DOI: 10.36871 / vet.san.hyg.ecol.202004014
UDC 637.5: 628.322: 628.35 (045)

Authors

1Subbotina Yu.M., 1Pavlova E.I., 2Shopinskaya M.I., 1Abdullaeva A.M., 1Kudryavtseva A.D.
1Moscow State University of Food Production, Moscow 125080, Russian Federation
2The Peoples' Friendship University of Russia, Moscow 117198, Russian Federation

Abstract

This article deals with the problem of wastewater treatment at the Fergana poultry farm (FPF). The results of hydrochemical and sanitary-bacteriological studies are analyzed. Treatment facilities were built at the Fergana poultry farm and put on balance, which included the following objects: a grate crusher, horizontal sand traps, XNUMX-tier settlers, biological oxidation and stabilization ponds (otherwise known as BOX ponds). After the accumulation of ten daily volumes of waste water in the BOX ponds, they were transferred to the contact mode of operation, with the introduction of an adapted microalgae complex. Hydrochemical and bacteriological analysis of the selected samples were carried out. The results were analyzed for the content of E. Coli bacteria; the concentration of pH hydrogen ions, COD, suspended solids, dissolved oxygen, ambient air temperature, and the amount of alkalinity. The results of hydrochemical studies on self-purification of wastewater in BOX ponds were analyzed. According to the conducted research, poultry farm waste water that was subjected to disinfection processes in BOX ponds becomes epidemiologically safe if the concentration of microalgae introduced into the system to intensify self-purification processes is equal to or exceeds XNUMX ml. Studies have found that this indicator can be increased at the end of cleaning and disinfection to XNUMX% [XNUMX, XNUMX]. After the cleaning and the decontamination is completed, waste water prepared in the BOX ponds of the Fergana poultry farm can be used for irrigation, or in fishbreeding and biological ponds for growing fish-planting material.

Keywords

self-cleaning processes, disinfection, Fergana poultry farm, emsher, BOX ponds, sanitary-hydrochemical and bacteriological analyses, typhoidparatyphoid (Salmonella) group.