SU46575A1 - The method of using the pitch waters obtained by gasification and coking of peat - Google Patents

Description

One of the most significant issues to be resolved in the process of phenol production is the problem of obtaining the latter without the high cost of chemical reagents.

Following the classical method of obtaining phenols by extracting them with caustic soda and decomposing phenols with sulfuric acid, the subsequently developed method of caustic soda regeneration by means of carbon dioxide decomposition and caustification introduced a significant improvement in the process of phenol production. The advantages of this method are not limited to a single reduction in the cost of chemicals, but also, to a large extent, during carbon dioxide decomposition, the difficulties that are inherent in phenolic plants in terms of produced waste water are eliminated.

The research work of the authors found that 1) in the process of phenol isolation in water remains as a solution obtained by decomposition of phenols up to 20% of all phenols and 2) isolation of these phenols is possible only by extraction.

Without disputing the general advantages of the carbon dioxide method for the production of phenols, it is possible to indicate its significant concentration. The workshops should have aggregates for the extraction of carbonic acid.

caustification plants, and the cream, a significant negative feature of the carbon dioxide decomposition method, is the phenol-rich calcium carbonate sludges obtained by this method.

Taking into account the great importance of methods that reduce the cost of chemicals in the process of phenol extraction and the treatment of waste phenolic water, the authors conducted a study and developed a new method for the extraction of phenols, which answers more than any other method to the above tasks.

The method consists in that the phenols after their respective purification are not decomposed by any acids, but are subjected to exchange decomposition with ammonium acetate or other ammonium salt. As a result of decomposition, we get sodium acetate and ammonium phenol, which is extremely easily hydrolyzed, and phenols in the free form is separated from the bulk of the solution by layer.

The decomposition by this method is particularly easily carried out in peat chemical plants, where, as is known, both during gasification and during the coking of peat, large amounts of ammonium acetate are obtained in the form of

water solutions of a particular fortress.

In the case of the presence of pure solutions of ammonium acetate, or if it is necessary to obtain only concentrates of phenols, the pitch waters containing ammonium acetate are used for decomposition as such; in responsible processes, the subsurface water is preliminarily freed from neutral and other contaminants, for example, by the method of their extraction.

After decomposition, the phenol is dissolved in a solution of ammonium acetate and then the separated phenols are separated, the ammonia used in the solution is distilled off upon heating, after which the residues of unreleased phenol are separated.

The final solution is a solution of sodium acetate. If it is necessary to extract the sodium acetate in the form of a completely clear, free from contamination, the solution is either extracted or freed from phenols by purging or chlorination. The sodium carbonate solution is evaporated or decomposed by electrolysis.

Thus, as a result of the described manipulations, the following are obtained from phenols obtained from resin and from podsmol water: 1) phenols, 2) ammonia, and 3) acetic acid or its salts. With

The described method of replacing acid with waste pit waters gives a series of chemically valuable products of great national importance. In this case, we repeatedly use caustic soda, even without regenerating it (the latter is also quite possible) and force the latter to carry out three technical manipulations: 1) extraction of phenols, 2) release of ammonia, 3) neutralization of acetic acid. The method simultaneously resolves one of the most difficult issues — wastewater management, since even with an elementary procedure at gas treatment plants it is quite possible to obtain highly concentrated subsalt waters and the latter can be used to neutralize phenols and produce ammonia and sodium acetate.

Evaporation of sodium acetate completely eliminates any toxic wastewater.

The subject matter of the invention.

The method of using the podsmol waters obtained by gasifying and coking peat, which is different; m that the ammonium acetate concentrates obtained from them are used to decompose the phenols, eventually separating phenols, ammonia and sodium acetate.