State Diagram of Freeze‐dried Garlic Powder by Differential Scanning Calorimetry and Cooling Curve Methods
Mohammad Shafiur Rahman, Shyam S. Sablani, Nasser Al‐Habsi, Salha Saleh Al-Maskri, R. Al‐Belushi
Journal of Food Science
Abstract
ABSTRACT: The state diagram of freeze‐dried garlic powder was developed using freezing curve, glass transition line, and maximal‐freeze‐concentration condition. Freezing points of garlic powder were measured by differential scanning calorimetry (DSC) and the cooling curve method, whereas glass transitions were measured by DSC. The freezing curve and glass transition line were modeled using the Clausius‐Clapeyron equation, adjusted with unfreezable water, and the Gordon‐Taylor model, respectively. Maximal‐freeze‐concentrated condition was found as X ′ s (characteristic water content) = 0.82 [ X ′ g (characteristic solids content) = 0.18] with the characteristic temperature of glass formation being T ′ m (characteristic glass transition) =−38.6°C and T ′ m (characteristic end point of freezing) =−26.0°C. Other characteristic glass transitions T ″ g and T ‴ g equal to −29.3°C and −48.6°C, respectively.
Extracted Claims
6 claims extracted from this paper into the knowledge graph
freeze-dried garlic powder measured other characteristic glass transitions
“Other characteristic glass transitions T ″ g and T ‴ g equal to −29.3°C and −48.6°C, respectively”
freeze-dried garlic powder measured freezing points
“Freezing points of garlic powder were measured by differential scanning calorimetry (DSC) and the cooling curve method”
freeze-dried garlic powder measured glass transitions
“glass transitions were measured by DSC”