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Совершенствование воздухообмена и теплового режима животноводческих помещений
2008
Kartashova, A.N. | Savchenko, S.V. | Lapina, E.U., Vitebsk State Academy of Veterinary Medicine (Belarus)
During the sanitary-hygienic evaluation of livestock-rearing farm building (cow kennel and calf pens) by means of industrial and traditional technology there were revealed the infringements of constructive and exploit matter in ventilation system which proved to be the reason for formation of dissatisfactory stable climate. In case of the appropriate estimation, adherence to specification of ventilation construction and rather attentive attitude to the problem of ventilation regulation there could be obtained the positive results in optimization of air medium in animal husbandry houses. Support of air physical properties in livestock houses at the optimum hygienic level was possible only by means of ventilation and a choice of construction materials corresponding to the veterinary and hygienic requirements. The necessity of heat accumulation in livestock houses unites all mentioned above requirements. In some animal husbandry farms in the Republic of Belarus there was applied the mechanical ventilation. However, it was a great mistake to install only the air-moving device without heat exchanger installation. Therefore, an important point for optimization of microclimate livestock houses should be the determination of building thermal balance
Afficher plus [+] Moins [-]Санитарно-гигиеническая характеристика качества воды в районе свиноводческого комплекса
2008
Karas, A.V., Vitebsk State Academy of Veterinary Medicine (Belarus)
Results of study of a pollution level of drinking water around a pig-breeding complex and degree of its distribution in Gorodok district of the Republic of Belarus were presented. For carrying out the monitoring of water objects around the pig-breeding complex there was analysed the drinking water in Palminka and Gorodok localities. Water tests were taken once in three months (September, December, March, June), in the morning. Tests of drinking water used on complexes, were taken once a month. Research results showed that drinking water quality on the pig-breeding complex was considerably lower in comparison with the remoted from it water sources. Closeness of the pig-breeding complex lowered the water quality both on the territory of swine complex and on the territory of neighboring objects. Results of the chemical water analysis, organoleptic estimation, and water correspondence to the sanitary-hygienic standard were presented
Afficher plus [+] Moins [-]Гигиенические аспекты энергосбережения в животноводстве
2008
Medvedskij, V.A. | Gasanov, F.A. | Rubina, M.V. | Mazolo, N.V. | Zhelezko, A.F., Vitebsk State Academy of Veterinary Medicine (Belarus)
Results of realized in the conditions of the Republic of Belarus energy estimation of veterinary and hygienic methods of microclimate organization in livestock buildings were presented. As a result of the conducted veterinary and hygienic estimation of conditions of cattle maintenance in premises at cattle breeding farm in Vitebsk region (Belarus) it was found out, that one of the reasons of decreasing in productivity and livability of calves was the unsatisfactory microclimate at livestock buildings. In particular, air temperature in calf houses was marked below standard on 25-29%. Indices of the relative moisture exceeded the standard requirements on the average on 7% and concentration of ammonia - on 19-24%. Natural and artificial light exposure at premises did not correspond to veterinary and hygienic requirements. Research results analysis showed that a principal reason of unsatisfactory microclimate condition was the unsatisfactory system of ventilation, application of artificial prompting of air that involved the exceeding expenses for the electric power. The veterinary and hygienic measures with regard for power economy were characterized. It was stated that the proper use of ventilation, manure removing, feed-supplying and lighting systems made it possible to save up to 30% of power energy
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