Novel Material of Hydrogen Generation

A novel aluminum alloy which could react with water and generate hydrogen at room temperature was prepared via mechanical alloying （MA）. The results shows that milling time, additives and mass ratio have a significant role in the hydrogen production rate. The highest hydrogen production rate of allo...

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Published in	Shanghai jiao tong da xue xue bao Vol. 17; no. 3; pp. 356 - 359
Main Author	罗平董仕节谢志雄梅张强熊鸿康
Format	Journal Article
Language	English
Published	Heidelberg Shanghai Jiaotong University Press 01.06.2012
Subjects	Aluminum base alloys Architecture Computer Science Electrical Engineering Engineering Gallium base alloys Hydrogen production Hydrolysis Life Sciences Mass ratios Materials Science Mechanical alloying Reaction products Recycled aluminum aluminum alloy hydrogen generation V 512
Online Access	Get full text
ISSN	1007-1172 1995-8188
DOI	10.1007/s12204-012-1286-9

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Abstract	A novel aluminum alloy which could react with water and generate hydrogen at room temperature was prepared via mechanical alloying （MA）. The results shows that milling time, additives and mass ratio have a significant role in the hydrogen production rate. The highest hydrogen production rate of alloys reaches 95% of theoretical value. The velocity of hydrogen generation reaches more over 200 mL/min for a gram alloy. Active materials （Ga and In） included in the aluminum alloys can be recycled and used repeatedly. The hydrolysis reaction between aluminum and H20 will take place and release a large amount of heat, which contributes to increasing the velocity of hydrogen generation. The reaction products consist of A10（OH） and hydrogen.
AbstractList	A novel aluminum alloy which could react with water and generate hydrogen at room temperature was prepared via mechanical alloying (MA). The results shows that milling time, additives and mass ratio have a significant role in the hydrogen production rate. The highest hydrogen production rate of alloys reaches 95% of theoretical value. The velocity of hydrogen generation reaches more over 200mL/min for a gram alloy. Active materials (Ga and In) included in the aluminum alloys can be recycled and used repeatedly. The hydrolysis reaction between aluminum and H(2)O will take place and release a large amount of heat, which contributes to increasing the velocity of hydrogen generation. The reaction products consist of AlO(OH) and hydrogen. A novel aluminum alloy which could react with water and generate hydrogen at room temperature was prepared via mechanical alloying (MA). The results shows that milling time, additives and mass ratio have a significant role in the hydrogen production rate. The highest hydrogen production rate of alloys reaches 95% of theoretical value. The velocity of hydrogen generation reaches more over 200 mL/min for a gram alloy. Active materials (Ga and In) included in the aluminum alloys can be recycled and used repeatedly. The hydrolysis reaction between aluminum and H 2 O will take place and release a large amount of heat, which contributes to increasing the velocity of hydrogen generation. The reaction products consist of AlO(OH) and hydrogen. A novel aluminum alloy which could react with water and generate hydrogen at room temperature was prepared via mechanical alloying （MA）. The results shows that milling time, additives and mass ratio have a significant role in the hydrogen production rate. The highest hydrogen production rate of alloys reaches 95% of theoretical value. The velocity of hydrogen generation reaches more over 200 mL/min for a gram alloy. Active materials （Ga and In） included in the aluminum alloys can be recycled and used repeatedly. The hydrolysis reaction between aluminum and H20 will take place and release a large amount of heat, which contributes to increasing the velocity of hydrogen generation. The reaction products consist of A10（OH） and hydrogen.
Author	罗平董仕节谢志雄梅张强熊鸿康
AuthorAffiliation	Department of Materials Science and Engineering, Hubei University of Technology, Wuhan 430081, China State Key Laboratory of Metal Matrix Composites, Shanghai Jiaotong University, Shanghai 200240, China
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Notes	31-1943/U A novel aluminum alloy which could react with water and generate hydrogen at room temperature was prepared via mechanical alloying （MA）. The results shows that milling time, additives and mass ratio have a significant role in the hydrogen production rate. The highest hydrogen production rate of alloys reaches 95% of theoretical value. The velocity of hydrogen generation reaches more over 200 mL/min for a gram alloy. Active materials （Ga and In） included in the aluminum alloys can be recycled and used repeatedly. The hydrolysis reaction between aluminum and H20 will take place and release a large amount of heat, which contributes to increasing the velocity of hydrogen generation. The reaction products consist of A10（OH） and hydrogen. hydrogen generation, aluminum, aluminum alloy ObjectType-Article-2 SourceType-Scholarly Journals-1 ObjectType-Feature-1 content type line 23
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SubjectTerms	Aluminum base alloys Architecture Computer Science Electrical Engineering Engineering Gallium base alloys Hydrogen production Hydrolysis Life Sciences Mass ratios Materials Science Mechanical alloying Reaction products Recycled
Title	Novel Material of Hydrogen Generation
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