Title page for ETD etd-08272009-165224


Type of Document Dissertation
Author Lakshmikanth, Anand
Author's Email Address anandl@vt.edu
URN etd-08272009-165224
Title NON-DESTRUCTIVE EVALUATION AND MATHEMATICAL MODELING OF BEEF LOINS SUBJECTED TO HIGH HYDRODYNAMIC PRESSURE TREATMENT
Degree PhD
Department Biological Systems Engineering
Advisory Committee
Advisor Name Title
P. Mallikarjunan Committee Chair
George Flick Committee Member
Jitendra Patel Committee Member
Justin R. Barone Committee Member
Morse Solomon Committee Member
Keywords
  • small-strain and large-strain behavior
  • finite element modeling
  • rheology
  • wavelet features
  • high hydrodynamic pressure processing
  • video image analysis
  • beef
  • ultrasound
Date of Defense 2009-08-13
Availability unrestricted
Abstract
High hydrodynamic pressure (HDP) treatment is a novel non-thermal technology that improves tenderness in foods by subjecting foods to underwater shock waves. In this study non-destructive and destructive testing methods, along with two mathematical models were explored to predict biomechanical behavior of beef loins subjected to HDP-treament.

The first study involved utilizing ultrasound and imaging techniques to predict textural changes in beef loins subjected to HDP-treatment using Warner-Braztler shear force (WBS) scores and texture profile analysis (TPA) features for correlation. Ultrasound velocity correlated very poorly with the WBS scores and TPA features, whereas the imaging features correlated better with higher r-values. The effect of HDP-treatment variables on WBS and TPA features indicated that amount of charge had no significant effects when compared to location of sample and container size during treatment.

Two mathematical models were used to simulate deformational behavior in beef loins. The first study used a rheological based modeling of protein gel as a preliminary study. Results from the first modeling study indicated no viscous interactions in the model and complete deformation failure at pressures exceeding 50 kPa, which was contrary to the real-life process conditions which use pressures in the order of MPa. The second modeling study used a finite element method approach to model elastic behavior. Shock wave was modeled as a non-linear and linear propagating wave. The non-linear model indicated no deformation response, whereas the linear model indicated realistic deformation response assuming transverse isotropy of the model beef loin.

The last study correlated small- and large-strain measurements using stress relaxation and elastic coefficients of the stiffness matrix as small-strain measures and results of the study indicated very high correlation between elastic coefficients c11, c22, and c44 with TPA cohesiveness (r > 0.9), and springiness (r > 0.85). Overall results of this study indicated a need for further research in estimating mechanical properties of beef loins in order to understand the dynamics of HDP-treatment process better.

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