Abstract
This study aimed to develop high quality, added value novel sauces with acid whey (AW) (liquid or powder) incorporation. Liquid pasteurized AW was substituted (partly 10%—totally 100%) for the water added in the tomato sauces. AW in powder, was partly substituted for the fat in white sauces and compared to conventional ones. Physicochemical (pH, Brix, viscosity, color), nutritional (proteins, lactose, minerals), microbiological and sensory evaluations were conducted for both developed sauces. Accelerated shelf-life tests were performed. Based on the quality and sensory characteristics deterioration, the optimal water substitution by AW was 70% w/w for tomato sauces and 10% w/w (AW in powder) for white sauces, without limiting their shelf life compared to the control ones for both cases. Both AW-substituted sauces were of high quality and of higher nutrients content compared to conventional products, improving their health promoting profile (tomato sauces: up to 3-fold increase; white sauces: up to 5-fold increase in calcium content; increase in essential amino acids content in both sauces due to AW addition).
Subject
Management, Monitoring, Policy and Law,Renewable Energy, Sustainability and the Environment,Geography, Planning and Development,Building and Construction
Reference64 articles.
1. Mintel (2022, October 16). Yogurt and Yogurt Drinks—US. Available online: https://store.mintel.com/report/us-yogurt-and-yogurt-drinks-market-report.
2. Acid whey: Is the waste product an untapped goldmine;Erickson;Chem. Eng. News,2017
3. Production of monosaccharides and whey protein from acid whey waste streams in the dairy industry;Lindsay;Green Chem.,2018
4. Invited review: Acid whey trends and health benefits;Kosmerl;J. Dairy Sci.,2021
5. Whey-ing up the options—Yesterday, today and tomorrow;Smithers;Int. Dairy J.,2015
Cited by
4 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献