vanadium pentaoxide
The catalyst used for making sulphuric acid is vanadium pentoxide (V2O5). It helps to speed up the reaction between sulfur dioxide and oxygen to form sulfur trioxide, which is a crucial step in the production of sulphuric acid.
Sulphuric acid can act as a catalyst in some organic reactions. It is often used in esterification reactions to help drive the reaction forward by protonating the reacting species and increasing their reactivity.
Vanadium pentoxide (V2O5) is a commonly used catalyst in the manufacture of sulfuric acid via the Contact Process. It helps to speed up the reaction between sulfur dioxide and oxygen to produce sulfur trioxide, which is then dissolved in water to form sulfuric acid.
Sulfuric acid is a strong mineral acid that is highly corrosive and has many industrial applications. It is used in the production of fertilizers, dyes, explosives, and in the refining of petroleum. It is also commonly used in car batteries and in cleaning and pickling metal surfaces.
Sulfuric acid is used in the preparation of methyl salicylate as a catalyst to promote the esterification reaction between salicylic acid and methanol. It helps to increase the reaction rate and yield of the desired product. Additionally, sulfuric acid aids in the removal of water formed during the reaction to shift the equilibrium towards the formation of methyl salicylate.
The catalyst used for making sulphuric acid is vanadium pentoxide (V2O5). It helps to speed up the reaction between sulfur dioxide and oxygen to form sulfur trioxide, which is a crucial step in the production of sulphuric acid.
sulphuric acid
Sulphuric acid can act as a catalyst in some organic reactions. It is often used in esterification reactions to help drive the reaction forward by protonating the reacting species and increasing their reactivity.
Vanadium pentoxide (V2O5) is a commonly used catalyst in the manufacture of sulfuric acid via the Contact Process. It helps to speed up the reaction between sulfur dioxide and oxygen to produce sulfur trioxide, which is then dissolved in water to form sulfuric acid.
because sulphuric acid stops reaction
chlorene
Yes. ^ Well to improve on this, in simple terms. A catalyst is something that brings on the reaction, in this case the liquid catalyst can only contain a little amount of water otherwise side reactions will occur and this would impact (reduce) the yield of aspirin - not good, sulfuric acid is usually used because it is 98% pure, phosphoric acid can also be used but it is only about 85% pure, still OK. HCL in its most concentrated form is only 37% pure and there fore no good at all. In a shorter to the point answer, H2SO4 is a pure catalyst which will give you a close to accurate yield of aspirin.
No, sulphuric acid is used.
Sulfuric acid is a strong mineral acid that is highly corrosive and has many industrial applications. It is used in the production of fertilizers, dyes, explosives, and in the refining of petroleum. It is also commonly used in car batteries and in cleaning and pickling metal surfaces.
Sulfuric acid is used in the preparation of methyl salicylate as a catalyst to promote the esterification reaction between salicylic acid and methanol. It helps to increase the reaction rate and yield of the desired product. Additionally, sulfuric acid aids in the removal of water formed during the reaction to shift the equilibrium towards the formation of methyl salicylate.
There are many chemical processes that use sulfuric acid catalysts - refining petroleum is a big one. Most processes that use it, use very concentrated acid because they want the reaction to go quickly.
There are many chemical processes that use sulfuric acid catalysts - refining petroleum is a big one. Most processes that use it, use very concentrated acid because they want the reaction to go quickly.