TY - JOUR
T1 - Optimization of formulation and process of Australian sweet lupin (ASL)-wheat bread
AU - Villarino, Casiana Blanca Jucar
AU - Jayasena, Vijay
AU - Coorey, Ranil
AU - Chakrabarti-Bell, Sumana
AU - Johnson, Stuart
PY - 2015
Y1 - 2015
N2 - This study aimed to optimise formulation and process factors of Australian sweet lupin (ASL)-refined wheat bread bun to maximise the ASL level whilst maintaining bread quality using response surface methodology (RSM) with a central composite face-centered design. Statistical models were generated that predicted the effects of level of ASL flour incorporation (g/100g of ASL-wheat composite flour), ASL-flour volume weighted mean particle size (μm), water incorporation level (g/100g ASL-wheat composite flour), mixing time of sponge and dough (min) and baking time (min) on crumb specific volume (CSV), instrumental texture attributes and consumer acceptability of the breads. Verification experiments were used to validate the accuracy of the predictive models. Optimisation of the formulation and process parameters using these models predicted that formulations containing ASL flour at 21.4-27.9g/100g of ASL-wheat composite flour with volume weighted mean particle size of 415-687μm, incorporating water at 59.5-71.0g/100g ASL-wheat composite flour, with sponges and dough mixed for 4.0-5.5min and bread baked for 10-11min would be within the desirable range of CSV, instrumental hardness and overall consumer acceptability. Verification experiments confirmed that the statistical models accurately predicted the responses.
AB - This study aimed to optimise formulation and process factors of Australian sweet lupin (ASL)-refined wheat bread bun to maximise the ASL level whilst maintaining bread quality using response surface methodology (RSM) with a central composite face-centered design. Statistical models were generated that predicted the effects of level of ASL flour incorporation (g/100g of ASL-wheat composite flour), ASL-flour volume weighted mean particle size (μm), water incorporation level (g/100g ASL-wheat composite flour), mixing time of sponge and dough (min) and baking time (min) on crumb specific volume (CSV), instrumental texture attributes and consumer acceptability of the breads. Verification experiments were used to validate the accuracy of the predictive models. Optimisation of the formulation and process parameters using these models predicted that formulations containing ASL flour at 21.4-27.9g/100g of ASL-wheat composite flour with volume weighted mean particle size of 415-687μm, incorporating water at 59.5-71.0g/100g ASL-wheat composite flour, with sponges and dough mixed for 4.0-5.5min and bread baked for 10-11min would be within the desirable range of CSV, instrumental hardness and overall consumer acceptability. Verification experiments confirmed that the statistical models accurately predicted the responses.
KW - bread
KW - consumers
KW - lupines
KW - wheat
UR - http://handle.uws.edu.au:8081/1959.7/uws:35527
U2 - 10.1016/j.lwt.2014.11.029
DO - 10.1016/j.lwt.2014.11.029
M3 - Article
SN - 0023-6438
VL - 61
SP - 359
EP - 367
JO - LWT: Food Science and Technology
JF - LWT: Food Science and Technology
IS - 2
ER -