STUDIES ON THE AIR QUALITY IN A DAIRY PROCESSING PLANT
272 / 13
Authors
-
K. Radha
Department of Dairy science, College of Veterinary and Animal sciences, Mannuthy, Kerala - 680651
-
Lakshmi S. Nath
Department of Dairy science, College of Veterinary and Animal sciences, Mannuthy, Kerala - 680651
Keywords:
Air quality, Dairy processing area, Microbial load in air, microbial quality of airAbstract
Microbial quality of air in a dairy processing plant was evaluated to ascertain the contribution of air as a source of contamination and spoilage of milk and milk products. The mean total aerobic counts obtained in the air by sedimentation method were 32.66 ± 3.82, 25.32 ± 4.17 and 33.36 ± 3.53 cfu/m 2 in raw milk reception dock, pasteurization room and product preparation room respectively. The respective mean total coliform counts were 1.52 ± 0.14, 0.66 ± 0.08 and 0.99 ± 0.16 cfu/ m2. Total coliform count observed in the raw milk reception dock was significantly higher (P< 0.01) than the other areas. The mean Staphylococcal counts were 2.52 ± 0.10, 3.84 ± 0.31and 5.82 ± 0.30 cfu/ m2. The product preparation room showed highest mean Staphylococcal counts followed by pasteurization room and raw milk reception dock. The mean yeast and mould counts obtained were 5.42 ± 0.39, 3.84 ± 0.31and 5.82 ± 0.30 cfu/ m2 in raw milk reception dock, pasteurization room and product preparation room respectively. Effect of fumigation on the microbial quality of air in the dairy processing area was also studied by comparing the microbial load in the air before and after fumigation. Fumigation practice followed in the dairy processing area was highly effective against total aerobic organisms, coliforms, and Staphylococci but not very effective in the case of yeast and moulds.
Downloads
References
Belestioids, E., Ghikas, D. and Kalantzi. 2011. Incorporation of microbiological and molecular methods in HACCP monitoring scheme of moulds and yeasts in a Greek Dairy Plant: A case study -11th International congress on Engineering and Food (ICEF11), Procedia Food Sciences,1051-1059.
Dioguardi, L. and Franzetti, L.2010. Influence of environmental conditions and building structure on food quality-A survey of handcrafted dairies in Northern Italy. Food control. 21:1187-1193.
Hickley, P.K., Beckeheimer, C.E and Parrow, T.1992. Microbiological tests for equipment, containers, water and air. Standard methods for the examination of Dairy products. (16th Ed). American Public Health Association, Washington DC.pp.397-412.
Kang,Y.J. and Frank, F.J. 1990. Characteristics of biological aerosols in dairy processing plants. Journal of Dairy Sciences, 73:621-626.
Luck,H and Garvon,1990. Quality control in the dairy industry. In: Robinson, R.K (ed.) Dairy Microbiology- the Microbiology of Milk products, 2 Ed.pp.2:345-392. Elsevier Applied Science, London.
Mostert, J.F. and Jooste, P.J. 2002. In: Robinson R.K. (ed) Quality control in the dairy industry. Dairy Microbiology Handbook. (3rd Ed.). John Wiley and Sons, New York, pp. 655–736.
Prejit, Nanu, E. and Latha, C. 2007. Microbial quality assurance of Milk during production, processing and marketing. Am. Journal of Food Technology, 2: 136-144.
Ren, T.J. and Frank, F.J.1992. Sampling of microbiological aerosols at various locations in fluid milk and ice cream plants. Journal of Food Protect. 55:279-283.
Salustiano, C.V., Andrade, J. N., Brandao, S.C., Azeredo, R. and Mandlima, S.M. 2003. Microbiological air quality of processing area in a dairy plant as evaluated by the sedimentation technique and a one stage air sampler. Braz. Journal of Microbiology, 34:252-259
Snedecor, G. W. and Cochran, W. G. 1994. Statistical methods. 8th Ind. J. Vet. & Anim. Sci. Res., 43 (5) 346 - 353, September - October 2014 353 Ed. The lowa state university, Ames, Lowa, pp.313.
Downloads
Submitted
Published
Issue
Section
License
All the copy right belongs to the sponsoring Organization, Tamil Nadu Veterinary and Animal Sciences University, Chennai - 51.
How to Cite
