I. V. Agafonkina scite author profile

I. V. Agafonkina

4Publications

17Citation Statements Received

31Citation Statements Given

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All-Russian Scientific Research Institute of Refrigeration Industry, Russian Academy of Sciences

Publications

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The Study of Thermal Denaturation of Beef, Pork, Chicken and Turkey Muscle Proteins Using Differential Scanning Calorimetry

Agafonkina

Королев

Sarantsev

2019

Teor. prakt. pererab. mâsa (Print)

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In the temperature range from 45 °C to 90 °C the process of thermal denaturation of a whole complex of muscle proteins in meat takes place. An effective mode to register the thermal denaturation process is the method of differential scanning calorimetry (DSC). As a result of studies the differences during the process of thermal denaturation of muscle proteins of pork, beef, chicken and turkey were defined by the appearance of endothermic peaks in DSC thermograms. The main variances are associated with the process of denaturation of myosin and sacroplasmic proteins and indicate indirectly their quantitative ratio in meat. The values of effective specific heat capacity in the temperature range from 20 °C to 90 °C are obtained as well as those of heat spent on the denaturation process. At reheating, the values of specific heat capacity increased by 0.1 J/(g*K) on the average, and peaks of thermal denaturation were not detected, that certifies the irreversibility of the denaturation process and the decrease in the bound moisture proportion in meat after thermal processing. Knowledge of the nature of protein thermal denaturation of each kind of meat product is one of the necessary tools for developing the technology of meat product thermal processing. FOR CITATION:Agafonkina I. V., Korolev I. A., Sarantsev T. A. The study of thermal denaturation of beef, pork, chicken and turkey muscle proteins using differential scanning calorimetry. Theory and practice of meat processing. 2019; 4(3): 19-23.

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Investigation of the effect of beef moisture content on the amount of bound moisture with the calorimetric method

Березовский

Королев

Agafonkina

et al. 2019

Vestn. Voronež. gos. univ. inž. tehnol.

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With the development of food processing and storage at near-cryoscopic temperatures, more and more attention is being paid to the development of methods for frozen out moisture and cryoscopic temperature calculating based on their component composition data. There is a significant dispersion among the existing experimental data of various researchers and calculation methods for beef thermophysical properties. In the study given, the authors determined the enthalpy of phase transitions, beet heat capacity with different moisture content and its cryoscopic temperature with the method of differential scanning calorimetry. With the analysis of the phase transitions enthalpy, it was found out that the share of non-freezing water for beef is n = 0.35 (g of water per 1 g of dry matter). The presence of the vitreous phase in the temperature range of about -85 ° С was established, most noticeably manifested when the moisture content of the samples is w = 37–45.8%, which indicates the formation of amorphous solutions in the process of food products freezing. Beginning of moisture melting peak Tm.b. takes place at temperatures range from -35 ° C till -25 ° C for the samples with low and normal moisture content respectively. Acccording to the theoretical Heldman ratio, a dependence for cryoscopic temperature calculating was proposed . The given semi-empirical dependences of the phase transitions enthalpy and the frozen moisture fraction provide an increase in the accuracy of calculations at low values of moisture content in the product. The research results can be used as input data in mathematical modeling of heat exchange processes and the development of calculating methods for the thermophysical properties of food products based on their composition.

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Thermal Properties of Human Soft Tissue and Its Equivalents in a Wide Low-Temperature Range

Agafonkina

Belozerov

Vasilyev

et al. 2021

J Eng Phys Thermophy

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Thermal Properties of Biological Tissue Gel-Phantoms in a Wide Low-Temperature Range

Agafonkina

Belozerov

Berezovsky

et al. 2021

J Eng Phys Thermophy

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I. V. Agafonkina

The Study of Thermal Denaturation of Beef, Pork, Chicken and Turkey Muscle Proteins Using Differential Scanning Calorimetry

Investigation of the effect of beef moisture content on the amount of bound moisture with the calorimetric method

Thermal Properties of Human Soft Tissue and Its Equivalents in a Wide Low-Temperature Range

Thermal Properties of Biological Tissue Gel-Phantoms in a Wide Low-Temperature Range

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