Development of a methodology for determining the critical limits of the critical control points of the production of bakery products in the Republic of Kazakhstan

Authors

DOI:

https://doi.org/10.15587/1729-4061.2021.234969

Keywords:

HACCP, critical control points, bakery products, food safety and quality

Abstract

This study was conducted to determine the impact of the HACCP management system on the safety of final products in baked goods production. The object of the study is two critical control points of the production of bakery products, which in turn affect the indicator of microbiological quality and safety of finished products. Using a mathematical model, the critical limits of critical control points (CCP) were determined – in the baking and cooling processes of baked goods. For the two CCPs, measures for continuous monitoring have been defined and critical limits have been developed. For CCT 1, a theoretical calculation using a mathematical model is given: the critical limit of the baking process (95.2–99.1 °C in the center of the crumb), by controlling this process, the company controls the biohazard factor, for CCP 2 the critical limit of cooling the finished product to a temperature of 22.84 °C in the center of the crumb for safe packing. The presentation of the results of the development of critical control limits and critical points of the production of bakery products using the construction of mathematical modeling is the theoretical beginning of further research.

When compiling the model, the physical parameters of a specific dough with a certain geometric shape were used, from which the bakery product is baked. The use of a mathematical model allows predetermining the baking parameters for the dough of any initial concentration.

The results can be used in the production of baked goods to better ensure the quality and safety of the final product

Author Biographies

Ulbala Tungyshbayeva, Almaty Technological University

PhD

Department of Food Safety and Quality

Saverio Mannino, Almaty Technological University

Doctor of Technical Sciences, Professor

Department of Food Safety and Quality

Raushangul Uazhanova, Almaty Technological University

Doctor of Technical Sciences, Professor

Department of Food Safety and Quality

Mamyrbek Alibekovich Adilbekov, Almaty Technological University

PhD in Physics and Mathematics, Associate Professor

Department of Mechanization and Automation of Production Processes

Madina Asatullaevna Yakiyayeva, Almaty Technological University

PhD, Associate Professor, Deputy Director

Research Institute of Food Technologies

Assemay Kazhymurat, Almaty Technological University

Master of Technical Science

Department of Food Safety and Quality

References

  1. Press release on the draft resolution of the Government of the Republic of Kazakhstan "On approval of the National project for the development of the agro-industrial complex of the Republic of Kazakhstan for 2021-2025". Available at: https://www.gov.kz/memleket/entities/moa/documents/details/163980?lang=kk
  2. Hazard Analysis and Critical Control Point (HACCP) Tutorial. Available at: https://studylib.ru/doc/159976/principy-nassr---associaciya-plodoovoshhnyh-predpriyatij
  3. Basyuk, A. S., Nelina, V. V., Prohorova, V. V. (2017). Upravlenie kachestvom na predpriyatii. Krasnodar: KubGTU, 252.
  4. Uazhanova, R., Mannino, S., Tungyshbaeva, U., Kazhymurat, A. (2018). Evaluation of the effectiveness of internal training of personnel in the HACCP system at the bakery enterprise. Acta Technica, 63 (1), 1–8.
  5. Chernova, E. V., Bychenkova, V. V. (2018). Obespechenie i kontrol' printsipov NASSR pri proektirovanii i funktsionirovanii predpriyatiy. Sankt-Peterburg: Izd-vo Politekhi, un-ta, 196.
  6. Malekjani, N., Jafari, S. M. (2020). Modeling the release of food bioactive ingredients from carriers/nanocarriers by the empirical, semiempirical, and mechanistic models. Comprehensive Reviews in Food Science and Food Safety, 20 (1), 3–47. doi: https://doi.org/10.1111/1541-4337.12660
  7. Anandappa, A. (2013). Evaluating Food Safety Systems Development and Implementation by Quantifying HACCP Training Durability. University of Kentucky.
  8. Kahindi, B. B. (2016). Food Safety Management Practices of Small and Medium Sized Food Industry Enterprizes in Tanzania. Western Kentucky University. Available at: https://digitalcommons.wku.edu/cgi/viewcontent.cgi?article=2566&context=theses
  9. Vayskrobova, E. S. (2011). Razrabotka integrirovannoy sistemy upravleniya kachestvom i bezopasnost'yu syrokopchenyh kolbas. Magnitogorsk, 23.
  10. Valentas Kennet Dzh., Rotshteyn Enrike, R. Singh Pol (2004). Pishchevaya inzheneriya: Spravochnik s primerami raschetov. Sankt-Peterburg: Professiya, 848.
  11. Uazhanova, R., Tungyshbaeva, U., Kazhymurat, A., Mannino, S. (2018). Evaluation of the Effectiveness of Implementing Control Systems in the Increasing of Food Safety. Journal of Advanced Research in Dynamical & Control Systems, 10, 649–656. Available at: https://elibrary.ru/item.asp?id=38685389
  12. Galun, L. A., Trigubova, L. A., Kirilenko, N. M. (2005). Standartizatsiya, sertifikatsiya i upravlenie kachestvom v proizvodstve. Gomel': BTEU, 104.
  13. Gudkov, S. A. (2004). Po itogam konferentsii RASKhN «Kachestvo i bezopasnost' sel'skohozyaystvennogo syr'ya i pishchevyh produktov». Hranenie i pererabotka sel'hozsyr'ya, 12, 62–68.
  14. Ibraimova, S., Uazhanova, R., Mardar, M., Serikbaeva, A., Tkachenko, N., Zhygunov, D. (2020). Development of recipe composition of bread with the inclusion of juniper using mathematical modeling and assessment of its quality. Eastern-European Journal of Enterprise Technologies, 6 (11 (108)), 6–16. doi: https://doi.org/10.15587/1729-4061.2020.219020
  15. Isachenko, V. P., Osipova, V. A., Sukomel, A. S. (1981). Teploperedacha. Moscow: Energiya, 488.
  16. Ishevskiy, A. L., Leont'eva, T. I., Gun'kova, P. I. (2019). Standartizatsii i sertifikatsii pishchevogo syr'ya i produktsii. Moscow: Mir nauki, 48.
  17. Jay, J. M., Loessner, M. J., Golden, D. A. (2005). Modern Food Microbiology. Springer, 790. doi: https://doi.org/10.1007/b100840
  18. Kantere, V. M., Matison, V. A., Sazonov, Yu. S. (2006). Sistemy menedzhmenta bezopasnosti pishchevoy produktsii na osnove mezhdunarodnogo standarta ISO 22000. Moscow: Tipografiya RASKhN, 454.
  19. Wallace, C. A., Sperber, W. H., Mortimore, S. E. (Eds.) (2018). Food Safety for the 21st Century. John Wiley & Sons. doi: https://doi.org/10.1002/9781119053569
  20. Marriott, N. G., Schilling, M. W., Gravani, R. B. (2018). Principles of Food Sanitation. Food Science Text Series. doi: https://doi.org/10.1007/978-3-319-67166-6
  21. Mortimore, S., Wallace, C. (2013). HACCP: A Practical Approach. Springer, 475. doi: https://doi.org/10.1007/978-1-4614-5028-3
  22. McElhatton, A., Marshall, R. J. (Eds.) (2007). Food Safety. A Practical and Case Study Approach. Springer, 312. doi: https://doi.org/10.1007/978-0-387-33957-3
  23. Rusinovich, A. A., Chernyh, O. Yu., Motuzko, N. S. et. al. (2018). Sistema analiza riskov i kontrol'nyh kriticheskih tochek v veterinarnoy deyatel'nosti. Krasnodar: Kubanskiy gosudarstvennyy agrarniy universitet imeni I.T. Trubilina, 209.
  24. Swainson, M. (2019). Swainson's Handbook of Technical and Quality Management for the Food Manufacturing Sector. Woodhead Publishing. doi: https://doi.org/10.1016/c2013-0-16510-5
  25. Varzakas, T., Tzia, C. (Eds.) (2016). Handbook of Food Processing. Food Safety, Quality, and Manufacturing Processes. CRC Press, 679. doi: https://doi.org/10.1201/b19398
  26. Tursunbayeva, Sh. A., Iztayev, A., Magomedov, М., Yakiyayeva, М. А., Muldabekova, B. Zh. (2019). Study of the quality of low-class wheat and bread obtained by the accelerated test method. J. Periodico Tche Quimica, 16 (33), 809–822.
  27. Uazhanova, R. U., Kazhymurat, A. T., Tungyshbayeva, U. O., Saez, A. C. (2019). Development and implementation of HACCP plan based on FMEA in collagen hydrolizate industry. Journal of Hygienic Engineering and Design, 28, 13–21.
  28. Yakiyayeva, M., Iztayev, A., Kizatova, M., Maemerov, M., Iztayeva, A., Feydengold, V. et. al. (2016). Influence of ionic, ozone ion-ozone cavitational treatment on safety of the leguminous plants and oil-bearing crops at the storage. Journal of Engineering and Applied Sciences, 11 (6), 1229–1234.

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Published

2021-06-30

How to Cite

Tungyshbayeva, U., Mannino, S., Uazhanova, R., Adilbekov, M. A., Yakiyayeva, M. A., & Kazhymurat, A. (2021). Development of a methodology for determining the critical limits of the critical control points of the production of bakery products in the Republic of Kazakhstan. Eastern-European Journal of Enterprise Technologies, 3(11 (111), 57–69. https://doi.org/10.15587/1729-4061.2021.234969

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Section

Technology and Equipment of Food Production