UA20411U - Method for utilization of ferric sulfate - Google Patents

Abstract

A method for utilization of ferric sulfate comprises neutralization thereof with subsequent obtaining ferric oxides. Before neutralization ferric sulfate is dissolved in water with forming aqueous solution of iron vitriol. Thereafter the obtained solution is supplied to the agglomeration charge.

Description

Description of the invention

The useful model refers to the field of metallurgy and can be used in agglomeration production for 2 disposal of iron sulfate.

When steel sheets are etched, iron sulfate is formed.

At this time, in the vast majority of cases, pickling production waste, which also includes iron sulfate, is dehydrated and transported for long-term storage in sludge accumulators, where ecologically hazardous production waste is stored. 70 This leads to the fact that the issues of utilization of iron sulfate are very relevant nowadays.

The closest technical solution to the proposed method is the method of utilization of iron sulfate | see

Bilenky E.F. etc. Chemistry and technology of pigments. Leningrad: State Institute of Chemical Literature -1960.), which includes its neutralization with the subsequent production of iron oxides.

This iron sulfate processing technology is based on mixing iron sulfate with chalk and their subsequent calcination. As a result of chemical reactions, a mixture of iron oxides, gypsum and carbon dioxide is formed.

The main disadvantage of this method of utilization of iron sulfate is the need to pre-mix iron sulfate with chalk and then heat them for the reaction.

The basis of the useful model is the task aimed at eliminating the costs of storing 20 environmentally hazardous production wastes (ferrous sulfate) by means of their disposal.

The problem is solved by the fact that in the method of utilization of iron sulfate, which includes its neutralization with the subsequent production of iron oxides, according to a useful model, before neutralization, iron sulfate is dissolved in water to form an aqueous solution of iron sulfate, after which the resulting solution is fed to the sintering charge, where a neutralization reaction occurs during the interaction of the obtained solution of iron sulfate with calcium oxides present in the charge, with subsequent production of iron oxides and calcium sulfite. what

In addition, the neutralization reaction can be carried out separately, and the resulting pulp can be fed to the sintering charge.

Thus, a new set of restrictive and distinguishing features ensures the achievement of a new technical result - the disposal of environmentally hazardous production waste (iron sulfate) ensures the exclusion of 30 costs for their preservation. "-

Below, a useful model is explained using an example of its implementation.

The claimed method is carried out as follows. in

For the processing of ferrous sulfate obtained per day (about 52 tons) and with the productivity of the sinter plant (Ha") of about 4,000 tons, it will be necessary to introduce 1.3 kg of ferrous sulfate per ton of agglomerate. Preliminarily, iron sulfate 35 is dissolved in water to obtain a 1095 solution of iron sulfate (solubility RezOukh7NIiO - ZZOGg/l). with

The obtained solution of such a concentration does not crystallize, accordingly, clogging of the pipeline and pump with salts is excluded.

The obtained solution will be used to moisten the charge for sinter factories in the amount of about 1 zl per 1 ton of agglomerate. Accordingly, the amount of water used to moisten the sho 70 charge is reduced by the same amount. The iron sulfate solution has a weakly acidic reaction (pH-Zch4) and when it is injected into a charge containing about 220 kg of lime (per 1 ton of agglomerate), a neutralization reaction occurs with the formation of Be(OH)" and Sabo, according to 1" of the following formula

ЕРе5О, «СабНьЬs. »ge(OH)»nSazo,.

At the same time, 0.2-0.3 kg of lime from the 220 kg present in the sintering charge will be used to neutralize 1.3 kg of iron sulfate.

In the process of agglomeration, iron in the form of oxides and sulfur in the form of calcium sulfite Sab5 remain in (c) agglomerate, that is, the following reactions occur: their 4he(OH) 2505-52Be»О34НоО,

Sabzo)3cS. "SaznСО"-2СО. - This circumstance leads to an increase in sulfur in the agglomerate by 0.01595, but during blast furnace sulfur

Kc turns into slag.

Thus, using this method, it is possible to process all the ferrous sulfate that is formed (which is about 19,000Ot/year), which will allow to obtain an additional 4,000 tons of iron and eliminate the costs of disposal of environmentally hazardous production waste.

Claims (1)

- The formula of the invention in 1. The method of utilization of ferrous sulfate, which includes its neutralization with subsequent production of iron oxides, which differs in that before neutralization, ferrous sulfate is dissolved in water to form an aqueous solution of iron sulfate, after which the resulting solution is fed to the sintering charge, where a neutralization reaction occurs when the obtained solution of iron sulfate interacts with calcium oxides present in the sintering charge, with subsequent production of iron oxides and calcium sulfite. 65 2. The method according to claim 1, which differs in that the neutralization reaction is carried out separately, and the resulting pulp is fed to the sintering charge. Official bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2007, M 1, 15.01.2007. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. - "- "- " "c) c With c i" name) ("c) sh" - 50 - p. 60 b5