Fruit and Restaurant Waste Polysaccharides Recycling Producing Xylooligosaccharides

IF 4.6 Q2 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY Recycling Pub Date : 2023-01-26 DOI:10.3390/recycling8010016
B. Pereira, A. Schmatz, Carolina Moreno de Freitas, Fernando Masarin, M. Brienzo
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引用次数: 2

Abstract

A significant part of fruit production is wasted annually, a material of high value without use, causing environmental and social damage. These residues from agro-industrial processes, or those that can no longer be used in the market, can be recycled and generate value-added products by pretreatments/hydrolysis. One of the important pretreatments is acid hydrolysis, which can produce xylooligosaccharides (XOS) from biomass, a product of great commercial value in the food and pharmaceutical markets, mainly due to its prebiotic potential. Bananas, oranges, and guava generate a large volume of waste and represent much of Brazil’s fruit production. The dilute acid hydrolysis resulted in XOS production of 37.69% for banana peel, 59.60% for guava bagasse, 28.70% for orange bagasse, and 49.64% for restaurant residue. XOS were quantified by a liquid chromatograph system with a Bio-Rad Aminex HPX-87C column. The results show that, for this type of material and hydrolysis, the ideal conditions to produce XOS are high temperature, low time, and high acid concentration for banana peel residue (160 °C, 15 min, and 3% H2SO4), low temperature, low time, and high acid concentration for guava bagasse (100 °C,15 min and 3% H2SO4), high temperature and acid concentration with low time for orange bagasse (160 °C,15 min and 3% H2SO4) and high temperature and time and high acid concentration for restaurant waste (160 °C, 55 min and 3% H2SO4). This study identified acid hydrolysis conditions that maximized XOS production with a low amount of xylose production using agro-industrial and food residues, also showing the high potential of the chosen residues through the high yields of XOS production.
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水果和餐馆废弃多糖回收生产低聚木糖
每年有很大一部分水果生产被浪费,这是一种没有使用的高价值材料,会造成环境和社会破坏。这些来自农产工业过程的残留物,或那些不能再在市场上使用的残留物,可以通过预处理/水解回收并产生增值产品。其中一种重要的预处理是酸水解,它可以从生物质中生产低聚木糖(XOS),这是一种在食品和制药市场上具有巨大商业价值的产品,主要是因为它具有益生元的潜力。香蕉、橙子和番石榴产生了大量的废物,占巴西水果产量的大部分。稀酸水解导致香蕉皮的XOS产量为37.69%,番石榴渣的XOS产率为59.60%,桔子渣的XO产率为28.70%,餐厅残渣的XOS生产率为49.64%。XOS通过具有Bio-Rad Aminex HPX-87C柱的液相色谱系统进行定量。结果表明,对于这种类型的材料和水解,生产XOS的理想条件是香蕉皮渣的高温、低时间和高酸浓度(160°C、15分钟和3%H2SO4),番石榴渣的低温、低时间、高酸浓度,橙色蔗渣的高温和酸浓度低时间(160°C,15分钟和3%H2SO4),餐厅垃圾的高温和时间高酸浓度(160°C.,55分钟和3%H2SO4)。这项研究确定了酸水解条件,该条件使用农工业和食品残留物以低木糖产量最大限度地生产XOS,也显示了所选残留物通过高产率生产XOS的高潜力。
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来源期刊
Recycling
Recycling Environmental Science-Management, Monitoring, Policy and Law
CiteScore
6.80
自引率
7.00%
发文量
84
审稿时长
11 weeks
期刊最新文献
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