Developing a procedure for controlling the rheological properties of dough during its kneading based on a parametric model

Authors

DOI:

https://doi.org/10.15587/1729-4061.2022.257323

Keywords:

rheology, dough, organoleptic, procedure, elasticity, force, kneading machine, deformation, dispersion

Abstract

This work is aimed at developing a procedure for controlling the rheological properties of wheat dough during its kneading based on a parametric model. Dough kneading is the most important technological operation in the production of bakery products. When organoleptically assessing the consistency of the dough, it is difficult to accurately determine its rheological properties while maintaining the mass of water and its intensity at a constant level of the mass of the kneaded dough, considering the processed flour. However, our proposed procedure can solve these problems. According to the results obtained, it was experimentally found that the nature of changes in the specific intensity of dough kneading, which contributed to obtaining the best quality bread at a kneading body rotational speed of 150 rpm, is optimal. The dough kneading intensity leads to a reduction in the kneading time from 290 s at nm=60 rpm to 90 s at nm=240 rpm. The optimal duration of dough kneading  was 124 s.

The results make it possible to determine the water absorption capacity of flour in the production of bakery products, considering its baking properties and dough recipe, and, accordingly, the optimal moisture content of the dough

Author Biographies

Elvira Mailybayeva, M. Kh. Dulaty Taraz Regional University

Doctoral Student, Research Associate

Department of Food Technology, Processing Industries and Biotechnology

Alimzhan Imanbayev, Mukhtar Auezov South Kazakhstan University

PhD, Associate Professor

Department of Technology and Safety of Food Products

Gulmira Yessirkep, Kazakh University of Technology and Business

PhD, Associate Professor

Department of Technology and Standardization

Saltanat Mussayeva, Mukhtar Auezov South Kazakhstan University

Associate Professor

Department of Food Engineering

Azret Shingissov, Mukhtar Auezov South Kazakhstan University

Doctor of Technical Sciences, Professor

Department of Technology and Food Safety

References

  1. Erkebaev, M. Zh., Kulazhanov, T. K., Medvedkov, E. B. (2006). Osnovy reologii pischevykh produktov. Almaty, 298.
  2. Erkebaev, M. Zh., Medvedkov, E. B., Gadzhiev, T. I,, Seydekhanov, A. S., Erzhanov, N. M. (2007). Intensifikatsiya protsessov mekhanicheskoy obrabotki pischevykh mass. Almaty, 298.
  3. Erkebaev, M. Zh., Medvedkov, E. B., Isabekova, L. S., Mateev, E. Z. (2014). Azyқ-tүlіk өnіmderіnің reologiyalyқ negіzderі. Almaty, 256.
  4. Bobkov, V. A. (2008). Vliyanie funktsional'nykh komponentov na reologicheskie svoystva pshenichnogo testa. Konditerskoe i khlebopekarnoe proizvodstvo, 12, 14–15.
  5. Menli, D. (2003). Muchnye konditerskie izdeliya. Sankt-Peterburg: GIORD, 558.
  6. Puchkova, L. I., Polandova, R. D., Matveeva, I. V. (2005). Tekhnologiya khleba, konditerskikh i makaronnykh izdeliy. Sankt-Peterburg: GIORD, 557.
  7. Zheng, Н. Н. (1998). Rheological properties of wheat flour dough. Massey University, 137.
  8. Lindborg, K. M., Trägårdh, C., Eliasson, A.-C., Dejmek, P. (1997). Time-Resolved Shear Viscosity of Wheat Flour Doughs – Effect of Mixing, Shear Rate, and Resting on the Viscosity of Doughs of Different Flours. Cereal Chemistry Journal, 74 (1), 49–55. doi: https://doi.org/10.1094/cchem.1997.74.1.49
  9. Martinant, J. P., Nicolas, Y., Bouguennec, A., Popineau, Y., Saulnier, L., Branlard, G. (1998). Relationships Between Mixograph Parameters and Indices of Wheat Grain Quality. Journal of Cereal Science, 27 (2), 179–189. doi: https://doi.org/10.1006/jcrs.1997.0156
  10. Janssen, A. M., van Vliet, T., Vereijken, J. M. (1996). Fundamental and Empirical Rheological Behaviour of Wheat Flour Doughs and Comparison with Bread Making Performance. Journal of Cereal Science, 23 (1), 43–54. doi: https://doi.org/10.1006/jcrs.1996.0004
  11. Kuktaite, R., Larsson, H., Johansson, E. (2007). The Influence of Dough Mixing Time on Wheat Protein Composition and Gluten Quality for Four Commercial Flour Mixtures. Wheat Production in Stressed Environments, 543–548. doi: https://doi.org/10.1007/1-4020-5497-1_66
  12. Faubion, J. M., Dreese, P. C., Diehl, K. C. (1985). Dynamic rheological testing of wheat flour doughs. Rheology of Wheat Products, 91–116.
  13. Safari-Ardi, M., Phan-Thien, N. (1998). Stress Relaxation and Oscillatory Tests to Distinguish Between Doughs Prepared from Wheat Flours of Different Varietal Origin. Cereal Chemistry Journal, 75 (1), 80–84. doi: https://doi.org/10.1094/cchem.1998.75.1.80
  14. Zheng, H., Morgenstern, M. P., Campanella, O. H., Larsen, N. G. (2000). Rheological Properties of Dough During Mechanical Dough Development. Journal of Cereal Science, 32 (3), 293–306. doi: https://doi.org/10.1006/jcrs.2000.0339

Downloads

Published

2022-06-30

How to Cite

Mailybayeva, E., Imanbayev, A., Yessirkep, G., Mussayeva, S., & Shingissov, A. (2022). Developing a procedure for controlling the rheological properties of dough during its kneading based on a parametric model . Eastern-European Journal of Enterprise Technologies, 3(11 (117), 31–38. https://doi.org/10.15587/1729-4061.2022.257323

Issue

Section

Technology and Equipment of Food Production