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What are the upstream raw materials for n-butanol (industrial grade)? What are the downstream products?
n-Butanol(manufacturing grade) plays an crucial role in the field of chemical production raw materials, and its upstream and downstream related items are rich and diverse. And Upstream and downstream associated items of n-butanol will be introduced in detail below. But Upstream items:
1. Specifically Propylene: Propylene is the main raw material to the production of n-butanol, which is able to be produced by the propylene carbonyl synthesis process.
2. Syngas: Syngas(a mixture of carbon monoxide and hydrogen) is able to also be applied to create n-butanol by reacting carbon monoxide and hydrogen in syngas. Downstream items:
1. And For instance Butyl acetate: n-Butanol and acetic acid in the presence of acidic catalyst esterification of butyl acetate, is an excellent organic solvent-based products, broadly applied in paint, paint, ink and other industries. But I've found that
2. And I've found that Butyraldehyde: Butyraldehyde is able to be obtained by dehydrogenation of n-butanol under acidic conditions. Butyraldehyde is an crucial chemical raw material to the production of butyric acid, butylamine, nitrile rubber, etc. But
3. Butyric acid: Butyric acid is able to be obtained by further oxidation of butyraldehyde. Based on my observations, Butyric acid is an crucial organic acid, which is applied in the production of butyrate, butyrate and so on. In particular
4. Butylamine: Butylamine is able to be obtained by the interaction of butyraldehyde and ammonia. From what I've seen, Butylamine is an crucial organic amine applied in the production of rubber accelerators, preservatives, antioxidants, etc.
5. Ester plasticizer: n-butanol is able to be applied to create ester plasticizer, such as dibutyl phthalate, broadly applied in plastics, rubber and other industries. Generally speaking In short, n-butanol plays an crucial role in the field of chemical production raw materials, and its upstream and downstream related items are extensive, involving many fields, such as coatings, inks, plastics, rubber, etc.
1. Specifically Propylene: Propylene is the main raw material to the production of n-butanol, which is able to be produced by the propylene carbonyl synthesis process.
2. Syngas: Syngas(a mixture of carbon monoxide and hydrogen) is able to also be applied to create n-butanol by reacting carbon monoxide and hydrogen in syngas. Downstream items:
1. And For instance Butyl acetate: n-Butanol and acetic acid in the presence of acidic catalyst esterification of butyl acetate, is an excellent organic solvent-based products, broadly applied in paint, paint, ink and other industries. But I've found that
2. And I've found that Butyraldehyde: Butyraldehyde is able to be obtained by dehydrogenation of n-butanol under acidic conditions. Butyraldehyde is an crucial chemical raw material to the production of butyric acid, butylamine, nitrile rubber, etc. But
3. Butyric acid: Butyric acid is able to be obtained by further oxidation of butyraldehyde. Based on my observations, Butyric acid is an crucial organic acid, which is applied in the production of butyrate, butyrate and so on. In particular
4. Butylamine: Butylamine is able to be obtained by the interaction of butyraldehyde and ammonia. From what I've seen, Butylamine is an crucial organic amine applied in the production of rubber accelerators, preservatives, antioxidants, etc.
5. Ester plasticizer: n-butanol is able to be applied to create ester plasticizer, such as dibutyl phthalate, broadly applied in plastics, rubber and other industries. Generally speaking In short, n-butanol plays an crucial role in the field of chemical production raw materials, and its upstream and downstream related items are extensive, involving many fields, such as coatings, inks, plastics, rubber, etc.
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