Research Keyword: waste utilization

Investigation of Efficient Pullulan Synthesis Utilizing Huangjiu Lees as a Substrate

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Scientists have discovered a way to use Huangjiu lees, the waste material left over from making Chinese rice wine, to produce pullulan, a valuable biopolymer used in food and medicine. By evolving a special fungal strain through repeated exposure to these lees, they created a strain that produces pullulan much more efficiently. Using optimized fermentation conditions and a two-stage process with different microorganisms, they achieved significantly higher pullulan yields, making this previously discarded byproduct into a valuable resource.

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Cultivation of Different Oyster Mushroom (Pleurotus species) on Coffee Waste and Determination of Their Relative Biological Efficiency and Pectinase Enzyme Production, Ethiopia

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This research shows that oyster mushrooms can be successfully grown on leftover coffee waste (husks and parchment), turning an environmental problem into a nutritious food source. Different oyster mushroom species performed differently, with P. ostreatus being the most efficient. Pre-composting the coffee waste improved mushroom yields significantly. The study demonstrates that using coffee waste for mushroom cultivation is both economically viable and environmentally beneficial.

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Fruit and Vegetable Processing Waste as Potential Raw Material for Food Enrichment With Dietary Fiber

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This study examined the fiber content of leftover materials from processing fruits and vegetables, finding that pomace (processing waste) is an excellent source of dietary fiber. Chokeberries and blackcurrants were found to have particularly high fiber levels, while apples and carrots were rich in soluble fiber types. These waste products can be used to create nutritious fiber-enriched foods and supplements, providing both environmental benefits by reducing waste and health benefits through increased dietary fiber consumption.

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Experimental Assessment of Multiple Properties of Mycelium-Based Composites with Sewage Sludge and Bagasse

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Researchers developed a sustainable building material by growing mushroom mycelium (fungal threads) on sewage sludge and bagasse waste. The resulting composites were lightweight, strong enough for highway construction, and environmentally friendly compared to conventional materials made from expanded polystyrene or cement. This innovation offers a promising way to reduce both construction waste and municipal sewage sludge disposal challenges.

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