CSIRO Agriculture and Food, 671 Sneydes Rd, Werribee, VIC 3030, Australia.
CSIRO Agriculture and Food, 671 Sneydes Rd, Werribee, VIC 3030, Australia.
Food Res Int. 2017 Oct;100(Pt 1):665-673. doi: 10.1016/j.foodres.2017.07.062. Epub 2017 Jul 27.
Olive pomace, a waste stream from olive oil processing, was fractionated by centrifugation to obtain a supernatant and a flesh-enriched fraction, and freeze dried to obtain a powder. The dried supernatant contained 5.8% moisture, 4.8% protein, 3.5% fat, 3.5% ash, 82.4% carbohydrate (including 17.2% dietary fiber) and polyphenols (2970mg gallic acid equivalents (GAE)/100g). The dried flesh-enriched fraction, contained 5.9% moisture, 13.4% protein, 14.2% fat, 3.5% ash, 63.1% carbohydrate (including 42.7% dietary fiber) and polyphenols (1960mg GAE/100g). The extruded products using rice-oat flour or maize-oat flour mixtures as the base were formulated to contain 5% or 10% olive pomace fractions (dry basis). The extruded products with added olive pomace fractions has higher fiber (2-7g/100g) and polyphenol contents (67-161mg GAE/100g) compared to the corresponding mixtures of rice-oat flour base (0.92g/100g fiber, 20mg GAE/100g) or maize-oat flour base (3.2g/100g fiber, 20mg GAE/100g) without olive pomace fractions. Addition of olive pomace fractions reduced the die pressure and specific mechanical energy during extrusion and resulted in lower radial expansion in the extruded product. The impact of the addition of olive pomace fraction on physical characteristics of the extruded product is higher for rice-oat flour base than maize-oat flour base. The underlining mechanism was explained by FTIR analysis. FTIR showed that there were significant changes in the carbohydrate components and the structure of the proteins on extrusion, with consequent effects on the expansion and density of the extruded product. This study showed the feasibility of preparing fiber and polyphenol enriched extruded products by incorporation of olive pomace. This shows the potential of recovery and diversion of edible components from waste streams of olive oil processing for formulation of extruded products.
橄榄渣是橄榄油加工过程中的一种废弃物,通过离心分离得到上清液和富含果肉的部分,然后冷冻干燥得到粉末。干燥的上清液含有 5.8%的水分、4.8%的蛋白质、3.5%的脂肪、3.5%的灰分、82.4%的碳水化合物(包括 17.2%的膳食纤维)和多酚(2970mg 没食子酸当量(GAE)/100g)。干燥的富含果肉的部分含有 5.9%的水分、13.4%的蛋白质、14.2%的脂肪、3.5%的灰分、63.1%的碳水化合物(包括 42.7%的膳食纤维)和多酚(1960mg GAE/100g)。使用米粉或玉米-米粉混合物作为基础的挤压产品配方中含有 5%或 10%的橄榄渣部分(干基)。添加橄榄渣部分的挤压产品的纤维含量(2-7g/100g)和多酚含量(67-161mg GAE/100g)高于相应的米粉基础混合物(0.92g/100g 纤维,20mg GAE/100g)或玉米-米粉基础混合物(3.2g/100g 纤维,20mg GAE/100g),而没有橄榄渣部分。添加橄榄渣部分降低了挤压过程中的模具压力和比机械能,导致挤压产品的径向膨胀降低。添加橄榄渣部分对米粉基础挤压产品物理特性的影响高于玉米-米粉基础。傅里叶变换红外光谱(FTIR)分析解释了这种机制。FTIR 表明,挤压过程中碳水化合物成分和蛋白质结构发生了显著变化,从而对挤压产品的膨胀和密度产生了影响。本研究表明,通过添加橄榄渣制备富含纤维和多酚的挤压产品是可行的。这表明从橄榄油加工废弃物中回收和转移可食用成分用于挤压产品配方的潜力。
