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Bioaugmentation的問題,透過圖書和論文來找解法和答案更準確安心。 我們找到下列問答集和資訊懶人包
Bioaugmentation的問題,我們搜遍了碩博士論文和台灣出版的書籍,推薦寫的 Biomass, Biofuels, Biochemicals-: Microbial Fermentation of Biowastes 和的 Environmental Soil Remediation and Rehabilitation: Existing and Innovative Solutions都 可以從中找到所需的評價。
這兩本書分別來自 和所出版 。
國立高雄科技大學 海洋生物技術系 鄭至玉所指導 王又生的 結合Plackett-Burman與田口實驗設計法優化Pleurotus菌絲球生產及其作為機能性食品的潛力 (2021),提出Bioaugmentation關鍵因素是什麼,來自於Plackett-Burman Design、田口實驗、菌絲球。
而第二篇論文國立雲林科技大學 環境與安全衛生工程系 林啟文所指導 Lidia Kristia Alfanti的 以植物微生物燃料電池同時增強銅去除與產電 (2021),提出因為有 生物電化學、電壓輸出、重金屬、空心菜、微生物群落的重點而找出了 Bioaugmentation的解答。
Biomass, Biofuels, Biochemicals-: Microbial Fermentation of Biowastes
為了解決Bioaugmentation 的問題,作者 這樣論述:
Microbial Fermentation of Biowastes summarizes new advances in the development of various strategies for enhanced microbial fermentation for organic waste conversion to bioenergy/biochemicals, and for biodegradation of plastic waste. Sections cover principles of additive strategies, multi-stage b
ioreactors, microbial bioaugmentation strategies, genetically engineered microorganisms, co-digestion strategies, feedstock pre-treatment strategies, enzyme technologies, and hybrid technologies methods. In addition, the book reviews progress in the conversion of common wastes to bioenergy and bioch
emicals via enhanced anaerobic digestion, also summarizing the significant progress achieved on enhancing anaerobic digestion via additive strategy, multi-stage bioreactor strategy, microbial bioaugmentation strategy, genetic engineering approach, and much more.
Bioaugmentation進入發燒排行的影片
結合Plackett-Burman與田口實驗設計法優化Pleurotus菌絲球生產及其作為機能性食品的潛力
為了解決Bioaugmentation 的問題,作者王又生 這樣論述:
目錄 i圖目錄 iv表目錄 vi中文摘要 viii致謝 xii壹、 前言 11.1 食用菇類栽培發展 11.2 液態培養之菌絲形態比較 21.3 菌絲球之優點與應用 31.4 菇菌類在保健營養食品上的發展現況 41.5 菇類菌種鑑定 51.6 Plackett-Burman Design 介紹 61.7 田口實驗分析 71.8 感官問卷分析 101.9 實驗目的與策略 10貳、 材料與方法 112.1 食用菇類篩選與固態培養 112.2 活性物質分析 132.2.1 鈣濃度測定 152.2.2 總多酚(polyphenol)測定 152.2.3 漆酶
(laccase)活性測定 152.2.4 粗蛋白質測定(protein) 162.2.5 總醣(Polysaccharides)分析 162.3 菌種鑑定 172.3.1 DNA萃取 172.3.2 聚合酶連鎖反應 (PCR) 172.3.3 序列比對與分析 182.4 基礎培養條件及生物質量分析 192.5 Plackett-Burman Design (PBD) 192.6 田口實驗 202.7 顆粒大小分析- Image J 222.8 形態優化與分析 242.8.1 不同濃度聚山梨醇酯80 242.8.2 調整不同濃度培養基 252.9 感官分析-問卷
調查 26參、研究結果 273.1 食用菇類篩選 273.2 菌種鑑定 283.3 基礎液態培養分析 333.4 Plackett-Burman Design 篩選 353.5 田口實驗分析 393.5.1 田口實驗形態分析 433.6 菌絲球形態優化 473.6.1 不同濃度聚山梨醇酯80 473.6.2 不同濃度培養基 483.7優化效應總比較 493.8 感官品評調查分析 513.8.1 受訪者資料分析 513.8.2 產品感官調查 523.8.3 差異分析與事後檢定 55肆、討論 58伍、結論 61參考文獻 62附錄1. 感官問卷 69附
錄2. 問卷建議表 75附錄3. 本研究菌種序列 76附錄4. 本研究菌種演化樹圖及各形態 79附錄5. 最佳配方培養不同菌種菌絲球 82
Environmental Soil Remediation and Rehabilitation: Existing and Innovative Solutions
為了解決Bioaugmentation 的問題,作者 這樣論述:
This book provides a comprehensive overview of some existing and innovative remediation techniques and strategies for soils contaminated by heavy metals or organic compounds (e.g. petroleum hydrocarbons, NAPLs, chlorinated organic compounds, ...). Several innovative chemical remediation approaches (
in-situ and ex-situ) and combination with physical and/or thermal treatment are discussed. Recovery of NAPLs, reuse of leaching solutions and in-situ chemical reduction and oxidation is comprehensively presented. The enhancement of physical NAPLs recovery by chemical enhancement is presented from a
practical and theoretical point of view. Innovative waste-assisted bioremediation to improve the soil quality and the remediation of petroleum hydrocarbons is also presented. This book will be useful for students, researchers, professionals and R&D industrial departments engaged in the treatment of
contaminated soils. Eric D. van Hullebusch (PhD in Aquatic Chemistry and Microbiology) is full Professor in Biogeochemistry of Engineered Ecosystems at Université de Paris and Institut de Physique du Globe de Paris (Paris, France). His main research interests are in the area of environmental techn
ologies and biogeochemistry, with special focus on: i) Study of metals and metalloids biogeochemistry in engineered ecosystems, ii) Biohydrometallurgy of secondary resource streams, and iii) Soil bioremediation. Within these research areas, he published more than 200 papers in scientific journals wi
th peer review and is co-author of more than 15 book chapters.Marie-Odile Simonnot(PhD in Chemical Engineering) is full Professor in Chemical and Environmental Engineering at Universitéde Lorraine (Nancy, France). Her main research interests are in the area of separation engineering, with special fo
cus on: i) Reactive transport in porous media including contaminated soils, ii) Soil remediation by chemical processes (oxidation, reduction, washing) iii) Hydrometallurgy applied to agromining. Within these research areas, she published more than 90 papers in scientific journals with peer review an
d is co-author of 9 book chapters.StéfanColombano (PhD in Environmental Science and Technology) is research scientist and expert at the French Geological Survey (Orléans, France). He has over 12 years of in situ remediation experience in consulting & engineering companies. He was in charge of the de
velopment and application of remediation technologies for contaminated soils and groundwater. Since he joined the French Geological Survey, his main research interests are in the area of soil and groundwater remediation, with special focus on: i) recovery of NAPL (multiphase flow experiments and mod
eling), ii) design and optimization of in situ remediation systems. Within these research areas, he published more than 15 papers in scientific journals with peer review. He is also in charge of carrying out technical expertises on behalf of the French Ministry of the Environment on topics related t
o remediation implementation.David Huguenot(PhD in Biology) is associate Professor in Biogeochemistry at Université Paris-Est (Champs-sur-Marne, France). His main research interests are in the field of soil remediation connected with an ecological engineering approach: (i) biological processes invol
ved in the treatment of soils and waters polluted by organic (pesticides, hydrocarbons, chlorinated solvents...) and metallic contaminants;(ii) improvement of soil/plant relation to enhance remediation (biostimulation/bioaugmentation)(iii)physico-chemical remediation of soils and waters (soil washin
g, advanced oxidation processes) combined with bio/phytoremediation. Within these research areas, he published more than 40 papers in scientific journals with peer review.Yoan Pechaud (PhD in Process Engineering) is associate Professor in biological and chemical process engineering at Université Par
is-Est Est (Champs-sur-Marne, France). His main research interests are in the area of biological processes for wastewater treatments and soil remediation. His current activity is organized around the biological and chemical transformations and transfer phenomena occurring in these processes. He comb
ines experiments at different scales and modelling using conventional approaches used in process engineering. Within these research areas, he published more than 20 papers in scientific journals with peer review and is co-author of 3 book chapters.
以植物微生物燃料電池同時增強銅去除與產電
為了解決Bioaugmentation 的問題,作者Lidia Kristia Alfanti 這樣論述:
開發了一種植物微生物燃料電池 (PMFC) 來處理沉積物中的銅 (Cu),該系統採用適合現地處理的單一介質系統,Ipomoea aquatica 用於改善 PMFC 的發電與銅去除,在沒有銅的情況下,沉積物 MFC (SMFC) 的平均電壓高達 78 ± 2.40 mV,當存在 200 mg/kg Cu2+ 時,電壓輸出急劇降低至 39 ± 4.00 mV,同時,PMFC 的平均電壓輸出更好,為 114 ± 5.89 mV,是 SMFC 的 1.84 倍。此外,SMFC 和 PMFC 對沉積物中 Cu 的修復率分別為 35.9% 和 71.2%,表顯示PMFC 對 Cu 的重金屬去除效果是
SMFC 的 1.98 倍,該結果是生物電化學過程與植物吸收作用的結果。此外,Cu 納米顆粒在陰極被確定為最終產物。微生物群落分析顯示,變形菌與厚壁菌是發電中的主要細菌,從而提高了 PMFC 電壓,這項研究成功地證明了 PMFC 是一種通過提供促進微生物生長的根系分泌物來處理銅污染沉積物的有前景的技術。生物降解的結果顯示,銅的抑製作用影響了有機物的降解性能,通過將微生物分離物注射到原始聚生體的生物增強性能將產生與僅原始聚生體相比的最佳性能。各種銅濃度下的生物強化被歸為一級反應,而原始聯合體與純分離物被歸為零級反應。生物強化顯示銅吸附的改善與更高的蛋白質濃度。此外,植物及生物炭的添加增加了沉積物
中的生物降解,酶動力學遵循 Michaelis-Menten 方程。植物及生物炭的添加在 0 mg/kg、40 mg/kg 與 200 mg/kg Cu2+ 的抑製作用下,Km 分別提高了 53 mg/L、80 mg/L 及 137 mg/L。