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HydrogenOxygenMixtureExplosionLimits
Explosion limit theory of hydrogen-oxygen mixed gases
The theory of hydrogen-oxygen synthesis, its explosion limit, is related to safety and involves all kinds of skills. Today's detailed discussion, in order to HydrogenOxygenMixtureExplosionLimits.
Hydrogen is light and highly flammable, and oxygen is the quality of combustion. When the two are mixed, in case of fire or heat, they often explode. Its explosion limit is the flammable range of Hydrogen-oxygen mixtures. If the lower limit is low, a small amount of hydrogen is mixed in oxygen, and if it reaches this limit, it will explode when it encounters energy; if the upper limit is high, the hydrogen-rich mixture is also prone to explosion.
The reason is that the hydrogen-oxygen reaction depends on molecular collision. At the lower limit, the hydrogen molecules are sparse, and the collision is difficult to cause a chain reaction; beyond the lower limit, the collision is frequent, and the reaction is dramatic and explosive. As for the upper limit, the oxygen is insufficient, the reaction is bound, and it is difficult to explode beyond this.
Looking at all practices, industrial processes, and experimental operations, it is necessary to carefully observe the explosion limit of Hydrogen-oxygen mixtures. Or control its ratio, or isolate its fire source, or prepare explosion-proof devices to prevent accidents. Prepare for a rainy day to ensure all things go well, and people are safe and secure.
The principle of covering the explosion limit of hydrogen-oxygen mixed gases is actually crucial and cannot be ignored. Only those who are clear about it and make good use of it can be used in all kinds of situations, and they can be used with ease to avoid disasters and seek safety.
The theory of hydrogen-oxygen synthesis, its explosion limit, is related to safety and involves all kinds of skills. Today's detailed discussion, in order to HydrogenOxygenMixtureExplosionLimits.
Hydrogen is light and highly flammable, and oxygen is the quality of combustion. When the two are mixed, in case of fire or heat, they often explode. Its explosion limit is the flammable range of Hydrogen-oxygen mixtures. If the lower limit is low, a small amount of hydrogen is mixed in oxygen, and if it reaches this limit, it will explode when it encounters energy; if the upper limit is high, the hydrogen-rich mixture is also prone to explosion.
The reason is that the hydrogen-oxygen reaction depends on molecular collision. At the lower limit, the hydrogen molecules are sparse, and the collision is difficult to cause a chain reaction; beyond the lower limit, the collision is frequent, and the reaction is dramatic and explosive. As for the upper limit, the oxygen is insufficient, the reaction is bound, and it is difficult to explode beyond this.
Looking at all practices, industrial processes, and experimental operations, it is necessary to carefully observe the explosion limit of Hydrogen-oxygen mixtures. Or control its ratio, or isolate its fire source, or prepare explosion-proof devices to prevent accidents. Prepare for a rainy day to ensure all things go well, and people are safe and secure.
The principle of covering the explosion limit of hydrogen-oxygen mixed gases is actually crucial and cannot be ignored. Only those who are clear about it and make good use of it can be used in all kinds of situations, and they can be used with ease to avoid disasters and seek safety.
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