CN103757427A - Method for re-leaching waste residue generated through leaching manganese carbonate ore with sulfuric acid - Google Patents

Abstract

The invention discloses a method for re-leaching waste residue generated through leaching manganese carbonate ore with sulfuric acid. The method comprises the steps of grinding the waste residue which is generated through leaching the manganese carbonate ore with sulfuric acid until the particle size is not greater than 180 meshes, then, adding the ground waste residue, high-concentration organic wastewater which does not contain benzene-ring substances, and sulfuric acid into a reaction kettle which is resistant to the corrosion of sulfuric acid, and leaching while stirring.

Description

The leaching method again of the waste residue that sulfuric acid leaching manganese carbonate ore produces

Technical field

The present invention relates to a kind of leaching method again of the waste residue of sulfuric acid leaching manganese carbonate ore generation.

Background technology

Manganese carbonate ore is the important source material of producing the materials such as manganese metal, manganous sulfate, Manganse Dioxide, manganous nitrate.Wet processing is the main technique of producing above-mentioned materials, leaches the operation operation that is absolutely necessary in this technique.In producing the wet processing of manganese metal, manganous sulfate, Manganse Dioxide, substantially adopt sulfuric acid leaching system.Owing to containing certain MnO in manganese carbonate ore ₂, MnO ₂be insoluble to sulfuric acid, cause while adopting sulfuric acid leaching manganese carbonate ore, the leaching yield of metal target manganese is not high, causes the wasting of resources.Sulfuric acid leaching manganese carbonate ore produces at present waste residue generation and volume of cargo in storage are all very large, and waste residue, containing manganese approximately 6%, has recovery value again.Adopt wet processing can rely on existing technique, the facilities and equipment of the enterprise that produces this class waste residue to its recycling, than being easier to, implement, leaching operation is the requisite operation of wet processing, develops thus that leaching yield is high, leaching velocity is fast, energy consumption is low, can have larger practical value with the leaching method again that produces the waste residue that the existing technique of the enterprise of this class waste residue, sulfuric acid leaching manganese carbonate ore that facilities and equipment match produces.

Summary of the invention

The recycling problem of the waste residue producing for current sulfuric acid leaching manganese carbonate ore, the object of the invention is to find that a kind of leaching yield is high, leaching velocity is fast, energy consumption is low, can with the leaching method again that produces the waste residue that the existing technique of the enterprise of this class waste residue, sulfuric acid leaching manganese carbonate ore that facilities and equipment match produces, it is characterized in that the waste residue that sulfuric acid leaching manganese carbonate ore is produced be milled down to particle diameter≤180 order after and containing in the high concentrated organic wastewater of benzene ring substance and reactor that sulfuric acid adds sulfuric acid corrosion resistant, carry out agitation leach.After leaching finishes, the slurry of emitting in reactor carries out solid-liquid separation, obtains required infusion solution.The infusion solution obtaining is for preparing the solution that leaches manganese carbonate ore.For the sulfuric acid starting point concentration that leaches, be 0.5mol/L～1mol/L, for the COD of the high concentrated organic wastewater that leaches _crconcentration>=10000mg/L.The add-on of sulfuric acid is by 103%～110% of the theoretical amount that in waste residue, all manganese leaches.The add-on of high concentrated organic wastewater is with per kilogram MnO in waste residue ₂add COD _cr0.20 kilogram～0.25 kilogram calculating adds.The temperature of whole leaching process is 80 ℃～95 ℃, and stirring velocity is 50 r/min～130 r/min.Extraction time is 2h～4h.Leached mud washes with water, and washing water are used for preparing sulphuric acid soln and leach for waste residue.Waste residue after washing send slag field to deposit.

The object of the present invention is achieved like this: in waste residue, can leach element is mainly manganese and iron, is substantially respectively MnO ₂, Mn (OH) ₂and Fe ₂o ₃state.Under the condition existing at high concentrated organic wastewater, in sulfuric acid leaching waste residue, the redox reaction of manganese can represent with general formula below:

(C-H _xO _y) _m?+?2mMnO ₂?+?2mH ⁺?=?2mMn ²⁺?+?mCO ₂?+?zH ₂O

Similar Fe ₂o ₃the total reaction of leaching is:

(C-H _xO _y) _m?+?2mFe ₂O ₃?+?4mH ⁺?=?4mFe ²⁺?+?mCO ₂?+?qH ₂O

In addition Mn (OH) ₂there is following chemical reaction:

Mn(OH) ₂?+?H ₂SO ₄?=?MnSO ₄?+?H ₂O

Containing the organism in the high concentrated organic wastewater of benzene ring substance, do not there is stronger reducing power, and be dissolved state, be easy to waste residue in MnO ₂contact reacts, and realizes leaching more completely of manganese.As long as control the add-on of sulfuric acid and high concentrated organic wastewater well, just can reduce the amount that Fe enters leach liquor.Yet sulfuric acid and high concentrated organic wastewater add-on very little, will affect the leaching yield of leaching velocity and Mn, so in order to guarantee the leaching yield of Mn, it is inevitable that Fe leaches.Enter the Fe of leach liquor ²⁺to follow-up deironing (generally adopting neutralization precipitation method), can have a negative impact.Because the manganese content in waste residue is lower, the Mn of leach liquor ²⁺concentration is on the low side, and the existing purification of leaching liquor system of the direct Entry Firm of leach liquor also exists process matching problem.The leach liquor that present method is obtained leaches the required sulphuric acid soln of manganese carbonate ore for preparing, and can, according to the needs of the existing technique of enterprise, adjust flexibly the Mn of manganese carbonate ore leach liquor ²⁺concentration, realizes the matched well with existing technique.What is more important, contains some amount Fe in the leach liquor that the present invention obtains ²⁺and organism, enter after manganese carbonate ore leaching system, there is following chemical reaction:

2FeSO ₄?+?MnO ₂?+?2H ₂SO ₄?=?Fe ₂(SO ₄) ₃?+?MnSO ₄?+?2H ₂O

(C-H _xO _y) _m?+?2mMnO ₂?+?2mH ⁺?=?2mMn ²⁺?+?mCO ₂?+?zH ₂O

By above-mentioned reaction during by original sulfuric acid leaching manganese carbonate ore, the MnO that can not leach ₂leach more completely, no longer produce new high Mn content waste residue.Meanwhile, Fe ²⁺be oxidized to Fe ³⁺, be conducive to follow-up purification of leaching liquor process, be equipped with completely with existing technique.

Outstanding advantages of the present invention is: through above-mentioned series reaction, the Mn in the waste residue that final sulfuric acid leaching manganese carbonate ore produces leaches substantially completely, reduces the wasting of resources, also to subsequent solution, does not purify and brings difficulty; Leach the leaching system that returns to manganese carbonate ore night, can improve the leaching yield of manganese in manganese carbonate ore, avoid producing new high manganese waste slag.

specific implementation method

embodiment 1: the waste residue that 2000g sulfuric acid leaching manganese carbonate ore is produced (containing manganese 6.2%, iron 15.1%, particle diameter 180 orders) and 3.9L fermentation drug manufacture waste water are (containing COD _cr10000mg/L) adding volume with the sulfuric acid concentration of the sulfuric acid preparation solution 4.7L that is 0.5mol/L is in the stainless steel cauldron of 5L, stirs (stirring velocity 70r/min) and leach 4h at 80 ℃～85 ℃.According to the assay result of the leached mud after cleaning, the leaching yield of manganese is 97.2%.

Embodiment 2: the waste residue that 20kg sulfuric acid leaching manganese carbonate ore is produced (containing manganese 6.2%, iron 15.1%, particle diameter 180 orders) and 9.8L brewing wastewater are (containing COD _cr50000mg/L) with the sulfuric acid concentration of sulfuric acid preparation be 0.7mol/L solution 35L to add volume be in the stainless steel cauldron of 50L, at 90 ℃～95 ℃, stir (stirring velocity 70r/min) and leach 2h.After finishing, leaching carries out the washing of liquid-solid separation and leached mud.According to the assay result of the leached mud after cleaning, the leaching yield of manganese is 99.0%.

Claims (1)

1. a kind of leaching method again of the waste residue that a manganese carbonate ore produces, it is characterized in that the waste residue that sulfuric acid leaching manganese carbonate ore is produced be milled down to particle diameter≤180 order after and containing in the high concentrated organic wastewater of benzene ring substance and reactor that sulfuric acid adds sulfuric acid corrosion resistant, carry out agitation leach, after leaching finishes, the slurry of emitting in reactor carries out solid-liquid separation, obtain required infusion solution, the infusion solution obtaining is for preparing the solution that leaches manganese carbonate ore, the sulfuric acid starting point concentration that is used for leaching is 0.5mol/L～1mol/L, COD for the high concentrated organic wastewater that leaches _crconcentration>=10000mg/L, the add-on of sulfuric acid is that the add-on of high concentrated organic wastewater is with per kilogram MnO in waste residue by 103%～110% of the theoretical amount that in waste residue, all manganese leaches ₂add COD _cr0.20 kilogram～0.25 kilogram calculating adds, and the temperature of whole leaching process is 80 ℃～95 ℃, and stirring velocity is 50 r/min～130 r/min, and extraction time is 2h～4h, and leached mud washes with water, and washing water are used for preparing sulphuric acid soln and leach for waste residue.