Why is the use of hydrogen in large quantities causing problems in the ozone layer?

There will be no problem, hydrogen is a new energy to be developed in the 21st century, environmental protection, energy saving and pollution-free, the combustion product is water, does not pollute the environment, will not pollute the atmosphere at all, and the calorific value is high, all the genuine is written like this! In nature, the earth remembers that the teacher said that hydrogen does not exist directly.

In the end, I will understand that such a chemistry book is really misleading people's children, and it is not shallow, and it is still lost early!

If you're not referring to heavy use than burning, then I don't know what else to do.

The answer upstairs seems to have a lot of questions: why doesn't water electrolysis produce oxygen, but only hydrogen? Also, this seems to have little to do with plants, humans, and the atmosphere, so how can you tell so directly that hydrogen is difficult to obtain, and how do you know that? And how do you know whether there is more or less leakage, people can make hydrogen to ensure that it is effective, no one still uses it, the majority of scientists are not as thoughtful as you think?

By: The Lion King is Invincible - Apprentice Magician Level 2 6-10 20:26

Nonsense. The book says that hydrogen is a clean energy source. You take out the original question and take a look.

Summary. No. Oxygen balls are made of argon and helium, both of which are non-toxic and do not destroy the ozone layer.

No. Oxygen balls are made of argon and helium, both of which are non-toxic and do not destroy the ozone layer.

I'm sorry I don't understand, but can you elaborate on that?

The ozone layer cannot be destroyed. The ozone layer is a naturally occurring atmosphere located in the uppermost layer of the Earth's atmosphere, which contains a large number of ozone molecules that can effectively absorb the sun's ultraviolet rays, thus protecting life on Earth from ultraviolet rays. Releasing an oxygen balloon will not destroy the ozone layer, because the oxygen balls are made of gas and paper, they do not produce any harmful substances, and they do not affect the structure of the ozone layer.

The destruction of the ozone layer is mainly due to pollutants produced by human activities, such as chlorofluorocarbons, ammonia, etc., which can destroy the ozone layer, which leads to an increase in ultraviolet rays and endangers human health. In order to protect the ozone layer, we should strengthen the awareness of environmental protection, reduce the emission of pollutants, control industrial pollution, improve the atmospheric environment, protect the ozone layer, and protect our homeland. Personal Tips:

We should strive to protect the ozone layer, reduce pollutant emissions, improve the atmospheric environment, and protect our homeland.

Summary. Kiss <>

We'll be happy to answer your questions<>

Ozone and hydrogen do not react chemically at room temperature. There must be a catalyst to react, hydrogen and ozone will not react when there is no catalyst at room temperature, if there is a catalyst such as platinum, the two can react violently at room temperature, releasing a lot of heat. Ozone is a strong oxidizing agent and is often used to eliminate it; Hydrogen is a reducing agent.

When hydrogen encounters ozone, the following redox reaction occurs: H2+O3=H2O+O2 ozone is reduced to ordinary oxygen. <>

Do ozone and hydrogen react chemically at room temperature? Is there any empirical evidence?

Kiss <>

We'll be happy to answer your questions<>

Ozone and hydrogen do not react chemically at room temperature. Hydrogen and ozone will not react when there is no catalyst at room temperature, and if there is a catalyst such as platinum, the two can react violently at room temperature and release a lot of heat. Ozone is a strong oxidizing agent and is often used to eliminate it; Hydrogen is a reducing agent.

When hydrogen encounters ozone, the following redox reaction occurs: H2+O3=H2O+O2 ozone is reduced to ordinary oxygen. <>

Kiss <>

We'll be happy to answer your questions<>

When hydrogen and ozone have no catalyst at room temperature, they will react without a catalyst, and if there is no catalyst for the bond, such as platinum, the two can react violently at room temperature and release a lot of heat. Ozone is an allotropic form of oxygen, the chemical formula is O3, the formula amount, light blue SE gas, the liquid state is the dark blue SE, and the solid state is violet heiseThe usual elemental form of hydrogen is hydrogen, which is odorless and odorless, and is a highly flammable gas composed of diatomic molecules, and hydrogen is a light gas.

Hydrogen is used in medicine. <>

Please provide evidence! Have you tried it? (Instead of looking for a bunch of answers online!) ）

The empirical answer is that ozone is a strong lifting tent oxidant, which is often used to eliminate it; Hydrogen is a reducing agent. When hydrogen encounters ozone, the following redox reaction occurs: H2+O3=H2O+O2 ozone is reduced to ordinary oxygen.

There have been experiments, but I don't believe you can experiment with it<>

Both are reactive.

Under what conditions does Guan Jian react? Do you need a catalyst as a premise? When there is no catalyst, will there be a reaction?

Is there any evidence?

Hydrogen and ozone will not react when there is no catalyst at room temperature, and if there is a catalyst for the use of the sodium urinator, the two can react violently at room temperature, releasing a large amount of heat. Without a catalyst, there will be no reaction, chuji is needed

A catalyst such as platinum is needed to react violently and release a large amount of heat.

Is there any evidence to support your view?

There is evidence, this has been proven by experiments, if you don't believe in your relatives, you can look up the information and take a look.

There are many substances that destroy the ozone layer, and generally reducing substances may destroy them, because ozone has strong oxidizing properties. Such as sulfur dioxide, nitric oxide, etc. In addition, oxides such as fluorochloroalkane (trade name freon) and nitrogen play a role as a catalyst for the destruction of the ozone layer, which is more destructive.

The main substances responsible for acid rain are nitrogen oxides and sulfur oxides. For example, sulfur dioxide is dissolved in rainwater to form sulfurous acid, which is further oxidized by oxygen to sulfuric acid, and nitrogen dioxide reacts with rainwater to form nitric acid, which is acidic in acid rain.

Theoretically, hydrogen cannot reduce ozone, and this reaction cannot occur under normal conditions.

First of all, the problem is wrong.

Ozone = O3 (3 oxygen atoms).

Hydrogen oxygen = O2 (2 oxygen atoms).

Hydrogen = H water = Ho (1 oxygen atom + 2 hydrogen atoms).

Hydrogen can not be changed to O 3 on a daily basis

But it's not 100% impossible in the lab that's possible.

But scientists don't do that.

The simplest and simplest way to make ozone is too simple to do it.

It is to pull an arc.

Regardless of the arc, ozone O3 can be produced immediately

You don't have to think about it.

Hydrogen reduces ozone.

Or is it a matter of water to reduce ozone.

Ozone, a gas that decomposes easily.

Hopefully, you're not trying to say that making ozone on the surface rises to the ozone layer, which is 1,000 percent and then reverts to monooxygen. That's impossible, 0% probability.

Ozone is a strong oxidizing agent.

It is often used for disinfection;

Hydrogen is a reducing agent.

When hydrogen encounters ozone, the following redox reactions occur.

h2+o3=h2o+o2

Ozone is thus reduced to normal oxygen.

Ozone is a strong oxidizing agent.

It is often used to disinfect the head;

Hydrogen is also the original agent.

When hydrogen meets the number of bonds to ozone, the following redox reaction occurs.

h2+o3=h2o+o2

Ozone is thus reduced to normal oxygen.

The ozone layer is destroyed in the vicinity of chlorine atoms and bromine atoms. These elements are contained in very stable HCFCs (CFC2Cl2, such as Freon, and a very commonly used gasoline additive). These gas molecules rise to the stratosphere and, after being irradiated with ultraviolet light, decompose into various single-element gases, destroying ozone.

There is also nitric oxide, carbon monoxide and ozone react to produce nitrogen dioxide and oxygen, in terms of the degree of destruction, the former is more destructive to ozone, because it is a cyclic reaction.