Rambler's Top100

Rambler's Top100

Yandex.CN    ,     .

  • 5, 2016

    1. Generalov I. G., Suslov S. A. Proizvodstvo zerna v Rossii i v mire [Grain production in Russia and abroad], Vestnik NGIEI, 2014, no. 9, pp. 311.

    2. Zernokhranilischa-2015 [Granaries 2015], Kombikorma, 2015, no. 4, pp. 27.

    3. Vogman L. P., Khrjukin A. V. Obespechenie pozharovzryvobezopasnosti objektov pererabotki i khranenija rastitelnogo syrja [Explosion and fire safety of production and storage facilities for plant raw materials], Khleboprodukty, 2013, no. 1, pp. 6163.

    4. Warrick C. Aerating stored grain: Cooling or drying for quality control. A Grains Industry Guide, Kingston, 2011.

    5. Technical Regulations on Fire Safety Requirements, The Federal law of Russia #123-FZ from August 22, 2008, Sobranie zakonodatelstva RF, 2008, no. 30, pt. I, article #3579.

    6. Titov A., Morozov E. Obnovlennoe zakonodatelstvo po bezopasnoj expluatatsii zernokhranilisch [Revised regulations on safe operation of granaries], Kombikorma, 2015, no. 4, pp. 2830.

    7. Pravila bezopasnosti vzryvopozharoopasnykh proizvodstvennykh objektov khranenija i pererabotki rastitelnogo syrja, Bjulleten normativnykh aktov federalnykh organov ispolnitelnoj vlasti, 2014, no. 2.

    8. Patent RU #2534264 Sposob upravlenija protsessami sushki i khranenija rastitelnogo syrja s povyshennym soderzhaniem zhirnykh kislot [Method of drying and storage control for plant raw materials containing fatty acids], by S. A. Shevtsov, A. V. Drannikov.

    9. Shevtsov S. A., Ostrikov A. N. Tekhnika i tekhnologija sushki pischevogo rastitelnogo syrja [Technique and technology of edible raw materials drying], Voronezh, Voronezh State University of Engineering Technologies, 2014.

    10. Shevtsov S. A. Nauchnoe obespechenie energosberegajuschikh protsessov sushki i teplovlazhnostnoj obrabotki pischevogo rastitelnogo syrja pri peremennom teplopodvode [A scientific basis for energy saving drying processes, heat, and humidity treatment of edible raw materials], Sc. D. Thesis, Voronezh State University of Engineering Technologies, 2015.

    11. Khakimzjanov I. F., Kajnov P. A., Khasanshina R. T. Perspektivy razvitija protsessov sushki materialov i produktov s ispolzovaniem teplovogo nasosa [Prospects on heat-pump drying materials and products], Bulletin of Kazan technological university, 2015, vol. 18, no. 2, pp. 253256.

    12. Kudra T., Mujumdar A. S. Heat-Pump Drying, Advanced Drying Technologies, New York, 2008.

    13. Siew Kian Chin, Chung Lim Law. Product quality and drying characteristics of intermittent heat pump drying of Ganoderma tsugae Murrill, Drying Technology, 2010, vol. 28, pp. 14571465. https://dx.doi.org/10.1080/07373937.2010.482707.



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