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Sanitary/hygienic processing equipment design

Published online by Cambridge University Press:  18 September 2007

S.F. Bilgili
Affiliation:
Department of Poultry Science, 201 Poultry Science Building, 260 Lem Morrison Drive, Auburn University, Alabama 36849-5416, USA E-mail: bilgisf@auburn.edu
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Abstract

Proper cleaning and effective sanitation is an essential component of processing poultry, as it contributes significantly to the prevention of product contamination with microorganisms that cause food-borne disease and spoilage. Rapid expansion of production volume, increased further-processing and introduction of diverse ready-to-cook and ready-to-eat products, sophistication of the processing equipment, implementation of HACCP and microbial finished-product standards, and, more importantly, expensive product recalls have necessitated greater control over the cleaning and sanitation process.

A sanitary process should effectively protect raw and/or cooked products from physical (i.e. metal, plastic, bone, packaging materials etc.), chemical (residues of cleaning and disinfection chemicals, lubricants, coolants etc.), and biological (food-borne pathogens and/ortheirtoxins) hazards. In spite of this, many hazards continue to find their way into the processing environment and ultimately into the finished products. Microorganisms are naturally introduced into the poultry processing environments in high numbers with the live birds and, when the conditions are suitable, form growth niches by actively multiplying within the system.

It is generally accepted that processing equipment should not be a direct orindirect source of microbial contamination. Many regulatory and advisory bodies have introduced hygienic design and processing guidelines. This presentation will review the recently introduced sanitary processing equipment design principles and equipment checklist by the American Meat Institute.

Aplant designed, equipped, operated and maintained with internationally accepted hygienic and sanitary standards will produce safe and wholesome poultry products forthe consumer.

Type
Reviews
Copyright
Copyright © Cambridge University Press 2006

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References

American Meat Institute (2003) 10 Principles of sanitary Design and Checklist. AMI Equipment Design Task Force. http://www.meatami.com/.Google Scholar
Barbut, S. (2002) Sanitation in poultry processing plants. In: Poultry Products Processing-An Industry Guide, Eds. Barbut, S., CRC Press, Boca Raton, Florida, pages 368377.Google Scholar
Bolder, N.M. (1998) The microbiology of the slaughter and processing of poultry. In: The Microbiology of Meat and Poultry, Eds. Davies, A. and Board, R., Blackie Academic & Professional, London, England, pages 158173.Google Scholar
Butts, J. (2004) Seek & Destroy: Identifying and controlling Listeria monocytogenesgrowth niches. http://www.foodsafetymaganazine.com/issues/0304/colmicro0304.htm.Google Scholar
Comar, D. (1998) Equipment and the manufacturing environment – microbiological quality assurance. Food Technology in Australia, 40(6): 214218.Google Scholar
Curiel, R. (2002) Building the self-cleaning food plant: Hygienic design of equipment in food processing. http://www.foodsafetymagazine.com/issues/0302-3.htm.Google Scholar
Mulder, R. W. A. W. (2000) Managing the safety and quality of poultry meat. In: Poultry Meat processing and Quality, Eds. Mead, G. C., Woodhead Publishing Co., Cambridge, England, pages 332334.Google Scholar
Thomas, C. J., McMeekin, T. A. and Patterson, J. T. (1987) Prevention microbial contamination in the processing plant. In: Elimination of pathogenic organisms from meat and poultry, Smulders, F.J.M., Ed. Elsevier Sci. Pub., pages 163179Google Scholar