股票這個價位要不要買論文書籍站
Petroleum coke的問題,透過圖書和論文來找解法和答案更準確安心。 我們找到下列股價、配息、目標價等股票新聞資訊
Petroleum coke的問題,我們搜遍了碩博士論文和台灣出版的書籍,推薦Bhaskararao, B. K.寫的 Petrochemicals: An Introduction 和U.S. & Foreign Commercial Service (COR)/ U.S. Department of Stat的 Business Opportunities in Tunisia都 可以從中找到所需的評價。
這兩本書分別來自 和所出版 。
國立中央大學 環境工程研究所 張木彬所指導 黃茂泓的 應用US EPA Method 30B探討燃煤電廠之汞排放特性 (2021),提出Petroleum coke關鍵因素是什麼,來自於汞及其化合物、燃煤電廠、US EPA Method 30B、汞CEMS、商用SCR 觸媒。
而第二篇論文中原大學 化學系 葉瑞銘所指導 洪羽函的 仿生表面結構及活化生質碳材之導入對聚苯胺應用在硫化氫氣體感測元件之性能提升的探討 (2021),提出因為有 聚苯胺、仿生、千年芋葉、生質碳、碳化、活化、硫化氫、氣體感測的重點而找出了 Petroleum coke的解答。
Petrochemicals: An Introduction
為了解決Petroleum coke 的問題,作者Bhaskararao, B. K. 這樣論述:
This book is designed to cover all of topics required for an understanding of petrochemicals. Selected topics include chemicals from ethane, higher carbon atoms, plastics, rubber, synthetic gases, detergents and fibers, polymers of olefins, petroleum coke, pollution, and more. This book provides a g
eneral reference for engineering students and a refresher course for practicing engineers.
應用US EPA Method 30B探討燃煤電廠之汞排放特性
為了解決Petroleum coke 的問題,作者黃茂泓 這樣論述:
本研究基於美國EPA公告之汞採樣參考方法US EPA Method 30B建立汞採樣方法,內容包含採樣流程、採樣儀器設備操作、採樣紀錄表建立、採樣及分析之QA/QC等,並於國內某一燃煤電廠進行測試並調查其汞排放及分布,此外亦針對US EPA Method 30B與汞CEMS之採樣數據進行比較並評估US EPA Method 30B作為汞CEMS的RATA參考方法之可行性,研究結果顯示US EPA Method 30B之採樣與分析方法及其QA/QC已完整建立,實廠之汞排放及流布調查部分,三季煙囪煙道氣之汞排放濃度為0.04 ~ 0.346 µg/Nm3之間,皆遠低於電力設施空氣污染物排放標準中
新設汽力機組規範的2 µg/Nm3,符合國家排放標準之規定,此外US EPA Method 30B與汞CEMS之數據絕對值差不超過1.0 µg/scm,結果為可接受,驗證US EPA Method 30B作為汞CEMS的RATA之參考方法為可行的,本研究亦針對空氣污染防制設備之固體與液體樣品進行分析,固體樣品部分,三季之燃煤汞濃度範圍為0.031 ~ 0.057 mg/kg;底灰除了第Ⅲ季2號機為0.01 mg/kg外,其餘皆低於方法偵測極限(ND);飛灰之汞濃度介於0.075 ~ 0.712 mg/kg,相對富集因子則是飛灰遠高於底灰。液體樣品部分,各季之脫硫海水汞濃度範圍為0.057 ~
1.190 µg/L,而第Ⅲ季之進流海水之汞濃度為0.029 µg/L,各季煙囪之排放係數為0.37 ~ 3.37 mg Hg/t coal並符合美國MATS燃煤電廠汞排放之規範,此外由於煙道氣中氯化氫(HCl)對汞氧化影響亦是重要關鍵,因此本研究亦針對商用SCR觸媒之汞氧化效率與HCl之影響進行實驗並探討,結果顯示於370℃且低汞濃度環境下(5.5 ~ 6.0 µg/Nm3)商用SCR觸媒之汞吸附現象仍然明顯,而加入20 ppm與30 ppm HCl則明顯提升汞之氧化效率(80% ~ 90%)。
Business Opportunities in Tunisia
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為了解決Petroleum coke 的問題,作者U.S. & Foreign Commercial Service (COR)/ U.S. Department of Stat 這樣論述:
According to the U.S. International Trade Commission, in 2013 Tunisia was the United States' 88th largest goods trading partner. Bilateral trade in goods reached $1.54 billion, with U.S. exports to Tunisia totaling $804 million. Top U.S. export categories were petroleum oils, petroleum coke, airc
raft, soybeans, seeds, fruit and machinery. Major imports from Tunisia included olive oil, animal or vegetable fats, apparel, and electrical machinery. Tunisia has a diverse, market-oriented economy. According to the IMF, real GDP growth in 2013 was 2.6%, about 1% below growth in 2012. Real GDP grow
th for 2014 is expected to tick upward slightly. Unemployment remains frustratingly high at over 15%, with the jobless heavily weighted towards the youth and recent university graduates. With its eye on providing employment opportunities, the Government Tunisia (GOT) is focused on bolstering the cou
ntry's export sector, foreign investment, and tourism. Key exports include mechanical and electrical industries, textiles and apparel, food products, petroleum products, chemicals, and phosphates. Almost 70% of Tunisia's exports go to the European Union. According to the Central Bank of Tunisia, exp
ort of manufactured goods excluding food products grew at a 6.8% pace in 2013. Energy exports and minerals mainly crude oil and phosphate exhibit high year-to-year variance, depending on market conditions. Imports rose by 5.8% in 2013, a much slower pace of increase than was registered in 2012. Impo
rtation of raw materials and semi-finished products also lagged behind in 2013 as did industrial sector consumption of medium and high voltage electricity. Capital goods imports dropped by 2% after seeing a 14% increase in 2012. Despite economic uncertainties during Tunisia's political transition fo
llowing the 2011 Revolution, Tunisia demonstrated moderate growth of 3.7 % in 2012, and 2.6% in 2013. With the formation of a new technocratic government and the adoption of a new constitution in January 2014, investors expressed optimism that macroeconomic stability will continue after presidential
and legislative elections late in 2014. Tunisia offers investment incentives to all investment projects, except those relating to mining, energy and finance. The somewhat dated 1994 Investment Incentives Code promotes the country's overall investment goals. A more up-to-date investment code is bein
g crafted.
仿生表面結構及活化生質碳材之導入對聚苯胺應用在硫化氫氣體感測元件之性能提升的探討
為了解決Petroleum coke 的問題,作者洪羽函 這樣論述:
本論文之研究主軸,是以導電高分子「聚苯胺」為主要基材,透過兩種方式: (1) 改變聚苯胺表面型態及 (2) 添加活化生質碳材於聚苯胺中,來研究此兩種方式對此材料於應用氣體感測元件效能之提升成效。論文的第一部份研究之核心精神以結合「仿生」的概念為主,透過聚二甲基矽氧烷 (PDMS) 之軟模板轉印技術,複製了天然的千年芋葉片的表面微結構,製備出具備葉面微奈米複合「乳凸」結構之聚苯胺薄膜,預期可提升原本聚苯胺塗層之表面積,之後並將其塗覆於「指叉式電極」的表面,來研究「仿生結構的導入」是否能有效改善聚苯胺之氣體感測元件效能。 第二部分研究之核心精神以導入「活化生質碳材」為主,透過使用廢棄之椰子殼材
料進行高溫碳化及活化處理後,製備出高比表面積之活化碳材並適量添加於聚苯胺中,來研究「活化生質碳材的導入」是否能有效改善聚苯胺之氣體感測元件效能。 在材料合成方面,本研究論文以過硫酸銨為氧化劑,對苯胺單體進行「原位氧化聚合法」來合成聚苯胺,並以1H-NMR光譜, FT-IR光譜及GPC進行聚苯胺之結構鑑定,並以循環伏安儀(CV)及紫外可見(UV-VIS)光譜儀進行材料性質之鑑定,確認所合成聚苯胺具有「可逆氧化還原」及「可逆摻雜」的物理性質。 另一方面,選擇利用「轉印千年芋葉片」及「添加活化生質碳材」兩種方式來提升聚苯胺在氣體感測元件上的應用。「千年芋之仿生結構的導入」(第一部分): 透過P
DMS軟模板轉印技術,將「天然」千年芋葉片的表面結構進行轉印,藉此得到「人造」具仿生結構之聚苯胺薄膜,並利用掃描式電子式顯微鏡 (SEM) 及水滴接觸角 (WCA) 進行「表面微結構型態」及「表面親疏水性質」的觀察。 在性質鑑定方面,利用CV及UV-VIS光譜檢測具仿生結構之聚苯胺薄膜,確保「千年芋之仿生結構的導入」可有效提升聚苯胺之「可逆氧化還原」及「可逆摻雜」性質。「活化生質碳材的導入」(第二部分): 首先將廢棄之椰子殼進行高溫碳化得到椰子殼碳粉(CC),然後透過化學活化法,利用ZnCl2對CC進行活化,得到活化的碳材(AC)。 所製備之CC 及AC利用BET檢測碳材之孔洞大小及表面積,
利用Raman光譜進行碳材之結構鑑定,利用SEM進行碳材之表面型態觀察。 後續將適量的CC及AC添加入聚苯胺,之後利用CV及UV-VIS光譜進行聚苯胺複合塗料之「可逆氧化還原」及「可逆摻雜」性質的檢測。 確保「活化生質碳材的導入」可有效提升聚苯胺之「可逆氧化還原」及「可逆摻雜」性質。第一部分所合成之材料以等面積的方式黏附於鍍有ITO指叉式電極(inter-digitated electrode, IDE)的表面上,膜厚度約為 28 µm, 做為後續氣體感測元件樣品。 第二部分之樣品將其溶於NMP溶劑中,經過旋轉塗佈機將其塗佈於ITO-IDE表面上,膜厚度約為 100 nm, 接著在所建構的
硫化氫氣體感測系統中進行氣體感測元件的量測。 本研究論文中氣體感測的基本測試項目有如下四項:(a)靈敏度(Sensitivity); (b)氣體選擇性(Selectivity); (c)穩定性(Stability)及(d)重複性(Repeatability)。 在室溫下,藉由在不同環境相對濕度下(60 %RH 與80 %RH) 之氣體進行量測比較。 由研究的結果明白地顯示: 千年芋仿生結構的導入,可增強聚苯胺之氣體感測靈敏度~ 200%。 此外,3wt-%的AC導入聚苯胺中,可增強聚苯胺之氣體感測靈敏度~ 300%。 綜而言之,本研究所研究的兩種方式: (1) 「千年芋仿生結構的導入」
及 (2)「活化生質碳材的導入」皆能有效大幅改善聚苯胺之氣體感測元件的執行效能。