不同来源食物垃圾的营养成分及其预处理

G. K. Chua, F. Tan, F. N. Chew, A. R. Mohd-Hairul
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Hence, this study aims to examine the extent of variation in the nutrients content of food wastes collected from different sources and also to evaluate the effect of hydrothermal pre-treatment on the nutrients composition of food wastes. Food wastes were collected randomly from the university’s cafe, Indian and Chinese restaurants, morning and night markets, and also from a household. It was then sorted, weighed, crushed and blended before further characterization. Food wastes from university’s cafe were then hydrothermal pre-treated at 120°C for 75 min at a food waste to water ratio of 1:2. Total solid and volatile solid contents and moisture content of various untreated and pre-treated food wastes were analyzed by Standard Method, while the composition of lipid was determined by Bligh & Dyer method. Protein and carbohydrate contents were determined by Bradford method and Phenol-sulphuric Acid method, respectively. Research outcomes showed huge nutrient variation between food wastes from different sources, which may due to the variation in the nature of the sources. Hydrothermal pre-treatment has reduced the total solid and volatile solid contents (32% and 24%, respectively) and maintained the amount of lipid content in the food wastes. Besides, the key media of fermentation which is the protein and carbohydrate contents were found increased by 107% and 152%, respectively in the pre-treated hydrolysate. The results showed that the hydrothermal pre-treated food waste can be used either as a feed medium or a supplemental medium for the fermentation process. Nevertheless, further investigation for controlling the composition in food wastes is needed if consistent nutrient contents are required. The results obtained in this study could be used as the foundation for further study in valorizing food waste for a better application.Food wastes are the most abundant waste available in Malaysia. Based on current households’ number of 7.67 million and a food waste generation rate of 0.54 kg/day per household [1], the amount of food waste generated is about 1.51 million tons/year. It is normally disposed of together with the municipal solid waste in a sanitary or non-sanitary landfill and incinerated without any recycle efforts. The dispose food wastes have high nutrient content that may be used as a fermentation substrate to produce other value-added product. However, the composition of daily collected food waste may vary and affect the fermentation performance and product quality. Moreover, limited information about its nutrients content from various sources can be found. Hence, this study aims to examine the extent of variation in the nutrients content of food wastes collected from different sources and also to evaluate the effect of hydrothermal pre-treatment on the nutrients composition of food wastes. 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引用次数: 7

摘要

食物垃圾是马来西亚最丰富的垃圾。以我国目前家庭数量为767万户,以每户每天0.54 kg的食物垃圾产生率计算[1],每年产生的食物垃圾量约为151万吨。它通常与城市固体废物一起处理在卫生或非卫生填埋场和焚烧没有任何回收的努力。处理后的食物垃圾具有高营养含量,可作为发酵底物生产其他增值产品。然而,日常收集的食物垃圾的成分可能会有所不同,并影响发酵性能和产品质量。此外,从各种来源可以找到的有关其营养成分的信息有限。因此,本研究旨在研究从不同来源收集的食物垃圾的营养成分含量的变化程度,并评估水热预处理对食物垃圾营养成分的影响。从大学的咖啡馆、印度餐馆和中餐馆、早市和夜市以及家庭中随机收集食物垃圾。然后,在进一步表征之前,将其分类,称重,粉碎和混合。然后,将来自大学咖啡馆的食物垃圾在120°C下以1:2的食物垃圾与水的比例进行水热预处理75分钟。采用标准法分析各种未经处理和预处理的食物垃圾的总固形物、挥发性固形物含量和水分含量,采用Bligh & Dyer法测定脂肪组成。蛋白质和碳水化合物含量分别用Bradford法和苯酚-硫酸法测定。研究结果表明,不同来源的食物垃圾之间的营养差异很大,这可能是由于来源性质的差异造成的。水热预处理降低了食物垃圾的总固体和挥发性固体含量(分别为32%和24%),并保持了食物垃圾中的脂质含量。此外,发酵的关键培养基蛋白质和碳水化合物含量分别提高了107%和152%。结果表明,经水热预处理的餐厨垃圾既可以作为饲料培养基,也可以作为发酵过程的补充培养基。然而,如果需要一致的营养成分,则需要进一步研究控制食物垃圾中的成分。本研究结果可为进一步研究餐厨垃圾的资源化利用奠定基础。食物垃圾是马来西亚最丰富的垃圾。以我国目前家庭数量为767万户,以每户每天0.54 kg的食物垃圾产生率计算[1],每年产生的食物垃圾量约为151万吨。它通常与城市固体废物一起处理在卫生或非卫生填埋场和焚烧没有任何回收的努力。处理后的食物垃圾具有高营养含量,可作为发酵底物生产其他增值产品。然而,日常收集的食物垃圾的成分可能会有所不同,并影响发酵性能和产品质量。此外,从各种来源可以找到的有关其营养成分的信息有限。因此,本研究旨在研究从不同来源收集的食物垃圾的营养成分含量的变化程度,并评估水热预处理对食物垃圾营养成分的影响。食物垃圾被收集起来…
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Nutrients content of food wastes from different sources and its pre-treatment
Food wastes are the most abundant waste available in Malaysia. Based on current households’ number of 7.67 million and a food waste generation rate of 0.54 kg/day per household [1], the amount of food waste generated is about 1.51 million tons/year. It is normally disposed of together with the municipal solid waste in a sanitary or non-sanitary landfill and incinerated without any recycle efforts. The dispose food wastes have high nutrient content that may be used as a fermentation substrate to produce other value-added product. However, the composition of daily collected food waste may vary and affect the fermentation performance and product quality. Moreover, limited information about its nutrients content from various sources can be found. Hence, this study aims to examine the extent of variation in the nutrients content of food wastes collected from different sources and also to evaluate the effect of hydrothermal pre-treatment on the nutrients composition of food wastes. Food wastes were collected randomly from the university’s cafe, Indian and Chinese restaurants, morning and night markets, and also from a household. It was then sorted, weighed, crushed and blended before further characterization. Food wastes from university’s cafe were then hydrothermal pre-treated at 120°C for 75 min at a food waste to water ratio of 1:2. Total solid and volatile solid contents and moisture content of various untreated and pre-treated food wastes were analyzed by Standard Method, while the composition of lipid was determined by Bligh & Dyer method. Protein and carbohydrate contents were determined by Bradford method and Phenol-sulphuric Acid method, respectively. Research outcomes showed huge nutrient variation between food wastes from different sources, which may due to the variation in the nature of the sources. Hydrothermal pre-treatment has reduced the total solid and volatile solid contents (32% and 24%, respectively) and maintained the amount of lipid content in the food wastes. Besides, the key media of fermentation which is the protein and carbohydrate contents were found increased by 107% and 152%, respectively in the pre-treated hydrolysate. The results showed that the hydrothermal pre-treated food waste can be used either as a feed medium or a supplemental medium for the fermentation process. Nevertheless, further investigation for controlling the composition in food wastes is needed if consistent nutrient contents are required. The results obtained in this study could be used as the foundation for further study in valorizing food waste for a better application.Food wastes are the most abundant waste available in Malaysia. Based on current households’ number of 7.67 million and a food waste generation rate of 0.54 kg/day per household [1], the amount of food waste generated is about 1.51 million tons/year. It is normally disposed of together with the municipal solid waste in a sanitary or non-sanitary landfill and incinerated without any recycle efforts. The dispose food wastes have high nutrient content that may be used as a fermentation substrate to produce other value-added product. However, the composition of daily collected food waste may vary and affect the fermentation performance and product quality. Moreover, limited information about its nutrients content from various sources can be found. Hence, this study aims to examine the extent of variation in the nutrients content of food wastes collected from different sources and also to evaluate the effect of hydrothermal pre-treatment on the nutrients composition of food wastes. Food wastes were collected ra...
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