Read: 919
Time:14months ago
Source:Transform the World with Simplicity
Triethyl phosphate is an important organic phosphorus compound, which is widely used in the field of chemical production. In the upstream and downstream related products of triethyl phosphate, it mainly involves raw materials, intermediates and products. This article will detail the upstream and downstream related products of triethyl phosphate.
1. Upstream Related Products
1. Ethanol: In the production process of triethyl phosphate, ethanol needs to be used as one of the raw materials. Ethanol reacts with phosphoric acid to form monoethyl phosphate, further reacts with ethanol to obtain diethyl phosphate, and finally reacts with ethanol to obtain triethyl phosphate.
2. Phosphoric acid: Phosphoric acid is another important raw material for the production of triethyl phosphate. Phosphoric acid reacts with ethanol to produce monoethyl phosphate, which further reacts with ethanol to produce diethyl phosphate and triethyl phosphate.
2. Downstream Related Products
1. Flame Retardant: Triethyl phosphate can be used as a flame retardant, so its downstream related products include various flame retardant materials, such as flame retardant plastics, flame retardant rubber, etc.
2. Plasticizer: Triethyl phosphate can also be used as a plasticizer, which can improve the processing performance and flexibility of plastics. Therefore, its downstream associated products also include various plastic products.
3. Solvent: Triethyl phosphate is an excellent solvent that can be used to dissolve many organic and inorganic substances. Therefore, its downstream associated products also include a variety of solvent-based coatings, inks and so on.
3. triethyl phosphate production process
triethyl phosphate production process mainly has two kinds: ethanol method and phosphoric acid method. In the ethanol method, phosphoric acid is reacted with ethanol to generate monoethyl phosphate, then reacted with ethanol to obtain diethyl phosphate, and finally reacted with ethanol to obtain triethyl phosphate. The law of phosphoric acid is that ethanol is added to concentrated phosphoric acid to react to generate monoethyl phosphate, then ethanol is added to generate diethyl phosphate, and finally ethanol is added to generate triethyl phosphate. These two production processes have their own advantages and disadvantages, and can be selected according to specific conditions.
4. the market prospect of triethyl phosphate
With the rapid development of flame retardants, plasticizers and other industries, the market demand for triethyl phosphate is also increasing. At the same time, with the continuous improvement and optimization of the production process, the production cost of triethyl phosphate is also decreasing, further improving its market competitiveness. Therefore, the market prospect of triethyl phosphate is very broad.
In conclusion, triethyl phosphate, as an important organophosphorus compound, has a wide range of applications in the field of chemical production. Its upstream and downstream related products involve flame retardants, plasticizers, solvents and other fields, and the market prospects are very broad.