IMPROVEMENT OF TECHNOLOGY OF BIOLOGICAL PURIFICATION OF WASTE FROM SHEEP FARMS
Baimukhanbetov A. Bakhtiyar B. Tokmoldayev A. Kassym R. Tursunbayeva G. Korobkov M. Sharipov T. Manapova G. Mergalimova A. Saparov D.
2025Technology Center
Eastern-European Journal of Enterprise Technologies
2025#2Issue 10-1346 - 13 pp.
The research focuses on developing and improving biological treatment technologies for agricultural waste to address environmental challenges and enhance sustainability. The object of the study includes various types of agricultural waste, such as crop residues, livestock manure, and processing by-products, which often contribute to pollution and inefficient resource utilization when poorly managed. The primary problem addressed is the need for effective and eco-friendly solutions to mitigate the environmental impact of agricultural waste while maximizing its potential as a resource. Advanced algorithms for optimizing the efficiency and forecasting of energy production have been developed, which have made it possible to achieve a prediction accuracy of 85%. The combined system has demonstrated a 30 % increase in energy stability compared to using a single renewable source. Adaptive control mechanisms and efficient energy storage management have reduced energy losses in adverse weather conditions by 20%. These results confirmed the hybrid system’s ability to provide stable electricity, reduce dependence on fossil fuels by up to 40%, and reduce CO2 emissions by about 25%. The study explained these results by demonstrating the synergistic effects of microbial consortia and tailored treatment conditions on waste breakdown and nutrient transformation. Key features of the results include their scalability, cost-effectiveness, and adaptability to different types of agricultural waste. These characteristics allowed the technology to address the problem of inefficient waste management comprehensively
agricultural waste , biofertilizers , biogas , biological treatment , microorganisms , organic farm ing , sustainable agriculture , waste management
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Department of Thermal Power Engineering, S. Seifullin Kazakh Agrotechnical Research University, Zhenis ave., 62, Astana, 010011, Kazakhstan
Department of Thermal Power Engineering, S. Seifullin Kazakh Agrotechnical Research University, Zhenis ave., 62, Astana, 010011, Kazakhstan
Department of IT Energy, ALT University, Shevchenko str., 97, Almaty, 050013, Kazakhstan
Department of Information and Communication Technologies, ALT University, Shevchenko str., 97, Almaty, 050013, Kazakhstan
Department of Electrical Engineering, University of Jaén, Campus Las Lagunillas s/n, Jaén, 23071, Spain
Department of Electrical Equipment Operating, S. Seifullin Kazakh Agrotechnical Research University, Zhenis ave., 62, Astana, 010011, Kazakhstan
Department of Thermal Power Engineering, Gumarbek Daukeyev Almaty University of Power Engineering and Telecommunications, Baytursynuli ave., 126/1, Almaty, 010011, Kazakhstan
Department of Thermal Power Engineering, S. Seifullin Kazakh Agrotechnical Research University, Zhenis ave., 62, Astana, 010011, Kazakhstan
Department of Information and Communication Technology, S. Seifullin Kazakh Agrotechnical Research University, Zhenis ave., 62, Astana, 010011, Kazakhstan
Department of Thermal Power Engineering, ALT University, Shevchenko str., 97, Almaty, 050013, Kazakhstan
Department of Thermal Power Engineering
Department of Thermal Power Engineering
Department of IT Energy
Department of Information and Communication Technologies
Department of Electrical Engineering
Department of Electrical Equipment Operating
Department of Thermal Power Engineering
Department of Thermal Power Engineering
Department of Information and Communication Technology
Department of Thermal Power Engineering
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