A study of hydrogen generation by reaction of an activated Mg-CoCl2 (magnesium-cobalt chloride) composite with pure water for portable applications

Qian Sun; Meishuai Zou; Xiaoyan Guo; Rongjie Yang; Haitao Huang; Peng Huang; Xiangdong He

doi:10.1016/j.energy.2014.11.016

A study of hydrogen generation by reaction of an activated Mg-CoCl₂ (magnesium-cobalt chloride) composite with pure water for portable applications

Qian Sun, Meishuai Zou^*, Xiaoyan Guo, Rongjie Yang, Haitao Huang, Peng Huang, Xiangdong He

^*Corresponding author for this work

School of Material Science and Engineering

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

46 Citations (Scopus)

Abstract

Hydrogen production based in the corrosion of light metals in water solutions is an interesting alternative. Among all of them, Mg is probably the most adequate metal for energetic purposes due to its high electron density and oxidation potential. A safe and environmental-friendly method of hydrogen production from milled Mg-CoCl₂ composites in water was proposed in this paper. An improved mechanism for the reactivity was developed. The experimental results indicated that the activated Mg-CoCl₂ composites are very promising materials for hydrogen generation upon reaction with pure water. When immersed in pure water (50°C), the hydrolysis reaction of the Mg-6 wt% CoCl₂ composite began immediately, and the reaction rate reached 558.6mL(ming)^-1 in the first minute; the evolution of hydrogen reached 98.6% of the theoretical yield.

Original language	English
Pages (from-to)	310-314
Number of pages	5
Journal	Energy
Volume	79
Issue number	C
DOIs	https://doi.org/10.1016/j.energy.2014.11.016
Publication status	Published - 2015

Keywords

Cobalt chloride
High-energy milling
Hydrogen generation
Hydrolysis reaction
Magnesium

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1016/j.energy.2014.11.016

Cite this

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title = "A study of hydrogen generation by reaction of an activated Mg-CoCl2 (magnesium-cobalt chloride) composite with pure water for portable applications",

abstract = "Hydrogen production based in the corrosion of light metals in water solutions is an interesting alternative. Among all of them, Mg is probably the most adequate metal for energetic purposes due to its high electron density and oxidation potential. A safe and environmental-friendly method of hydrogen production from milled Mg-CoCl2 composites in water was proposed in this paper. An improved mechanism for the reactivity was developed. The experimental results indicated that the activated Mg-CoCl2 composites are very promising materials for hydrogen generation upon reaction with pure water. When immersed in pure water (50°C), the hydrolysis reaction of the Mg-6 wt% CoCl2 composite began immediately, and the reaction rate reached 558.6mL(ming)-1 in the first minute; the evolution of hydrogen reached 98.6% of the theoretical yield.",

keywords = "Cobalt chloride, High-energy milling, Hydrogen generation, Hydrolysis reaction, Magnesium",

author = "Qian Sun and Meishuai Zou and Xiaoyan Guo and Rongjie Yang and Haitao Huang and Peng Huang and Xiangdong He",

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AU - Sun, Qian

AU - Zou, Meishuai

AU - Guo, Xiaoyan

AU - Yang, Rongjie

AU - Huang, Haitao

AU - Huang, Peng

AU - He, Xiangdong

PY - 2015

Y1 - 2015

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AB - Hydrogen production based in the corrosion of light metals in water solutions is an interesting alternative. Among all of them, Mg is probably the most adequate metal for energetic purposes due to its high electron density and oxidation potential. A safe and environmental-friendly method of hydrogen production from milled Mg-CoCl2 composites in water was proposed in this paper. An improved mechanism for the reactivity was developed. The experimental results indicated that the activated Mg-CoCl2 composites are very promising materials for hydrogen generation upon reaction with pure water. When immersed in pure water (50°C), the hydrolysis reaction of the Mg-6 wt% CoCl2 composite began immediately, and the reaction rate reached 558.6mL(ming)-1 in the first minute; the evolution of hydrogen reached 98.6% of the theoretical yield.

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