Fine grinding of raw meat using the emulsifiers with a new cutting mechanism

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The efficiency of fine grinding largely of raw meat in emulsifiers depends on design and geometrical parameters of the cutting pair “knife- hole plate” and the process modes, and also on the dynamic and kinematic characteristics of the system: machine – cutting instrument – raw materials. The disclosure of the essence of the ongoing processes when fine and ultrafine grinding of raw meat is the basis for improvement of equipment in operation and creation of new working parts of machines. The new grinding hole plates of the emulsifier, according to the developed mathematical model, have the same flow capacity over the entire working surface and equal hydraulic resistance due to a decrease in the thickness of the hole plates when switching to smaller perforation holes. The cutting edges of the knife blades are made obliquely tangentially to the inner radius of the grinding hole plate and have a maximum length, which ensures a high-quality slipping cutting process. An experimental stand containing industrial emulsifier KS F10/031 and test and measuring equipment was made for research in the sausage-making shop of the JSC “Oshmyany meat processing plant”. Based on experimental data and analysis of the significance of the influence of each input parameter, analytical and graphical dependences were obtained, which makes it possible to determine the temperature increase, the efficiency of the emulsifier, and the specific energy intensity of the process when changing the operating and designing parameters of the process within the range of varying factors. Production tests of new cutting tools pilot samples were passed successfully in the sausage-making shop of the JSC “Oshmyany meat processing plant”. They showed an increase in the performance of emulsifiers by 12–15% with higher-quality fine grinding and a decrease of 10–15% in specific energy consumption per unit of final output.

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Raw meat, emulsifier, cutting mechanism, knife, hole plate, cutting edge, slip coefficient, flow capacity

Короткий адрес: https://sciup.org/140259859

IDR: 140259859   |   DOI: 10.20914/2310-1202-2021-3-38-45

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