DE846165C - Process for the extraction of nickel from raw materials containing nickel - Google Patents

Description

Process for the extraction of nickel from raw materials containing nickel Es is known to make nickel sulfide from ores, stones or metals containing nickel among others Contain substances, by fusing with alkali sulphides or alkali sulphates or -bistilfaten and coal to be separated from the accompanying substances that specifically heavy nickel sulfide goes into the soil layer while the contaminants, in particular Copper and liseiisultide, in the lighter top layer, your sulfur sodium, accumulate.

If all or part of the nickel was% oi as metal, one sat Sulfur as such or as plaster of paris, but mostly in the form of bisulfate, too could form nickel sulfide in the melt.

The separated nickel sulfide had to be in a complicated manner in the past many operations roasted, leached, reduced and finally on nickel metal are processed.

It has now been found that there are copper-containing nickel-oxide substances it is not necessary to first separate the nickel sulfide from the accompanying substances and then laborious to process on nickel metal one operation instantly produce nickel metal in the soil layer and of the sodium sulphide which forms the top layer and in which the accompanying substances are included, to be separated.

The new process is based on the fact that the 'amount of bound sulfur in your raw material is regulated in such a way that it is about a quarter of the weight available Copper is. In general, the sulfur content present must be suitable for this purpose Wisely, but it may also be necessary in special cases to change it to increase in order to bring him to the said ratio.

The new process can be carried out in a variety of ways. So you can from the nickel copper ore, which also includes iron, cobalt and / or other metals may contain, melt a rough stone and this z. B. in a converter like this blow that the ratio of copper to sulfur is about 4: i. Should If this ratio has not been achieved, one can retrospectively see an overblown, So sulfur-depleted mat with sulfur, z. B. by fusing with plaster of paris and coal, sulfur or more sulphurous nickel-copper stone, etc. Instead of blowing, the raw material can also be roasted to the point that it is melted down when it is subsequently melted down contains the specified amount of sulfur. Also other ways of working that too lead to the desired goal can be applied. lfan can control the sulfur content also by adding copper, copper-containing alloys or residues bring the required ratio to the copper. It is also not necessary first to melt a stone, rather one can directly from ores or run out of other raw materials and then have to desulfurization with the merger combine with sodium sulphide or alkali and carbon.

The product containing the sulfur in the specified ratio contains metallic nickel in addition to copper sulphate and / or other admixtures. At the Fusing with alkali sulphide or alkali sulphates and carbon it is converted into a nickel metal and a copper sulphate layer separated.

Leave the melt in a ladle, cooling bed, or whatever other form, the nickel metal collects as a bottom layer and a mixture of sodium sulphide, copper sulphide, iron sulphide and / or in the top layer other accompanying substances.

The two layers can be removed by simple mechanical measures Separate easily after cooling, e.g. B. by a blow with your hammer.

If the separation of the copper from the nickel is not enough, so it can be by repeated melting with alkali sulfides or sulfates and Manage coal. The head of the preceding, essentially sodium sulfide in addition to copper sulphate containing melt instead of fresh alkali sulphide resp. Find alkali sulfate and coal use. It is not necessary to separate in cold State, you can also remove the liquid top layer from your rather solidifying Cast off nickel metal or the specifically heavier, still molten metal layer from the lighter sulphide layer, e.g. B. in a forehearth, separate.

The copper-sulphurous cover layers, e.g. B. those with more than 35010 Cu, are expediently blown on raw copper in a converter. The sodium sulphate formed from the sodium sulphide can be drawn off and later reused in the Faithful Melts.

But it is also possible to first remove the sodium sulphide from the top layer to get out by water or steam and then the copper sulphate for yourself to blow away.

Instead of working in the aforementioned manner, it is also possible to the sulfur bound to nickel in the stone or in other raw materials to eliminate, i.e. to bring the total sulfur to the desired ratio, that one the raw material with the required for the desired reduction of the sulfur content - Amount of soda or other alkaline substances and charcoal melt together. This method has the advantage that slagging losses that occur during blowing can be largely avoided, and that arising from nickel sulfide, soda and coal Sodium sulfur in the same melt makes up the greater part of the copper sulfide binds to itself.

If, as an exception, not the required amount of sulfur afterwards has already been tied in a single operation, the bottom is fused again with soda and charcoal. In general, however, it is already in a melt the stone must be sufficiently desulphurized so that it suffices that any remaining Copper sulphate by one or more (depending on the desired degree of purity) melts to be removed with alkali sulphide or alkali sulphate or bisulphate and carbon.

Instead of the stone first by fusing it with soda and charcoal desulfurize, the process can advantageously also be carried out in such a way that initially the rough stone, as is known, with sodium sulphate or sodium sulphate or hisulphate and charcoal melts and only the subsequently produced, enriched in nickel sulphide Soil subjected to further treatment with soda and charcoal.

Finally, if necessary, a soda or alkali sulphide snout can be added follow.

The raw nickel produced is granulated or poured onto blocks and can be used wherever raw nickel is needed. But it can also according to methods known per se, e.g. B. by electrolysis, after (learn carbonyl processes according to the moon or according to the Kamnier'liochdruckverfahren are further refined.

Example i 600 parts by weight of a nickel copper brick containing 4r, h% nickel, 47.3% copper. contains 0.15% iron and 8.0% sulfur, with 21o parts by weight of a nickel-copper stone containing f @. (1% nickel, ,; 3.0°%ol@ttl) t (# 1 "t111 (1 2o.d ° 'o contains sulfur. \ E17' melted. ( ) the product obtained contains .12.3% / 0 Nickel in metallic form and about 9.8 per cent. Iron .43.6 per cent. Copper bound to tr, 9 per cent. Sulfur are. 1) <ts Ktil) fer-Scli \ vefel - \ 'e rli; ilttiis amounts to alst) 3.7: 1. 27o (@e \ virlftstcile (les Schmelzproduktes \ ver (len tnit ioo weightst (@ileii N <itrittiristilfat and (> j3 part read littcllelfif () izk (> illegally versin () lzen. The soil elite ll: ilt 7; .3'1 / o nickel and t 5 ° / o copper. By again Melting elf finite N; ttriunisulfttt and coal rises: fier Nickel content (les 13odens to 5u / 0, and after vain (lritteii Scliiiiviz (# 1) (# tr: i "t ei- already 941! o ttelwil 2.5"! o Copper and 1 ° / o Scll \\ - efel. I> as h () hnickel can electr () lvtiscli without further ado to <(), () "(@iges I11-atil () (1 (° tlllickel brought \ verdell. I ', cispicl2 300Ge \ vichtsteile hurried: Nickel copper stone with 3 (). ( ) U / 0 \ ickel, 3 (), 4 "1 () copper, 1.20 / o F.iset1, 22.5" / o Sulfur becomes finite in terms of parts by weight stilfat and 7o (; e \\ ichtsteilen coke fused. As soon as (1i, IReeltdigu ltg of 1, Zoliletioxy (letit \\ "icklung (read at the end of the l-inserting indicates that the Melt ill poured into an iron crucible ttn.i left to cool. l) it cooled down content 1: 1 (3t itself atts the form fall out slightly and (1111-, 1l ll @ tiniliersclil * "i ;; e separate. 1) e17 07, 3 '/ N o ickel Lind 6.1 ° / o copper-containing Testicles \ vir (1 broken are ground. 12o Ge \ vichtsteile (1a \ "() 1 \\ er (len with 70 (le \\" iclltsteilen Soda and 2; Parts of coke fused. 1-lier- I) Natriunistilfid is formed. (read in the upper annnelt another layer. The relationship between Copper and sheep in the lower layer trtIgt et \ va d: i. After a little cooling down, 9.1% roll- »Cut off nickel finite 2.S °, 0 copper. 13 ei: 1) icl 3 2oo (@e \\ - ichtsteile rille: Nickelktll) fersteines 111i # 36.6 "/ o Nickel, 3 (), + ° / o Kttpfer, 1.2 ° / o 1? Isetl, 22,5u / 0 Sulfur \ ver (letl finit `` 6 parts by weight of soda and 50 parts by weight of coke melted. Man li: ilt ehieii @l () (len v (»1 Si.o" / o nickel. 14.4 "/ o copper tttid 3.5 ( ; o @ c1f \ vefel. 1 1S (@e \ vichtsteile des testes \ verden with 71 genes Weight parts of natritinistilfate 111 (1 30 parts by weight Coke fused. Major nice l) o (leit contains ül) er 021 / o nickel tiltd 3.S1 / () copper. For further cleaning gtlll (; he can still finitely natnisttlfat and 1 \ (Z \ "l'I-" h111 () 1 "/. L'1f \\ - earth. I @ cis1) iel 4. 200GUWI, ht> parts eiileä htlck @ tall <I @ S Illlt 5.5 "/ 0 Nickel, 70 "3"'1) copper and 15.70 / 0 sulfur (' er li: iltnis copper zti sulfur equal to .1.9: i) \ verden Inlt ioo (; e \\ "iclltstelleil Ntltl" Iliill @ tilfat and -l.oGe- \ vichtteilelf I.in (lelflf () lzk () lfle (lurcll @@ escllm () lzen. The melt solidified in a mold becomes 111 111-opf and fashions decomposed. 1) e17 head etitli <ilt y.31110 Copper and o, 911; 9 nickel, the bottom is vain 1_e- Gierting full t.2 per cent copper and 11.5 per cent nickel. Heis1) iel5 200 (@e \ vichtsteile of a nickel copper stone finite 4 <.9 ('"o nickel, 1.iu,' o 1? Iseit, '26, 5 ° / o copper. 23.; u; '() Sulfur \ ver (len finite 50 parts by weight of a back class, the 5th, 3 % / 0 \ ickel, 76.3Q / o copper and (1t 5.7 "/ o Contains sulfur, and (.o large parts of beech charcoal lind 1 16 parts by weight soda Time. 1) e17 not in the form of natritinistiltide. (could be separated as an older layer, gel) tiii (lene Sulfur is related to copper as i: 1_.6. lall received: ilsteinil Bodetl with 73.9 ° / 0 nickel, 21, t "/ 9 Copper and - #, o ° / o sulfur. 1: r 1ä 13t after the I Iocli (lrttckverfaliren to Carl) onyltiiclcell) til \ er in work up in a very short time. The here ver_ containing permanent nickel and copper sulfide Arrears can again after the previous one Process for a nickel-rich melt works \\ - earth. The severed head contains 1% l-itl) fat-stilfiir. N; tti-itinistilti (l find only 1.70 / 0 nickel. Iieisl) iel6 @ 2001 @ e \ viclltsteile of a residue with 5.3 ° -0 Nickel. 76.3 "/ 0 copper and 14.70 / 0 sheep with 70.0 reference to a nickel refractory element () 9.1 "/ 9 nickel, 1, o ° / o copper, 21, 2 ° / o Sc11 \\" efe 1, 120.0 (le \ viclltteileetf ylollelspällell with 70.3% nickel, 28.6 ° / o copper, i; o, o part by weight (natritimstilfate and 6o parts by weight of charcoal in electric Furnace melted through. leas @e \ vichtverh: iltilis from copper to sulfur in the melt re: i 4.05: 1. As soon as the Kolilenoty "dent \ development is finished, the melt with a carbon rod will Stirred for 1/4 hour and then poured into a (iieliforiti ab- calmly. 1) e17 cold iillialt becomes in the head and bottom disintegrate. 1) c17 1394e11 contains 52.6% nickel, .13.8 ° / () Copper and can be based on the carbonyl process Rice nickel reconditioned \\ "earth. 1) e17 head quickly \" lt 19.1 "/ o I"'tl1) fer u11 (1 2.101o \ ickel.

Claims (1)

1) ATL \ T.1 \ SPRÜC11I :: 1. \ -erf: ilir, # lt ztir Ge \\ - iiinttng of \ ickelntetall alloys containing oller s () l, ltes or Nickel stones in non-metallic shape containing rolling stock, ores, stones, Metallurgical products, residues or scrap. characterized. (leave tnan vain nickel- Current raw material in which before or at the latest \\ -: due to the following. Implementation (read G: # \ viclits \ -erlt: ilttiis copper zti sulfur about d: t 1> etr: igt, finite alkali sulphates or alkali sulphates and reducing agents one or more Times continue to merge. -. Method geni: il3 claim i. thereby -e indicates that any combination of nickel copper stone is first fused with alkali sulphides or alkali sulphates nud reducing substances and then with alkaline substances and reducing agents, possibly finally again with alkali sulphides or with alkali sulphates and reducing agents. 3. The method according to claim r, characterized in that any composition of nickel copper brick is first fused with alkaline substances in the presence of reducing agents and then with alkali metal sulfates or with alkali metal sulfates and reducing agents.