Nitration manufacture summary

Many aminonaphthalenesulfonic acids are important in the manufacture of azo dyes (qv) or are used to make intermediates for azo acid dyes, direct, and fiber-reactive dyes (see Dyes, reactive). Usually, the aminonaphthalenesulfonic acids are made by either the sulfonation of naphthalenamines, the nitration—reduction of naphthalenesulfonic acids, the Bucherer-type amination of naphtholsulfonic acids, or the desulfonation of an aminonaphthalenedi-or ttisulfonic acid. Most of these processes produce by-products or mixtures which often are separated in subsequent purification steps. A summary of commercially important aminonaphthalenesulfonic acids is given in Table 4. 

In summary, methanol as a mobile-phase modifier has a significant effect on the separation of PVP in aqueous SEC with these four linear columns. The best separation of all PVP grades can be achieved with the SB-806M column in 50 50 water/methanol with 0.1 M lithium nitrate. It is interesting to note that despite the improvements reported by the manufacturers for the newer columns (SB-806MHQ and PWxl), the newer columns do not necessarily perform better than the older columns (SB-806 and PW) for aqueous SEC of PVP. 

Summary TNTC is prepared by treating NIHT.HC1 with nitromethane and ammonium nitrate in the presence of trifluoroacetic anhydride. After the reaction, the TNTC is contaminated with a by-product and hence needs to be purified. To do this, the contaminated TNTC is treated with ethyl acetate, and reciystallized. Commercial Industrial note For related, or similar information, see Application No. 471,906, January 29, 1990, by Gencorp Aerojet, to Der-Shing Hunag, Folsom, CA. Part or parts of this laboratory process may be protected by international, and/or commercial/industrial processes. Before using this process to legally manufacture the mentioned explosive, with intent to sell, consult any protected commercial or industrial processes related to, similar to, or additional to, the process discussed in this procedure. This process may be used to legally prepare the mentioned explosive for laboratory, educational, or research purposes. 

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