It is not a vapor. It is a gas normally.
Main end product is chloroamine. It is a toxic vapour
Chloroamine is produced by that. It is a very toxic vapour
Ammonia is a gas. It is pressurized and cooled to liquify
There is one that I know of. Ammonia gas. :)
There are not different "types" of ammonia. Ammonia is a gas and when you buy ammonia usually it is absorbed in water at different strengths. You may see ammonia sold as ".88" liquid for instance. The ammonia is used in conjunction with water and hydrogen in an ammonia cycle refrigeration plant. The ammonia/hydrogen is released into the evaporator (cold side) of the fridge. The ammonia boils off to a gas (boiling point of ammonia, in open atmosphere, is -33 oC -the pressure in system keeps it liquid). The Hydrogen/ammonia gasses leave the evaporator and are separated by absorbing the ammonia in water. The hydrogen rises back to the top of the system and the ammonia solution falls to the bottom. The only thing left to do is separate the ammonia and water by heating it (distillation) so that the cycle can be repeated. The purpose of the hydrogen the system is to control the boiling point (vapour pressure) of the ammonia.
At (-)33.4 deg.C
Main end product is chloroamine. It is a toxic vapour
It is a refrigeration unit based on Vapour Absorption Refrigeration Cycle (typically refrigerants used are Water or Ammonia).
Main end product is chloroamine. It is a toxic vapour
Chloroamine is produced by that. It is a very toxic vapour
Ammonia is a gas. It is pressurized and cooled to liquify
water vapour, ozone, sulphur dioxide, nitrogen dioxide, ammonia, carbon monoxide, water
There is one that I know of. Ammonia gas. :)
There are not different "types" of ammonia. Ammonia is a gas and when you buy ammonia usually it is absorbed in water at different strengths. You may see ammonia sold as ".88" liquid for instance. The ammonia is used in conjunction with water and hydrogen in an ammonia cycle refrigeration plant. The ammonia/hydrogen is released into the evaporator (cold side) of the fridge. The ammonia boils off to a gas (boiling point of ammonia, in open atmosphere, is -33 oC -the pressure in system keeps it liquid). The Hydrogen/ammonia gasses leave the evaporator and are separated by absorbing the ammonia in water. The hydrogen rises back to the top of the system and the ammonia solution falls to the bottom. The only thing left to do is separate the ammonia and water by heating it (distillation) so that the cycle can be repeated. The purpose of the hydrogen the system is to control the boiling point (vapour pressure) of the ammonia.
Ammonia is used for refrigeration in an absorption type plant use for large cold stores. The ammonia is not the refrigerant itself, this is usually water, but as means of absorbing the water vapour and returning it as a liquid to the start of the cycle. Unlike a conventional fridge that uses a compressor to do this. The advantages of ammonia cycle plants are that they have no moving parts and can be built to any size. The motive power for the system can be any source of heat which separates the water and the ammonia at the cycle start.
Neon, ammonia, methane, hydrogen, helium and water vapour are the best lifting gases and are all less denser than air.
Firstly, you did not specify dry carbon dioxide or carbon dioxide with water. So, I have explained both conditions:When ammonia is treated with a mixture of carbon dioxide and water vapour, it combines to form ammonium carbonate (salt).When ammonia(g) and carbon dioxide(g) are heated to 150oC under a pressure of 150 atmospheres, the two gases combine to form urea and water.