Name: Production of Methane by Co-digestion of Agro-wastes and Pig Manure
Brand: Future Tech Pavilion, FUTEX
SKU: P0019600003354

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Year
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2019
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創新應用與綠能環保
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Production of Methane by Co-digestion of Agro-wastes and Pig Manure

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Trace

Technical Name	Production of Methane by Co-digestion of Agro-wastes and Pig Manure
Project Operator	Bioenergy Research Center, National Taiwan University
Project Host	周楚洋
Summary	1.兩階段厭氧處理系統：i. 使沼氣產量倍增，ii. 去化農業廢棄物，iii. 減少豬場的排放水量，節省豬場的營運成本。 2.可運用在厭氧共消化操作時的進料設計及預估沼氣產量的生質料源資料庫。 3.穩定提升沼氣產量及甲烷濃度的厭氧醱酵關鍵菌種（群）及酵素。
Scientific Breakthrough	藉由重新調整碳氮比(C/N)，使排放之沼液與農業生質廢棄資源能有效再利用，不僅可源頭減廢，在減排同時還能擴增沼氣產量，落實綠能應用。而應用16S rRNA定序、微生物生態、網絡建構、關鍵菌群和脂肪酸分析等工具，在厭氧醱酵及共消化產沼氣的領域，亦屬突破性之科學應用。
Industrial Applicability	建立農業廢棄物與豬糞厭氧共消化以及沼氣製冷、製熱應用之示範場域，藉厭氧槽內微生物生態的解析與添加，將豬糞變黃金，不只提升台灣的生質能產業，且能減少水污、空污，並由源頭減廢、減排及降低禽畜排泄物中有害病毒或細菌的散播等。以畜糞生產沼氣，對於創造循環經濟、資源再利用及綠能與環保各方面均有重大的意義。
Keyword	Anaerobic digestion Biochemical methane potential Agro wastes Pig manure Co-digestion Pilot-scale reactor Methane Pretreatment Key microorganism Microbial network
Notes

Contact

Email
D00631001@ntu.edu.tw

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