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C1 Chemistry: Principles and Processes

為了解決Natural gas company的問題，作者Sahebdelfar, Saeed,Ravanchi, Maryam Takht,Nadda, Ashok Kumar 這樣論述：

Dr. Saeed Sahebdelfar received his PhD from Sharif University of Technology in 2002. He is now the manager of the Catalysis Research Group at Petrochemical Research and Technology Company. Dr. Sahebdelfar’s main research interests include C1 chemistry on catalytic conversions of carbon dioxide and n

atural gas to synfuels and chemicals, petroleum refining, biomass conversions and environmental engineering. He has published over 80 original articles (h-index 26) and written or edited 5 books.Dr. Maryam Takht Ravanchi holds a PhD in Chemical Engineering. She is a researcher in the Catalysis Resea

rch Group at Petrochemical Research and Technology Company. Her research interests are in the fields of natural gas conversion, C1 chemistry, heterogeneous catalyst synthesis, membrane separation technologies and environmental research. Her recent research activities focus on carbon dioxide utilizat

ion, paraffin dehydrogenation, hydrogenation processes, and methanol synthesis. She has more than fifteen years of experience in the petrochemical industry as a process engineer and researcher. She has published about 70 journal papers, 70 conference papers, 6 national patents and 13 books (h-index

20 and i-10 index 29).Dr. Ashok Kumar Nadda is Assistant Professor in the Department of Biotechnology and Bioinformatics, Jaypee University of Information Technology, India. He worked as a postdoctoral fellow in the State Key Laboratory of Agricultural Microbiology, Huazhong Agricultural University,

China and as a Brain Pool Researcher/ Assistant Professor at Konkuk University, South Korea. Dr. Ashok has a keen interest in microbial enzymes, biocatalysis, CO2 conversion, biomass degradation, biofuel synthesis, and bioremediation. Dr. Ashok has published more than 120 scientific contributions i

n the form of research, review, books, book chapters and in various journals of international repute. He is the Series Editor of the Microbial Biotechnology for Environment, Energy and Health book series published by Taylor and Francis/CRC Press.

Natural gas company進入發燒排行的影片

2014至2020年中國能源外交及其地緣政治影響

為了解決Natural gas company的問題，作者芭柯妮 這樣論述：

21世紀以來，中國為了保障自身的擴張以及工業化，正面臨著多重的挑戰，同時，繼續推動現代化進程，使自己成為世界上最重要的強國。因此，擁有豐富的能源是必須的，但目前有一半以上的能源需向國外進口，在可再生能源轉變的過程中，中國選擇了利用脫炭方式進行發電代替了石油以及天然氣的功用，在《能源發展戰略(2014-2020年)行動計畫》的能源政策中，突顯出一系列的調整，將其保證必要的能源資源，可以滿足工業化、消費模式和擴張內部的需求。而這些調整主要針對四個關鍵環節，分別是環境退化、國內能源開發、國外資源開發和進口原物料。由於中東地區的不穩定以及傳統能源運輸路線－馬六甲海峽時常發生衝突，導致運輸之脆弱性日益

增加，因此能源依賴程度大幅增加。出於此原因，本研究主要是致力於中國在能源政策上，增加許多能源開發地區，例如：位於中亞的烏茲別克、哈薩克共和國、土庫曼、緬甸、巴基斯坦和拉丁美洲。因此本文分析了一帶一路之策略影響，包括中國在厄瓜多、委內瑞拉以及巴西的投資，透過原油方式來償還貸款的條款以及阿根廷、巴西、智利和墨西哥的可再生能源擴張作為研究內容。

Direct Natural Gas Conversion to Value-Added Chemicals

為了解決Natural gas company的問題，作者 這樣論述：

Jianli HuDr. Jianli Hu is a Chair Professor and the Director of Shale Gas Center at West Virginia University. He leads an interdisciplinary faculty team carrying out cutting edge research in natural gas conversion as well as renewable energy utilization. He has demonstrated strong leadership in part

nering with U.S. national laboratories and industrial companies to undertake a number of research projects funded by U.S. federal agencies. These research projects span across the fields of reaction engineering, surface chemistry, heterogeneous catalysis, plasma and microwave-enhanced catalytic reac

tions. Specifically, his research group at WVU is focused on microwave catalysis approaches to produce ammonia from renewable power under low pressure and temperature, chemicals and carbon nanomaterials from natural gas. Before joining West Virginia University, Dr. Hu worked as a research leader at

Koch Industries, Pacific Northwest National Laboratory and BP Oil. While working in industry, Dr. Hu led efforts in developing technologies for petroleum refineries and future biorefineries using biomass as a feedstock. The efforts had led to a number of acquisitions that facilitated technology comm

ercialization. He has been granted 31 U.S. patents and published more than 150 journal articles, conference proceedings, technical reports and book chapters. Dr. Hu has been serving as an editor and a guest-editor for a number of peer-reviewed technical journals and a book. He has been serving in a

number of industrial advisory boards including AIChE RAPID focus area lead. He has been chairing for ＂Advanced Fossil Energy Utilization＂ in AIChE national meetings. At Pacific Northwest National Laboratory, Dr. Hu was among the key contributors in developing microchannel catalytic reactor technolog

y which led to NASA Technology Brief Awards. Dr. Hu received his B.S. in Chemistry and Ph.D. in Chemical Engineering from Tsinghua University, China and did his postdoctoral training at University of Pittsburgh, PA, USA.　Dushyant ShekhawatDr. Dushyant Shekhawat is serving as a team supervisor for Re

action Engineering team at National Energy Technology (NETL), U.S. Department of Energy, Morgantown, USA. Dr. Shekhawat’s research interests include: fuel processing for fuel cell applications, reaction engineering, surface chemistry, heterogeneous catalysis, energy, fuel cell, plasma and microwave-

assisted catalytic reactions, and plasma chemistry. Currently, his team at NETL is leading efforts in developing microwave-assisted technologies and approaches to produce value-added fuels and chemicals from natural gas, higher hydrocarbon fuels, and coal. Dr. Shekhawat was among the key contributor

s to pyrochlore-based reforming catalyst, which was licensed to a spin-off company, Pyrochem Catalyst Company.　He is a co-recipient of the Federal Laboratory Consortium 2011 Mid-Atlantic Regional Award for Excellence in Technology Transfer ＂Novel Pyrochlore Catalysts for Hydrocarbon Reforming＂. He h

as published over 200 peer-reviewed journal publications, conference proceedings, and reports, seven book chapters, three books, and 15 patents (disclosed or full). Dr. Shekhawat has been serving as an associate editor of Catalysis book series published by the Royal Society of Chemistry. Dr. Shekhaw

at has also served as a guest-editor for the special issues (sections) of Catalysis Today, Fuel, Energy & Fuels, and International Journal of Hydrogen Energy. He has been serving as a program chair for a topical & ＂Advanced Fossil Energy Utilization＂ in AIChE national meetings for last thirteen year

s. Under the same topical, he has organized multiple sessions of fuel processing for hydrogen production and value-added chemicals from natural gas. He is a registered Professional Engineer (PE) in West Virginia and also serves in the NCEES’s PE Chemical Engineering Examination Development committee

. Dr. Shekhawat received his BS in Chemical Engineering from the University of Minnesota in Twin Cities and his PhD in Chemical Engineering from the Michigan State University in East Lansing.

石頭造紙技術創新策略管理-以H公司為個案研究

為了解決Natural gas company的問題，作者江李玉華 這樣論述：

石頭造紙屬於正在開發之新興市場，因環保議題及全球暖化，給了造紙業一個全新機，台灣是海島型國家，礦石資源豐富，在開拓新市場上占有極大優勢。本研究之目的：（1）利用五力分析模式，掌握個案公司在石頭紙方面的技術創新策略；（2）運用 SWOT 分析的導入，找出影響個案公司優勢、劣勢及目前石頭紙在外部的機會、威脅；（3）藉由行銷組合4P策略的展開，形成更完整之策略管理架構朝向差異化的目標邁進。本研究採用文獻研究、專家訪談等應用驗證進行分析。研究發現：(一) 五力分析：個案公司具備產業鏈的垂直整合能力、智慧財產權及專利權保護建立的優勢及推動專業及創新人才培育、創造產品差異化價值發展潛力。(二) SWOT

分析：(1) 不用水、不伐樹是企業可持續發展的關鍵；(2) 原料取得容易、環保3R回收機制是企業追求永續發展的競爭優勢；(3) 生產成本低、無毒產品廣度運用廣泛；(4) 發揮創新，開發新元素，擴大市場應用範圍；行銷組合4P策略延伸出之現況問題：(1) 產品：欠缺在地差異化特色；(2) 價格：折扣少；(3) 地點/通路：考慮外部供應鏈，結合專業理念相同之社企共享周邊資源；(4) 推廣/促銷：無與本業結合之行動支持。貢獻：目前尚未有石頭造紙方面之策略研究，藉由五力分析、SWOT分析、行銷組合4P策略，呈現出優化成效，將現有資源與環境保護結合做出最適規劃，達到企業利潤與環保利益兼得之應用。

本研究係造紙業為例，運用礦石（大理石）綠色設計流程不用水的清潔生產，免燒經過拉引成型，即成為強度、韌性佳之紙製品，該產品是環保、節能減碳、減廢之紙體材料，符合永續發展循環經濟的概念，達到保護自然生態的要求。