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Ammonia High After Water Change in Chemical Engineering
The increase of ammonia content in water is due to the fact that the ammonia content is actually high in the operation of water, which is difficult in the chemical industry. Water pollution is a common process in the chemical industry, aiming to make the specific substances in the water reverse, but the ammonia content often rises, which must be the case.
To study the reasons, one is that the water itself has a problem. If the nitrogen-containing compounds in the new water are low, in the environment of the system, a series of degradation can easily lead to increased ammonia generation. If the water contains a certain nitrogen-containing compound, ammonia can be gradually decomposed under specific conditions and catalytic conditions. Second, the reaction may be inappropriate. There are strict requirements for water reaction, resistance and catalytic activity. If the temperature wave exceeds a reasonable value, the balance or offset of the catalytic reaction will cause the ammonia production to fail as expected. For example, the reverse temperature will rise, or some side effects will be accelerated, and the amount of ammonia will increase. Third, the system will be damaged or stored. If the reverse container is rotten, the contents of the released materials will be reversed, or the pipeline will be scaled, causing the material to be blocked. The reverse will be carried out in a sufficient and orderly manner, and the ammonia content will increase.
To solve this problem, multiple pipes will be required. The first heavy water will be controlled, and the composition of the new water will be determined. If the nitrogen content exceeds the limit, it must be treated first. For the second-time refined and reversed parts, according to the principle of inversion and the previous measurement, determination, measurement, etc., the catalytic activity, and the modification or regeneration are determined. In addition, regular repair, inspection of containers and pipelines to ensure their good operation. In this way, it is expected to solve the dilemma of high ammonia content in water and make chemical production heavy.
To study the reasons, one is that the water itself has a problem. If the nitrogen-containing compounds in the new water are low, in the environment of the system, a series of degradation can easily lead to increased ammonia generation. If the water contains a certain nitrogen-containing compound, ammonia can be gradually decomposed under specific conditions and catalytic conditions. Second, the reaction may be inappropriate. There are strict requirements for water reaction, resistance and catalytic activity. If the temperature wave exceeds a reasonable value, the balance or offset of the catalytic reaction will cause the ammonia production to fail as expected. For example, the reverse temperature will rise, or some side effects will be accelerated, and the amount of ammonia will increase. Third, the system will be damaged or stored. If the reverse container is rotten, the contents of the released materials will be reversed, or the pipeline will be scaled, causing the material to be blocked. The reverse will be carried out in a sufficient and orderly manner, and the ammonia content will increase.
To solve this problem, multiple pipes will be required. The first heavy water will be controlled, and the composition of the new water will be determined. If the nitrogen content exceeds the limit, it must be treated first. For the second-time refined and reversed parts, according to the principle of inversion and the previous measurement, determination, measurement, etc., the catalytic activity, and the modification or regeneration are determined. In addition, regular repair, inspection of containers and pipelines to ensure their good operation. In this way, it is expected to solve the dilemma of high ammonia content in water and make chemical production heavy.
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