPUN CHROMIUM OXIDE NANPFIBER TO INCREASE THE SHELF LIFE OF FROZEN BEEF BURGER |
| title_fullStr | USING OF ELECTROSPUN CHROMIUM OXIDE NANPFIBER TO INCREASE THE SHELF LIFE OF FROZEN BEEF BURGER |
| title_full_unstemmed | USING OF ELECTROSPUN CHROMIUM OXIDE NANPFIBER TO INCREASE THE SHELF LIFE OF FROZEN BEEF BURGER |
| title_short | USING OF ELECTROSPUN CHROMIUM OXIDE NANPFIBER TO INCREASE THE SHELF LIFE OF FROZEN BEEF BURGER |
| title_sort | using of electrospun chromium oxide nanpfiber to increase the shelf life of frozen beef burger |
| topic | protein, meat processing ,WHC, food safety |
| url | https://www.jcoagri.uobaghdad.edu.iq/index.php/intro/article/view/2123 |
| work_keys_str_mv | AT majdaa usingofelectrospunchromiumoxidenanpfibertoincreasetheshelflifeoffrozenbeefburger AT alrubeiiams usingofelectrospunchromiumoxidenanpfibertoincreasetheshelflifeoffrozenbeefburger AT ltalhadedee usingofelectrospunchromiumoxidenanpfibertoincreasetheshelflifeoffrozenbeefburger |