Wheat grain cooking process as investigated by modulated temperature differential scanning calorimetry

Srikaeo, Khongsak; Furst, John Edward; Ashton, John; Hosken, Robert W.; Sopade, P. A.

Title: Wheat grain cooking process as investigated by modulated temperature differential scanning calorimetry
Creator: Srikaeo, Khongsak; Furst, John Edward; Ashton, John; Hosken, Robert W.; Sopade, P. A.
Relation: Carbohydrate Polymers Vol. 61, no. 2, p. 203-210
Publisher: Elsevier Science
Resource Type: journal article
Date: 2005
Description: The thermal properties of soft and hard wheat grains, cooked in a steam pressure cooker, as a function of cooking temperature and time were investigated by modulated temperature differential scanning calorimetry (MTDSC). Four cooking temperatures (110, 120, 130 and 140 degrees C) and six cooking times (20, 40, 60, 80, 100 and 120 min) for each temperature were studied. It was found that typical non-reversible heat flow thermograms of cooked and uncooked wheat grains consisted of two endothermic baseline shifts localised around 40-50 degrees C and then 60-70 degrees C. The second peaks of non-reversible heat flow thermograms (60-70 degrees C) were associated with starch gelatinisation. The degree of gelatinisation was quantified based on these peaks. In this study, starch was completely gelatinised within 60-80 min for cooking temperatures at 110-120 degrees C and within 20 min for cooking temperatures at 130-140 degrees C. MTDSC detected reversible endothermic baseline shifts in most samples, localised broadly around 48-67 degrees C with changes in heat capacity ranging from 0.02 to 0.06 J/g per degrees C. These reversible endothermic baseline shifts are related to the glass transition, which occurs during starch gelatinisation. Data on the specific heat capacity of the cooked wheat samples are provided.
Subject: wheat grain cooking; modulated temperature differential scanning; calorimetry; MTDSC; water-glycerol systems; glass transition; starch gelatinization; sodium chloride; heat capacity; phase transitions; thermal analysis; rice starch; sucrose; mixtures
Identifier: uon:530
Identifier: http://hdl.handle.net/1959.13/24651
Identifier: ISSN:0144-8617
Language: eng
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