In the process of low-temperature heat treatment of meat semi-finished products (not higher than 85 °C) it is possible to get a fairly delicate product and keep more juices in it, which give them their unique taste. But at the same time the total processing time reaches several hours, which provides a softening effect on the collagen muscles. Processing of culinary products in this mode, even in a combi steamer, leads to increased loss of weight of finished products, especially when it baked. The paper presents a technical solution to the problem of intensification of low-temperature heat treatment in a combi steamer using the ultrasound. High adaptability to existing technologies, ease of control of the processing process and special physical effects allow using ultrasound of varying intensity and frequency. Ultrasound technologies allow you to highly intensify the technological process and improve the quality of finished products. Based on the Angelo Po’s combi steamer (Italy) a universal thermal device was created, including meat semi-finished products baking with intensification of heat exchange processes and preparation in the ultrasound field. This technology not used previously and allows speeding up the process of obtaining finished products by approximately 29–30%, and reducing losses in energy costs by 8–11%. The research is conducted with the purpose of scientific and economic justification of the process and modernization of equipment for accelerated production of high-quality meat products when processing them in a combi steamer.

combi steamer, ultrasonic emmiter, intensification, loss reduction, increase of juiciness

1. Romanchikov S.A., Antuf'ev V.T. Device for the production of bakery products [Ustrojstvo dlya proizvodstva hlebobulochnyh izdelij] Patent RF, no. 158128, 2015. (in Russian)

2. Antuf'ev V.T., Ivanova M.A. The influence of ultrasound on the baking of small-baked bakery products. Zhurnal Hleboprodukty. [Journal of Bread Products] 2011. no. 5. pp. 50–51 (in Russian)

3. Antuf'ev V.T., Ivanova M.A. Sposob i ustrojstvo dlya intensifikacii vypechki hlebobulochnyh izdelij [Method and device for intensification of baking of bakery products] Patent RF, no.  2496319, 2013 (in Russian)

4. Bol'shakov O.V. Cavitation reactor as a means of sonochemical research and technology in the food industry. Hranenie i pererabotka sel'hozsyr'ya [Storage and processing of agricultural raw materials] 2010. no.  2. (in Russian)

5. Zayas Yu.F. Ultrasound and its application in the technological processes of the meat industry. Pishchevaya promyshlennost' [Food industry] 1970. (in Russian)

6. Ivanova M.A. Razrabotka re-sursosberegayushchego processa vypechki mel-koshtuchnyh bulochnyh izdelij s nalozheniempolya ul'trazvuka. Avtoreferat dissertacii na soiskanie uchenoj stepeni kandidata tekhnicheskih nauk [Development of a resource-saving baking process for small-batch bakeries with superposition of the ultrasound field] Saint-Petersburg, Sankt-Peterburgskij gosudarstvennyj universitet nizkotemperaturnyh i pishchevyh tekhnologij, 2012. (in Russian)

7. Ivanova M.A., Antuf'ev V.T. Influence of ultrasound on the parameters of finished small-baked bakery products. Processy i apparaty pishchevyh proizvodstv [Processes and Apparatuses of Food Production] 2011. no. 1. (in Russian)

8. Krasulya O.N. et al. Processes and devices of food sonotechnology for the meat industry. Myasnaya industriya [Meat industry] 2009. no. 7. (in Russian)

9. Kutateladze S.S. Pristennaya turbulentnost'. [Wall turbulence] Novosibirsk, Nauka. (in Russian)

10. Lojcyanskij L.G. Mekhanika zhidkosti i gaza. [Mechanics of liquid and gas] Moscow, Drofa, 2003, 840 p. (in Russian)

11. Mogil'nyj M. P. Teoreticheskie i prakticheskie aspekty sozdaniya innovacionnyh tekhnologij myasnyh produktov funkcional'nogo naznacheniya dlya obshchestvennogo pitaniya Avtoreferat dissertacii na soiskanie uchenoj stepeni doktora tekhnicheskih nauk [Theoretical and practical aspects of creation of innovative technologies of meat products of a functional purpose for public catering. The dissertation author's abstract on competition of a scientific degree of the Doctor of Technical Sciences] Moscow, MGUTU im. K.G.Razumovskogo Moskva, 2012. (in Russian)

12. Molchanov G.I. Ul'trazvuk v farmacii [Ultrasound in Pharmacy] Moscow, Medicina, 1980. (in Russian)

13. Nikolaev S.V. Metod ul'trazvukovogo kontrolya processa propitki poristyh materialov gidrofobiziruyushchim rastvorom [The method of ultrasonic inspection of the process of impregnation of porous materials with a hydrophobizing solution] (in Russian)

14. Osnovy vzaimodejstviya ul'trazvuka s biologicheskimi ob"ektami [Fundamentals of interaction of ultrasound with biological objects] Moscow, Vysshaya shkola, 2006, 237 p. (in Russian)

15. Ostrikov A.N., Abramov O.V. Raschyot i konstruirovanie mashin i apparatov pishchevyh proizvodstv [Calculation and design of food machines and devices] Saint-Petersburg, GIORD, 2003. 352 p. (in Russian)

16. Rogov I.A., Gorbatov A.V. Fizicheskie metody obrabotki pishchevyh produktov [Physical methods of food processing] Moscow, Pishchevaya promyshlennost'. 1974. (in Russian)

17. Rusanova T.V., Dmitriev V.V., Machihin S.A. et al. Intensification of yeast fermentation in baking with ultrasound. Hlebopek, i kondit. prom-st' [Bakery and confectionery industry] 1974. no. 5. pp. 28. (in Russian)

18. [The test report № 6/177 from 11.05.2010. Research Institute of EC and GOS. A.N. Sysoyn RAMS] Protokol ispytanij № 6/177 ot 11.05.2010 g. NII EHCH i GOS im. A.N.Sysina RAMN / Attestat akkreditacii Departamenta gossanehpidnadzora MZ RF GSEHN.RU.COA. 234 № ROSS RU.0001.511603 (in Russian)

19. Hmelev V.N., Shalunov A.V., Barsukov R.V., Cyganok S.N. et al. Research of the efficiency of ultrasonic drying. Tekhnologicheskaya akustika [Technological acoustics] 2009. no. 6. (in Russian)

20. Hmelev V.N. Ul'trazvukovye mnogofunkcional'nye i specializirovannye apparaty dlya intensifikacii tekhnologicheskih processov v promyshlennosti [Ultrasonic multifunctional and specialized devices for the intensification of technological processes in industry] Barnaul, AltGTU, 2007. 416 p. (in Russian)

21. Cvetkov O.B. Termodinamika. Teploperedacha: Spravochnoe posobie [Thermodynamics. Heat transfer] Saint-Petersburg, SPbGUNiPT, 2008. 41 p. (in Russian)

22. Sherstyuk V.M. Belyaev V.M. Physical methods of processing fish. Pishchevaya promyshlennost'. [Food industry] 1971. 148 p. (in Russian)

23. Shestakov S.D. Upravlenie gidrataciej biopolimerov pishchevyh sred [Management of hydration of food biopolymers]  Moscow, KolosS, 2009. (in Russian)

24. Shestakov S.D., Krasulya O.N., Bogush  V.I. et al. Tekhnologiya i oborudovanie dlya obrabotki pishchevyh sred s ispol'zovaniem kavitacionnoj dezintegracii [Technology and equipment for processing food environments using cavitation disintegration] Saint-Petersburg, GIORD, 2013. 152 p. (in Russian)

25. Russki proekt [Russian project] Available at: http://www.rproject.ru/pdf/AngeloPo/Angelo_PO_Rus_2011_.pdf (in Russian)