The Harbor process...? i think :) well you can make ammonia using the harbor process.
because ammonia is explosive this could lead to a huge explosion and environmental problems also because ammonia is made in a pressure of 200 atmospheres this would also make sure everyone was covered in boiling hot explosive ammonia for miles around :D again this is a guess but sounds like it could happen :D hah
10l nh3
The death or murder of Chief Sitting Bull was the catalyst that started the Battle of Wounded Knee in 1890. The murder of Wesley Bad Heart Bull in 1973 led to another battle at the Wounded Knee memorial.
Who assassinated the above leader in world war 1
Ammonia = iron catalyst
The catalyst for the production of ammonia through the Haber-Bosch process is typically iron with a promoter like potassium oxide or alumina. This catalyst helps lower the activation energy required for the reaction to convert nitrogen and hydrogen into ammonia.
Ammonia can be oxidized by reacting it with an oxidizing agent, such as chlorine or hydrogen peroxide, in the presence of a catalyst, such as a metal oxide. This reaction can produce nitrogen gas and water as products.
For example the ammonia production; the magnetite catalyst is the most common.
Iron is used as a catalyst in the Haber process, which is the industrial method for producing ammonia from nitrogen and hydrogen gases. The presence of iron catalyst helps to increase the rate of the reaction and improve the yield of ammonia.
Platinum is the catalyst typically used in the Ostwald process, which is a method for producing nitric acid through the oxidation of ammonia. The platinum catalyst plays a critical role in promoting the conversion of ammonia to nitric oxide, an important intermediate in the process.
An iron catalyst is used in the Haber process to synthesize ammonia from nitrogen and hydrogen gases because it speeds up the reaction by providing a surface for the gases to react on. This increases the rate of ammonia production without being consumed in the process, making it an efficient and cost-effective choice.
Iron is one example of a catalyst, used in ammonia synthesis. Nitrogen oxide and platinum are another example, used in sulfuric acid manufacturing.
Catalysts are used in the production of ammonia to speed up the reaction rate and increase the yield of ammonia. The most common catalyst used in this process is iron mixed with a promoter like potassium oxide. The catalyst helps break down the nitrogen and hydrogen molecules, allowing them to combine to form ammonia more efficiently.
The Haber process is used to produce ammonia under conditions of high pressure (150-200 atm) and high temperature (400-500°C) over an iron catalyst. It requires a careful balance of temperature, pressure, and catalyst to optimize ammonia production.
The catalyst used in the production of ammonia through the Haber-Bosch process is typically iron. Sometimes, promoters such as potassium oxide are added to enhance the catalytic activity of iron.
Carbon monoxide (CO) acts as a poison to the catalyst used in the Haber process, typically iron. The presence of CO can deactivate the catalyst, reducing its efficiency in promoting the synthesis of ammonia from nitrogen and hydrogen. Therefore, removal of CO is necessary to ensure optimal performance and yield of ammonia in the Haber process.