走在汽車革命的路上論文書籍站
Coal carbon emission的問題,透過圖書和論文來找解法和答案更準確安心。 我們找到下列包括價格和評價等資訊懶人包
Coal carbon emission的問題,我們搜遍了碩博士論文和台灣出版的書籍,推薦Caputo, Richard/ Kreith, Frank (EDT)寫的 Hitting the Wall, A Vision of a Secure Energy Future 可以從中找到所需的評價。
另外網站CO2 Emissions from Coal-Fired and Solar Electric Power Plants也說明:separation processes could be used to remove carbon dioxide from flue gases. Although CO2 emissions from coal-fired power plants could be reduced by up to 90%, ...
國立勤益科技大學 化工與材料工程系 戴永銘所指導 鄭兆均的 鎵酸鉍/石墨化氮化碳之複合型光觸媒製備及其光還原CO2之應用 (2021),提出Coal carbon emission關鍵因素是什麼,來自於甲醇、g-C3N4、光還原、CO2、鎵酸鉍。
而第二篇論文中原大學 環境工程學系 王雅玢、游勝傑所指導 馬世隆的 應用新型助熔劑在常壓微波電漿反應器中穩定飛灰之研究 (2021),提出因為有 粉煤灰、助熔剂、重金属、田口法、微波電漿、玻璃化的重點而找出了 Coal carbon emission的解答。
最後網站Natural gas is a much 'dirtier' energy source than we thought則補充:Coal, oil, and gas are responsible for much more atmospheric methane, ... Over the past few decades, as calls to reduce carbon dioxide ...
Hitting the Wall, A Vision of a Secure Energy Future
為了解決Coal carbon emission 的問題,作者Caputo, Richard/ Kreith, Frank (EDT) 這樣論述:
Hitting the Wall examines the combination of two intractable energy problems of our age: the peaking of global oil production and the overloading of the atmosphere with greenhouse gases. Both emerge from the overconsumption of fossil fuels and solving one problem helps solve the other. The misinform
ation campaign about climate change is discussed as is the role that noncarbon energy solutions can play. There are nine major components in the proposed noncarbon strategy including energy efficiency and renewable energy. Economics and realistic restraints are considered and the total carbon reduct
ion by 2030 is evaluated, and the results show that this strategy will reduce the carbon emission in the United States to be on track to an 80% reduction in 2050. The prospects for "clean" coal and "acceptable" nuclear are considered, and there is some hope that they would be used in an interim role
. Although there are significant technical challenges to assembling these new energy systems, the primary difficulty lies in the political arena. A multigenerational strategy is needed to guide our actions over the next century. Garnering long-term multiadministration coherent policies to put the el
ements of any proposed strategy in place, is a relatively rare occurrence in the United States. More common is the reversal of one policy by the next administration with counterproductive results. A framework for politically stable action is developed using the framework of "energy tribes" where all
the disparate voices in the energy debate are included and considered in a "messy process." This book provides hope that our descendants in the next century will live in a world that would be familiar to us. This can only be achieved if the United States plays an active leadership role in maintaini
ng climatic balance. Table of Contents: Introduction / The End of Cheap Oil / Carbon - Too Much of a Good Thing / Carbonless Energy Options / Conventional Energy / Policy for Whom? / Call to Arms / References
鎵酸鉍/石墨化氮化碳之複合型光觸媒製備及其光還原CO2之應用
為了解決Coal carbon emission 的問題,作者鄭兆均 這樣論述:
光還原為可持續和綠色太陽能燃料以及有機化合物的光催化降解通常被認為是同時克服環境問題和能源危機的有吸引力的解決方案。本研究的主要目的是研究BixGayOz/g-C3N4 複合光催化劑用於光催化 CO2 還原為甲醇。由於成分的相對能帶排列,異質結構表現出高效的電荷分離並具有顯著的光催化氧化和還原能力,可用於甲醇生產。本論文採用化學沉澱法和水熱法合成了BixGayOz/g-C3N4複合材料。 X射線粉末衍射儀、場發射掃描電子顯微鏡能量色散X射線光譜儀、高分辨率X射線光電子能譜儀、漫反射光譜儀、比表面積分析儀和螢光光譜儀用於測試產品的分子元素組成、帶隙、化合物結構和氧化態。所有樣品的光催化活性
均基於在 254 nm 紫外輻射下 CO2 轉化為甲醇的情況進行評估。在紫外光照射下,在 450 mL NaOH 溶液中,0.05 g Ga2Bi1-2W-700-50wt% 複合催化劑達到最大甲醇生成率。該反應條件的結果表明RMeOH的甲醇形成速率= 3792.01 μmole/g-h。這項工作提供了一種簡單的策略來調整光催化劑和半導體異質結的能帶結構,以實現高效的光催化 CO2 還原。
應用新型助熔劑在常壓微波電漿反應器中穩定飛灰之研究
為了解決Coal carbon emission 的問題,作者馬世隆 這樣論述:
目前焚化爐產生的飛灰由於其有毒化合物和重金屬含量高,不僅在環境方面會引起許多問題,而且在經濟方面亦會造成負面影響,因其需要大量資源來進行處理和最終處置。 本研究旨在微波電漿反應器中應用貝殼粉作為助熔劑來穩定飛灰,研究中有兩個實驗階段:第一階段著重於使用兩種氣體(氬氣和氮氣)處理飛灰以製備三種組合,第二階段基於使用三種不同比例之助熔劑,以田口法設計 (L9) 來計算功率、流量和時間等參數最佳數值。 研究結果顯示組合 3(飛灰 +貝殼粉 + 石英 + 氧化鋁 + 玻璃)的毒性降解效果最佳,此組合之重金屬去除量分別為:As (89%)、Hg (100%)、Cd(88%) 、Cr (79%) 、C
u (79%)、Pb (88%) 和 Se (97%),而分析其礦物成分主要為矽灰石、鈣黃長石、富鋁紅柱石和方解石,並發現以氮氣作為載體氣體時可得最佳性能。而在第二階段試驗結果顯示樣品3,在以下參數數值操作下:功率-1,000w、流量-12L/M、時間-9分鐘、比例-4:2:1:1:2,可獲得相似的礦物組成,獲得富含二氧化矽、氧化鋁和碳酸鈣之材料。在氣體殘留結果方面,氬氣在降解VOC方面表現出良好的效果:25.4ppm(對照組)和24.4ppm(用助燃劑處理後)。本研究結果指出可以使用貝殼粉搭配一般助燃劑來有效穩定飛灰,並可獲得一種可應用於建築的回收新材料。