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Bioremediation oil s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
Bioremediation oil s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 Status and Future Challenges for Non-Conventional Energy Sources Volume 2 和的 Status and Future Challenges for Non-Conventional Energy Sources Volume 1都 可以從中找到所需的評價。
這兩本書分別來自 和所出版 。
國立臺灣科技大學 化學工程系 朱義旭、翁玉鑽所指導 葉羅納的 膠凝時間對可能用作柴油吸收劑藻酸鹽氣凝膠吸收率的影響 (2021),提出Bioremediation oil s關鍵因素是什麼,來自於海藻酸鈣、膠凝時間、柴油、吸收能力、可重複使用性、疏水性氣凝膠。
而第二篇論文國立臺灣科技大學 應用科技研究所 王志逢、賴君義所指導 Dula Daksa Ejeta的 無氟超疏水高分子複合材料製備及其在高效能油水分離與乳化液分離之應用 (2021),提出因為有 超疏水、超親油、聚(4-乙基苯酚)、聚氧代氮代苯并環己烷、熱固形高分子、油水分離、乳化液分離的重點而找出了 Bioremediation oil s的解答。
Status and Future Challenges for Non-Conventional Energy Sources Volume 2
為了解決Bioremediation oil s 的問題,作者 這樣論述:
Dr. Sanket Joshi is a Deputy Director, Oil & Gas Research Center, and an Application Specialist, Oil & Gas Science, at Sultan Qaboos University, Oman. He holds BSc and MSc from Sardar Patel University, India, and a PhD from M. S. University of Baroda, India - all in Microbiology. Dr. Joshi has 16 ye
ars of academic teaching and research experience, and 4 years of industrial R&D experience, in India and Oman. His current research interests encompass: Energy, Microbial products, and Environmental bioremediation. He serves as an Academic/Associate Editor/Guest editor for some of the highly reputed
journals; book series editor for Elsevier INC.Dr. Ramkrishna Sen is a Professor and the Head, Department of Biotechnology, IIT Kharagpur. He is also the Chairperson of the School of Bioscience and Central Research Facility. He administered as Chairman (GATE-&-JAM), IIT Kharagpur. Prof. Sen worked a
s Manager (R&D-Biotech), Cadila Pharma Ltd. He served as Fulbright Visiting Faculty in Columbia University, New York. His research areas include Healthcare, Energy, Environment and Water. So far, 24 PhD scholars completed their degrees under his supervision. He has about 230 international & national
publications and 15 patent applications to his credit. Prof. Sen recently featured in the list of top 2% Indian Scientists in the World.Dr. Atul Sharma is currently Associate Professor at Rajiv Gandhi Institute of Petroleum Technology, India. He has worked as a Scientific Officer in Devi Ahilya Uni
versity, India; as a Research Assistant at KIER, South Korea; and as a Visiting Professor in Kun Shan University, Taiwan, R.O.C. Dr. Sharma completed his M. Phil. and Ph.D. from School of Energy and Environmental Studies, Devi Ahilya University, India. Dr. Sharma published several edited books from
the various well-known international publishers; research papers in various international journals and conferences. He is working on the development and applications of PCMs, green buildings, solar water heating systems, solar air heating systems, and solar drying systems.Prof. P. Abdul Salam is cur
rently serving as Professor and Chair of Sustainable Energy Transition Program, Department of Energy, Environment and Climate Change, Asian Institute of Technology, Thailand. Prof. Salam has over 25 years of international experience in research, consultancy and capacity building in the areas of bioe
nergy, waste to energy, renewable energy, energy efficiency, energy storage, smart energy buildings, climate change mitigation, and water-energy-food nexus. He has obtained his bachelor’s degree in mechanical engineering from University of Peradeniya, Sri Lanka; ME and PhD in Renewable Energy and En
ergy Technology, respectively, from AIT. Prof. Salam is a member of American Society of Mechanical Engineers, American Society of Heating, Refrigeration and Air-conditioning Engineers, International Solid Waste Association, and World Bioenergy Association.
膠凝時間對可能用作柴油吸收劑藻酸鹽氣凝膠吸收率的影響
為了解決Bioremediation oil s 的問題,作者葉羅納 這樣論述:
漏油是海洋生態系統及其周邊的嚴重問題之一,已有一些技術可緩解這一問題,其中之一就是吸收。本研究探討使用自然可得的生物質,即海藻酸鈉,作為吸收劑合成的前體。雖然海藻酸鹽吸收劑合成和改性的各種方法已被廣泛研究,但關於凝膠時間對其性質和吸收率的影響所知甚少。本研究使用 1 w/v % 海藻酸鈉與 1 wt% CaCl 交聯 0、3、6 和 12 小時所得之海藻酸鹽氣凝膠(AA)分別稱為 AA-0、AA-3、AA-6、AA-12。凝膠時間對 AA 物理化學性質的影響藉由電感耦合等離子體發射光譜儀 (ICP-OES) 分析、使用壓汞孔隙率計 (MIP) 量測總孔體積和使用萬能測試機(UTM)評估其抗壓
強度;結果顯示凝膠時間越長,表觀密度和鈣含量增加,從而增加了 AA 氣凝膠的最大應力。本研究使用柴油為模型吸收物。在合成的 AA 中,AA-3 具有最高的吸收能力(Q=11.20 g/g)、可重複使用性(最多 29 次循環)和再吸收能力(Q= 4.09 g/g)。通過添加單寧酸和十二烷硫醇進行表面改性,將親水性 AA-3 轉化為更疏水的 AA-3Do。傅里葉變換紅外 (FTIR) 數據證實了在 AA-3Do 中成功地加入了添加劑。 AA-3Do 顯示能極快速吸收柴油,初始速率 ((R_0) 為 1.12E+09 g/g.s,但緩慢地吸收水 (R_0 = 27.6526 g/g.s),在其動力學
數據中觀察到 2 吸收平衡。擬二級動力學和兩步線性驅動力 (LDF) 模型分別可最佳地描述柴油和水的吸收。本研究還探討了可重複使用性,並證明了 AA-3Do 偏好吸收柴油勝過吸收水。
Status and Future Challenges for Non-Conventional Energy Sources Volume 1
為了解決Bioremediation oil s 的問題,作者 這樣論述:
Dr. Sanket Joshi is a Deputy Director, Oil & Gas Research Center, and an Application Specialist, Oil & Gas Science, at Sultan Qaboos University, Oman. He holds BSc and MSc from Sardar Patel University, India, and a PhD from M. S. University of Baroda, India - all in Microbiology. Dr. Joshi has 16 ye
ars of academic teaching and research experience, and 4 years of industrial R&D experience, in India and Oman. His current research interests encompass: Energy, Microbial products, and Environmental bioremediation. He serves as an Academic/Associate Editor/Guest editor for some of the highly reputed
journals; book series editor for Elsevier INC.Dr. Ramkrishna Sen is a Professor and the Head, Department of Biotechnology, IIT Kharagpur. He is also the Chairperson of the School of Bioscience and Central Research Facility. He administered as Chairman (GATE-&-JAM), IIT Kharagpur. Prof. Sen worked a
s Manager (R&D-Biotech), Cadila Pharma Ltd. He served as Fulbright Visiting Faculty in Columbia University, New York. His research areas include Healthcare, Energy, Environment and Water. So far, 24 PhD scholars completed their degrees under his supervision. He has about 230 international & national
publications and 15 patent applications to his credit. Prof. Sen recently featured in the list of top 2% Indian Scientists in the World.Dr. Atul Sharma is currently Associate Professor at Rajiv Gandhi Institute of Petroleum Technology, India. He has worked as a Scientific Officer in Devi Ahilya Uni
versity, India; as a Research Assistant at KIER, South Korea; and as a Visiting Professor in Kun Shan University, Taiwan, R.O.C. Dr. Sharma completed his M. Phil. and Ph.D. from School of Energy and Environmental Studies, Devi Ahilya University, India. Dr. Sharma published several edited books from
the various well-known international publishers; research papers in various international journals and conferences. He is working on the development and applications of PCMs, green buildings, solar water heating systems, solar air heating systems, and solar drying systems.Prof. P. Abdul Salam is cur
rently serving as Professor and Chair of Sustainable Energy Transition Program, Department of Energy, Environment and Climate Change, Asian Institute of Technology, Thailand. Prof. Salam has over 25 years of international experience in research, consultancy and capacity building in the areas of bioe
nergy, waste to energy, renewable energy, energy efficiency, energy storage, smart energy buildings, climate change mitigation, and water-energy-food nexus. He has obtained his bachelor’s degree in mechanical engineering from University of Peradeniya, Sri Lanka; ME and PhD in Renewable Energy and En
ergy Technology, respectively, from AIT. Prof. Salam is a member of American Society of Mechanical Engineers, American Society of Heating, Refrigeration and Air-conditioning Engineers, International Solid Waste Association, and World Bioenergy Association.
無氟超疏水高分子複合材料製備及其在高效能油水分離與乳化液分離之應用
為了解決Bioremediation oil s 的問題,作者Dula Daksa Ejeta 這樣論述:
在工業上以及我們的日常生活中常會產生許多含油廢水,這些含油廢水的排放以及海面上的漏油汙染皆會對自然環境造成嚴重的影響。此外,在石油化學工業中,油品中的少量水分也會對其造成許多問題,這些問題需耗費許多資源來解決。因此,開發具有高通量、低耗能、操作簡易、低成本、可量產之乳化劑穩定油包水乳化液處理材料是一個重要的課題。在本研究分為三個部分,我們製備三種具有不含氟、價格低廉之超疏水高分子複合材料。第一個研究中,我們利用聚(4-乙基苯酚)與1,3-phenylene bisoxazoline改質市售棉花,製備具有超疏水與超親油特性之高分子複合材料。此材料經壓縮後可應用於油包水乳化液分離,在重力過濾與加
壓過濾下可分別展現10,400 L m-2 h-1 (gravity-driven) and 867,500 L m-2 h-1 bar-1 (0.1 bar)的高通量。在第二個研究中,我們以主練型聚氧代氮代苯并環己烷改質美耐皿海綿製備超疏水材料,此材料展現極佳的吸油特性(最多可吸附本身重量170倍之油汙),壓縮後可應用於油包水乳化液分離,在重力過濾與加壓過濾下可分別展現13,900 L m-2 h-1 (gravity-driven) and 1,353,000 L m-2 h-1 bar-1 (0.025 bar)的高通量。最後一個研究中,我們利用酚醛樹脂與氧代氮代苯并環己烷改質市售棉花,
製備超疏水高分子複合材料。此材料可應用於油水混和液分離,展現1.8x105 L m-2 h-1的高通量。壓縮後可應用於油包水乳化液分離,展現1.6x106 L m-2 h-1 bar-1 (0.025 bar)的高通量。以上的乳化液分離實驗中,濾液的油純度皆高於99.95 wt%,分離效果良好。我們的超疏水高分子複合材料因其高通量、高分離效率、低成本的製備方法皆說明它們在現實應用中具有巨大的潛力。