Hydrogen generation from ethanol using plasma reforming technology（等離子體重整乙醇制氫技術）

定　價：￥98.00

作　者：	嚴建華著
出版社：	浙江大學出版社
叢編項：
標　簽：	暫缺

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ISBN：	9787308187664	出版時間：	2019-02-01	包裝：	平裝-膠訂
開本：	16開	頁數(shù)：		字數(shù)：

內容簡介

　　嚴建華、杜長明著的《等離子體重整乙醇制氫技術（英文版）（精）》對采用等離子體或等離子體—催化工藝重整諸如乙醇等可再生原料制氫的研究進行了介紹。利用新型等離子體工藝及等離子體催化聯(lián)合工藝可減少氮氧化物排放，且能量循環(huán)中減少“碳跡”，因而在再生資源制氫領域上表現(xiàn)出了強大的潛力。實驗結果表明將等離子體與催化工藝相結合可產(chǎn)生協(xié)同作用。由于具有良好的重整能力及產(chǎn)氫效率，該技術將可望掀起新一輪重整工藝風暴，并吸引眾多研究者進行綠色能源制取工藝的研究。本書介紹了輸入功率、反應器結構、反應溫度、載氣類型及原料組分等影響因素對重整效率的影響。為進一步了解和評估重整效率，本書還對乙醇重整的多種模型進行介紹，比較了不同等離子體反應器重整乙醇的效果，并從各等離子體類型的特征對其進行具體分析。本書在后展望了未來該領域可能的研究發(fā)展方向，并預測了新一代燃料制氫工藝的發(fā)展及趨勢。

作者簡介

暫缺《Hydrogen generation from ethanol using plasma reforming technology（等離子體重整乙醇制氫技術）》作者簡介

圖書目錄

1 Plasma for Ethanol Reforming n
1.1 Hydrogeand Plasma n
1.2 Reforming Technologies of Liquid Fuel n
1.2.1 CO2 Reforming n
1.2.2 Partial OxidatioReforming n
1.2.3 Steam Reforming n
1.2.4 Autothermal Reforming n
1.2.5 ComparisoAmong Different Reforming Processes n
1.3 HydrogeProductioby Ethanol Reforming n
1.3.1 Catalytic Ethanol Reforming for HydrogeProduction
1.3.2 Plasma Ethanol Reforming for HydrogeProduction
References n
Non-thermal Are Plasma for Ethanol Reforming n
and HydrogeProduction
2.1 Non-thermal Plasma n
2.2 Non-thermal Arc Plasma Reforming of Ethanol to Produce n
Hydrogen
2.3 Factors Affecting oPlasma Reforming of Ethanol n
2.3.1 Effects of the Components of the Materials n
2.3.2 Effects of the Carrier Gas n
2.3.3 Effects of the Input Power n
2.3.4 Effects of Other Factors n
2.4 Comparisoof the Non-thermal Plasma Reforming of Ethanol n
2.5 Developmental Trends of the Non-thermal Arc Plasma n
Reforming of Ethanol n
References n
3 Hydrogefrom Ethanol by a Plasma Reforming System n
3.1 Introduction
3.2 Materials and Methods n
3.2.1 Experimental Setup n
3.2.2 Calculation
3.3 Results and Discussion
3.3.1 Effect of the O/C Ratio n
3.3.2 Effect of the S/C Ratio n
3.3.3 Effect of the Input Power n
3.3.4 Effect of the Ethanol Flow Rate n
3.4 Conclusion
References n
4 Hydrogefrom Ethanol by a Miniaturized Plasma n
Reforming System n
4.1 Introduction
4.2 Experimental Setup n
4.3 Results and Discussion
4.3.1 Voltage-Current Characteristic n
4.3.2 Effect of the O/C Ratio n
4.3.3 Effect of the S/C Ratio n
4.3.4 Effect of the Ethanol Flow Rate n
4.4 Conclusion
References n
Plasma-Catalytic Reforming for HydrogeGeneration
from Ethanol n
5.1 Introduction
5.2 Experimental Setup n
5.2.1 Plasma-Catalytic Setup n
5.2.2 Catalysts Characterization
5.3 Results and Discussion
5.3.1 Effect of the O/C Ratio n
5.3.2 Effect of the S/C Ratio n
5.4 Conclusion
References n
6 Mechanism for the Plasma Reforming of Ethanol n
6.1 Mechanism Analysis of the Single Plasma Reforming of Ethanol n
6.1.1 Electron-Molecule Collision
6.1.2 Free Radical Reaction
6.1.3 The Generatioand Conversioof the MaiProducts n
6.1.4 Suppressioand Removal of CarboDeposition
ithe Reforming Process n
6.1.5 Removal of NOr ithe Process of Reforming n
6.2 Mechanism Analysis of the Plasma-Catalytic Reforming n
of Ethanol n
6.2.1 Related Mechanism of the Catalytic Reforming n
of Ethanol n
6.2.2 Effects of Plasma othe Surface Characteristics n
of the Catalyst n
6.2.3 The Surface Reactioof the Electronic/Radical-Catalyst n
6.3 ComparisoBetweePlasma Reforming and n
Plasma-Catalyst Reforming n
6.4 Summary n
References n
7 Outlook n
Index