KnE Life Sciences

ISSN: 2413-0877

The latest conference proceedings on life sciences, medicine and pharmacology.

Raw Material Resources for Extruding

Published date: Apr 05 2021

Journal Title: KnE Life Sciences

Issue title: DonAgro: International Research Conference on Challenges and Advances in Farming, Food Manufacturing, Agricultural Research and Education

Pages: 384–393

DOI: 10.18502/kls.v0i0.8969

Authors:

Tatiana Marinchenko 9419428@mail.ruRosinforagroyekh, Pravdinsky, Moscow region, Russian Federation

Abstract:

Substantial research has been devoted to the problems of more rational feeding of animals, improving the quality and nutritional value of existing feeds with a general reduction in the cost of their production, as well as the search for new and alternative sources of feed and methods for their preparation. At the same time, the scientific community is faced with issues of finding the best ways to recycle agricultural and food production waste. Since agricultural producers and processors also face the problem of recycling a variety of waste, the practical implementation of research in these areas is one of the main tasks of the agricultural sector. This article examines the feasibility of organizing on-farm production of animal feed based on a mobile extruder plant that uses waste from the production and processing of crops, food and other industries. This would reduce feed costs, increase the efficiency of using internal feed resources and would utilize production waste. This approach would significantly reduce the cost of livestock products or could become a source of additional income. The data on the extrusion of a number of non-traditional sources of feed products, such as waste from leather production, grape processing, mushroom cultivation, etc., are provided.

Keywords: agriculture, animal husbandry, feeding, alternative feed resources, production waste, extruding, efficiency

References:

[1] Krasilnikov, O. Y. and Marinchenko, T. E. (2018). The Relevance of Effective Feed Production. Agrarian Bulletin of the South-East, vol. 2, issue 19, pp. 44-46.

[2] Perednya, V. I., Baranovsky, I. V. and Chumakov, V. V. (2015). Extrusion Technologies in Feed Production. Bulletin of the All-Russian Scientific Research Institute of Animal Husbandry Mechanization, vol. 4, issue 20, pp. 60-63.

[3] Devendra, C. and Sevilla, C. C. (2002). Availability and use of Feed Resources in Crop–Animal Systems in Asia. Agricultural Systems, vol. 71, issues 1–2, pp. 59-73.

[4] Balandrán-Quintana, R. R., et al. (2019). Plant-Based Proteins. Proteins: Sustainable Source, Processing and Applications, pp. 97-130.

[5] Gonzalez-Valadez, M., Munoz-Hernandez, G. and Sanchez-Lopez, R. (2008). Design and Evaluation of an Extruder to Convert Crop Residues to Animal Feed. Biosystems Engineering, vol. 100, issue 1, pp. 66-78.

[6] Jayeola, C. O., et al. (2018). Production of Bioactive Compounds From Waste In Grumezescu, A. M., Holban, A. M. (eds) Therapeutic, Probiotic, and Unconventional Foods (London: Elsevier, Academic Press) pp. 317-340, https://doi.org/10.1016/B978-0-12-814625-5.00017-0

[7] Fedorenko, V. F., et al. (2017). Deep Processing of Agricultural Raw Materials. Moscow: Rosinformagrotekh.

[8] Antimonov, S. V., et al. (2013). Study of the Process of Grinding Grain Raw Materials Following Shock Freezing. Bread Products, vol. 11, pp. 60-62.

[9] Artemova, E. I., Kochieva, A. K. and Kapustkin, A. V. (2011). Efficiency of the Organization of OnFarm Production of Animal Feed. Multi-Topic Network Electronic Scientific Journal of the Kuban State Agrarian University, vol. 69, pp. 258-269.

[10] Romali, V. S. and Kartashov, S. G. (2015). Carbohydrate-Protein Feed Based on Plant Materials. Bulletin of the All-Russian Scientific Research Institute of Animal Husbandry Mechanization, vol. 4, issue 20, pp. 15-18.

[11] Gonzalez-Valadez, M., Munoz-Hernandez, G. and Sanchez-Lopez, R. (2008). Design and Evaluation of an Extruder to Convert Crop Residues to Animal Feed. Biosystems Engineering, vol. 100, issue 1, pp. 66-78.

[12] Jiang, T., et al. (1992). Nutrition of Feed Collagen Protein Powder from the Reclamation Treatment of Chrome Leather Scrap. Animal Feed Science and Technology, vol. 37, issues 3–4, pp. 175-184.

[13] El Boushy, A. R., et al. (1991). Tanning Waste By-Product from Cattle Hides, its Suitability as a Feedstuff. Bioresource Technology, vol. 35, issue 3, pp. 321-323.

[14] Waldron, K. (2007). Handbook of Waste Management and Co-Product Recovery in Food Processing (vol. 1). Washington, D.C.: Woodhead Publishing Limited, pp. 388-416.

[15] Pakhomov, V. I., et al. (2018). Effectiveness of New Technologies for Compensation of Carotene Deficit in Fodder. Machinery and Equipment for Rural Area, vol. 1, pp. 18-20.

[16] Braginets, S. V., Alferov, A. S. and Bakhchevnikov, O. N. (2016). Technological Module for the Production of Extruded Mixed Feed with Addition of Vegetable Mass. Machinery and Equipment for Rural Area, vol. 4, pp. 26-28.

Download
HTML
Cite
Share
statistics

442 Abstract Views

354 PDF Downloads