Solid mixture for producing hydrogen by using aluminum powder
A solid composition, aluminum powder technology, applied in the direction of hydrogen production, etc., to achieve high practical value, improve the micro interface, improve the effect of the reaction speed
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Embodiment 1
[0021] Accurately weigh 20 parts of flaky aluminum powder with a particle size of 20 μm, add 0.5 part of silica sol and 0.1 part of alcohol to make a uniform liquid, stir in a mixer for 5 minutes; manually mold into a block; move it into a vacuum drying oven Inside, the vacuum degree was kept at 133 Pa, and the temperature was 95° C., and dried for 20 minutes to make a non-loose solid composition.
[0022] Put 100g of this solid composition into an Erlenmeyer flask filled with 300g of 2%wt sodium hydroxide solution. When the temperature is 20~30°C, hydrogen bubbles will continuously escape from the surface of the solid composition. After about 30min The escape of hydrogen bubbles gradually weakened; heating the Erlenmeyer flask, when the temperature was 55~65°C, a large number of hydrogen bubbles continuously escaped from the surface of the solid composition, and the hydrogen bubbles gradually weakened after about 40 minutes; cooling the Erlenmeyer flask to 20~30 Under the con...
Embodiment 2
[0024] Accurately weigh 2 parts of flaky aluminum powder with a particle size of 50 μm, add 3 parts of silica sol and 0.01 part of alcohol to make a uniform liquid, stir in a mixer for 5 minutes; manually mold into a block; transfer to vacuum drying In the box, the vacuum degree was kept at 133 Pa, and the temperature was 100° C., and dried for 20 minutes to make a hard block solid composition.
[0025] Put 100g of this solid composition into an Erlenmeyer flask filled with 300g of 2%wt sodium hydroxide solution. When the temperature is 20-30°C, it can be seen that hydrogen bubbles are continuously escaping from the surface of the solid composition for about 30 minutes. Afterwards, the hydrogen bubbles escaped and gradually disappeared; when the Erlenmeyer flask was heated, when the temperature was 55-65°C, it could be seen that there were continuous hydrogen bubbles on the surface of the solid composition, and the hydrogen bubbles gradually disappeared after about 40 minutes; ...
Embodiment 3
[0027] Accurately weigh 15 parts of flaky aluminum powder with a particle size of 30 μm, add 3 parts of silica sol and 0.1 part of alcohol to make a uniform liquid, stir and knead in a mixer for 5 minutes, and then add 1 part of table salt with a particle size of 300 μm, Continue kneading for 5 minutes; manually mold into blocks; move into a vacuum drying oven, keep the vacuum at 133Pa, and dry for 20 minutes at a temperature of 100°C to make a slightly hard block solid composition with a certain shape.
[0028] This solid composition of 100g is put into the Erlenmeyer flask that the sodium hydroxide solution of 300g 2%wt is housed, when temperature is under the condition of 20~30 ℃, it can be seen that the surface of the solid composition is continuously and uniformly escaping hydrogen bubbles, After about 30 minutes, the hydrogen bubble escape rate remained unchanged; when the Erlenmeyer flask was heated, when the temperature was 55-65°C, it could be seen that intense continu...
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