Scholarly
    Communications Project


Document Type:Master's Thesis
Name:Kimberly I. Meek
Email address:kmeek@vt.edu
URN:1998/00143
Title:Hydrodynamic Shock Wave: Decreasing Broiler Breast Aging Time
Degree:Master of Science
Department:Food Science and Technology
Committee Chair: Dr. James R. Claus
Chair's email:clausjr@vt.edu
Committee Members:Dr. Susan E. Duncan
Dr. Norman G. Marriott
Dr. Morse B. Solomon
Keywords:Hydrodyne, Tenderness, Early de-boned broiler breast
Date of defense:December 17, 1997
Availability:Release the entire work for Virginia Tech access only.
After one year release worldwide only with written permission of the student and the advisory committee chair.

Abstract:

The Hydrodyne process was used to tenderize early de-boned broiler (EB) breasts. The first objective was to determine effects of explosive and distance of the explosive to the meat surface. EB breasts were removed immediately after initial chill (45 min post-mortem), stored for 24 hours, and subjected to one of four treatment combinations. Hydrodyne treatment of 350 g at 20 cm produced the greatest increase in Warner-Bratzler shear (1.9-cm wide strips) tenderness (28.3%), and was the only treatment to increase tenderness (peak force 4.3 kg) to a level equivalent (P>0.05) to aged controls (CA; peak force 3.1 kg). The second objective was to determine quality (tenderness, purge loss, cooking loss, and color) and sensory characteristics of Hydrodyne treated (HYD) broiler breasts. Initial pH values for CA (5.86) and EB (5.71) breasts were different (P<0.05). Warner-Bratzler and Lee-Kramer shear values (1.0-cm wide and thick strips) for CA (1.56 kg; 6.0 kg*mm/g, respectively) were different from HYD (3.7 kg; 11.0 kg*mm/g, respectively) and EB breasts (4.7 kg; 12.1 kg*mm/g, respectively). CA resulted in more tender, flavorful, and juicer breasts than HYD and EB. HYD was lower in initial moisture release than EB. EB breasts with significant tenderness problems can be tenderized by the Hydrodyne process based on instrumental shear results. However, higher levels of explosive may be required to optimize tenderness improvement of breasts that vary significantly in initial tenderness. Incorporation of this technology, once optimized, on an industry production level would benefit poultry processors in reducing or eliminating broiler breast aging.

List of Attached Files

Appendix.PDF Ch1.PDF Ch2.PDF
Ch3.PDF KMetd.pdf MEEKPART1.PDF
Vita.PDF

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