CN102703735A - Method for smelting nickel matte by laterite type nickel ore - Google Patents

Abstract

The invention discloses a method for smelting nickel matte by a laterite type nickel ore. The method comprises the following steps: a) the laterite type nickel ore is smelted by a rotary kiln electric furnace or a weld crater to obtain a ferronickel product; and b) the ferronickel product and a vulcanizer are mixed and then smelted in a converter to obtain a nickel matte product and waste residue. According to the method for smelting the nickel matte by the laterite type nickel ore disclosed by the embodiment of the invention, the ferronickel product can be obtained by smelting in the rotary kiln electric furnace or the weld crater, and then the ferronickel product is smelted in the converter to obtain the nickel matte product. The method has high operability, the ferronickel product can be obtained in the intermediate reaction, the laterite smelting work can be carried out in the area lacking electric power, the energy source in the whole production process can be provided by coal, a cogeneration technology can be utilized for heat energy recycling after high temperature smoke is dedusted in the production process, and the effect that the energy consumption in the whole smelting process can be effectively reduced is achieved.

Description

A kind of method of utilizing laterite-type nickel ore melting nickel matte

Technical field

The present invention relates to the Metal smelting technical field, more specifically, the present invention relates to a kind of method of utilizing laterite-type nickel ore melting nickel matte.

Background technology

Characteristics such as that nickel has is anti-oxidant, anticorrosive, high temperature resistant, intensity is high, ductility is good; Its purposes very extensively; Especially the consumption proportion in iron and steel and non-ferrous metal metallurgy industry is maximum; Next is applied in industries such as light industry, machinofacture, chemical industry, oil and electric power, and high-technology field is also very vigorous to the demand of nickel.

The reserves of world's continental rise nickel are about 41,700,000,000 tons, and 39.14% form with sulphide ores exists, and about in the world 70% nickel is from sulphide ores, to extract, and compose to exist the nickel in the ore deposit to account for 60.16% of nickel reserves.But along with the nickel sulfide ore of economic utilization and the exhaustion day by day of higher-grade red soil nickel ore resource, the economic development of a large amount of low-grade red soil nickel ores that exist has become the research focus of current metallurgy of nickel.

Yet the smelting process of present red soil nickel ore and device processes ability are lower, and energy consumption is big, is unfavorable for environmental protection, therefore still remain to be improved.At present, laterite mainly utilizes electric furnace process melting ferronickel product, and the product of production is mainly used in the production stainless steel.Utilize existing rotary kiln-eaf process smelting ferronickel product, relatively harsher to the requirement of factory's location EPS, especially lack the area at electric power, be difficult to carry out the production work of the laterite utilization of resources.

Summary of the invention

The present invention one of is intended to solve the problems of the technologies described above at least to a certain extent or provides a kind of useful commerce to select at least.

For this reason, one object of the present invention is to propose a kind of method of utilizing laterite-type nickel ore melting nickel matte simple, that energy consumption is low and feasibility is strong of implementing.

The method of utilizing laterite-type nickel ore melting nickel matte according to the embodiment of the invention may further comprise the steps:

A) said laterite-type nickel ore is obtained the ferronickel product through rotary kiln electrosmelting or bath smelting; With

B) said ferronickel product is mixed back adding converter with vulcanizing agent and carry out melting, obtain nickel matte product and waste residue.

The method of utilizing laterite-type nickel ore melting nickel matte according to the embodiment of the invention; Can obtain the ferronickel product through rotary kiln electrosmelting or bath smelting, again the ferronickel product carried out the converter melting, can obtain the nickel matte product; This method is workable; And intermediate reaction can obtain the ferronickel product, can carry out laterite smelting work in the area that electric power lacks, and coal can provide the energy of whole process of production; High-temperature flue gas carries out heat energy recycle through cogeneration technology capable of using after taking off dirt in the production process, reaches the effect of the whole smelting process energy consumption of effective reduction.

In addition, the method for utilizing laterite-type nickel ore melting nickel matte according to the above embodiment of the present invention can also have following additional technical characterictic:

According to one embodiment of present invention, obtain said ferronickel product at laterite-type nickel ore described in the step a) through bath smelting, and said step a) comprises:

A-1-1) said laterite-type nickel ore is mixed with first reductive agent, obtain first mixture;

A-1-2) said first mixture is carried out bath smelting, obtain ferronickel product and waste residue, wherein, in said first mixture, contain the said laterite-type nickel ore of 60～80 weight parts and said first reductive agent of 5～20 weight parts.

According to one embodiment of present invention, said bath smelting is top-blown bath melting, side-blowing bath melting or bottom blowing bath smelting.

According to one embodiment of present invention, first slag former that also is added with 5～20 weight parts said step a-1-1) is to obtain said first mixture.

According to one embodiment of present invention, obtain said ferronickel product at laterite-type nickel ore described in the step a) through the rotary kiln electrosmelting, and said step a) comprises:

A-2-1) said laterite-type nickel ore is mixed the back with coal and add the dry kiln drying, obtain extra dry red wine soil type nickel minerals;

A-2-2) said extra dry red wine soil type nickel minerals is mixed and add calcination rotary kiln with second reductive agent and first slag former and carry out roasting, obtain calcining;

A-2-3) said calcining is added electric furnace and smelt, obtain the ferronickel product.

According to one embodiment of present invention, said first reductive agent and said second reductive agent are to be selected from one or more of hard coal, bituminous coal and coke.

According to one embodiment of present invention, said first slag former is to be selected from one or more of Wingdale, lime, rhombspar, yellow soda ash, sodium sulfate, gypsum and calcium sulfate.

According to one embodiment of present invention, said step b) comprises:

B-1) said ferronickel product is mixed with said vulcanizing agent obtain second mixture;

B-2) said second mixture is added converter, and adding second slag former carries out the converter melting in converter, obtains nickel matte product and waste residue.

According to one embodiment of present invention, said vulcanizing agent is to be selected from one or more of sulphur, pyrite, calcium sulfate, sodium sulfate and sal epsom.

According to one embodiment of present invention, in said second mixture, contain the said ferronickel product of 80wt%～95wt%, the said vulcanizing agent of 3wt%～5wt% and said second slag former of 5wt%～10wt%.

According to one embodiment of present invention, the temperature of said converter melting is 1300～1500 ℃.

According to one embodiment of present invention, said nickel matte is Ni _xFe _1-xS, Ni ₃S ₂Mixture with NiFe.

According to one embodiment of present invention, said step b) also comprises:

B-3) said waste residue is carried out recycling and obtain mineral wool and/or manual sandstone.

According to one embodiment of present invention, said second slag former is to be selected from one or more of Wingdale, lime, rhombspar, yellow soda ash and sodium sulfate.

Additional aspect of the present invention and advantage part in the following description provide, and part will become obviously from the following description, or recognize through practice of the present invention.

Description of drawings

Above-mentioned and/or additional aspect of the present invention and advantage obviously with are easily understood becoming the description of embodiment from combining figs, wherein:

Fig. 1 is the schematic flow sheet according to the method for utilizing laterite-type nickel ore melting nickel matte of the embodiment of the invention.

Embodiment

Describe embodiments of the invention below in detail, the example of said embodiment is shown in the drawings.Be exemplary through the embodiment that is described with reference to the drawings below, be intended to be used to explain the present invention, and can not be interpreted as limitation of the present invention.

The flow process of the method for utilizing laterite-type nickel ore melting nickel matte involved in the present invention at first, is described with reference to figure 1.

Particularly, the method for utilizing laterite-type nickel ore melting nickel matte involved in the present invention may further comprise the steps:

A) said laterite-type nickel ore is obtained the ferronickel product through rotary kiln electrosmelting or bath smelting; With

B) said ferronickel product is mixed back adding converter with vulcanizing agent and carry out melting, obtain nickel matte product and waste residue.

Thus, according to the method for utilizing laterite-type nickel ore melting nickel matte of the embodiment of the invention, can obtain the ferronickel product through rotary kiln electrosmelting or bath smelting; Again the ferronickel product is carried out the converter melting; Can obtain the nickel matte product, this method is workable, and intermediate reaction can obtain the ferronickel product; Can carry out laterite smelting work in the area that electric power lacks; And coal can provide the energy of whole process of production, and high-temperature flue gas carries out heat energy recycle through cogeneration technology capable of using after taking off dirt in the production process, reaches the effect of the whole smelting process energy consumption of effective reduction.

About step a), it will be appreciated that said laterite-type nickel ore is smelted the method that obtains the ferronickel product does not have particular restriction, for example can adopt the method for rotary kiln electrosmelting or bath smelting.

When said laterite-type nickel ore obtained the ferronickel product through bath smelting, its concrete operations can comprise:

A-1-1) said laterite-type nickel ore is mixed with first reductive agent, obtain first mixture;

A-1-2) said first mixture is carried out bath smelting, obtain ferronickel product and waste residue, wherein, in said first mixture, contain the said laterite-type nickel ore of 60～80 weight parts and said first reductive agent of 5～20 weight parts.

Said laterite-type nickel ore mixes the method that obtains mixture with first reductive agent does not have particular restriction; Considering possibly exist in the laterite-type nickel ore than juicy to influence normally carrying out of bath smelting, can carry out drying to said laterite-type nickel ore and obtain mixing behind the exsiccant laterite-type nickel ore again.The drying plant of said laterite-type nickel ore does not have particular restriction yet, as long as can play the effect of dry laterite-type nickel ore, preferably, said laterite-type nickel ore carries out drying through dry kiln.

Selection about first reductive agent it will be appreciated that, said first reductive agent has reductibility, and can be used as the fuel use, to reach the temperature of bath smelting through burning.Consider the cost problem, preferably, said first reductive agent can be to be selected from hard coal, bituminous coal and the coke one or more.

The method of said bath smelting does not have particular restriction, can select different melting method according to different melting equipments.Preferably, said melting method can comprise top-blown bath melting, side-blowing bath melting or bottom blowing bath smelting.

Nickel is to exist with complicated silicate form in laterite, like chlorite, villiersite, serpentine class mineral.All kinds of mineral all pass through and decompose to generate simple silicate, and simple silicate is directly with the reductive agent reaction or reacting with reductive agent behind the generation NiO under the slag former effect again.

(1) mechanism of the simple silicate of chlorite class mineral decomposition generation is:

（a）Ni ₃Si ₂O ₅(OH) ₄→Ni ₃Si ₂O ₇+2H ₂O

（b）2Ni ₃Si ₂O ₇→3Ni ₂SiO ₄+SiO ₂

(2) mechanism of the simple silicate of villiersite decomposition generation is:

（a）(Ni,Mg) ₃Si ₄O ₁₀(OH) ₂→3(Ni,Mg)SiO ₃+SiO ₂+H ₂O

（b）2(Ni,Mg)SiO ₃→(Ni,Mg) ₂SiO ₄+SiO ₂

Simple silicate and the direct reduction mechanism of reductive agent are:

(Ni,Mg) ₂SiO ₄+C→Ni+CO ₂+Mg ₂SiO ₄

Ni ₂SiO ₄(Ni, Mg) ₂SiO ₄(staple of participating in reaction in the slag former is the AO of slag former through producing after decomposing, and wherein, said AO is CaO, MgO or Na at slag former ₂O, the decomposition mechanism of AO is seen the reaction of slag former in fusion process) effect down the reaction mechanism of replacement(metathesis)reaction generation NiO be:

(Ni,Mg) ₂SiO ₄+AO→NiO+(A,Mg) ₂SiO ₄

Ni ₂SiO ₄+AO→ASiO ₄+NiO

The NiO that displaces is that The dissolved representes that with [NiO] its reduction mechanism is:

[NiO]+C→Ni+CO ₂

Consider that iron possibly exist with pyrrhosiderite, rhombohedral iron ore, complicated silicate such as multi mineral forms such as serpentine, pyrophyllite in the laterite; Therefore; The iron of different existence state, its reduction mechanism is different, and the principal reaction of reductive agent in reduction process is also inequality.

(1) iron of pyrrhosiderite form existence, its melting and reducing mechanism is:

(a) the pyrrhosiderite high temperature dehydration decomposes

FeOOH→Fe ₂O ₃+H ₂O

(b) melting and reducing

Fe ₂O ₃+C+O ₂→Fe+CO ₂

(2) rhombohedral iron ore melting and reducing mechanism is:

Fe ₂O ₃+C+O ₂→Fe+CO ₂

(3) iron melting and reducing mechanism is in the pyrophyllite:

(a) pyrophyllite pyrolytic decomposition

Fe ₂Si ₄O ₁₀(OH) ₂→Fe ₂O ₃+SiO ₂+H ₂O

(b) melting and reducing

Fe ₂O ₃+C+O ₂→Fe+CO ₂

Thus; Can make the ferronickel product that mixes by Ni, Fe etc.; Wherein, The mass percent of Ni is 10～30% in the said ferronickel product, and the mass percent of Fe is 70～90%, also contains mass percent in the said ferronickel product and be 0.01～0.1% S and mass percent and be 0.1～5% C.

Consider the temperature of reaction of ferronickel product melting, in order to guarantee normally carrying out of melting reaction, preferably, the temperature of reaction of said bath smelting is 1400～1600 ℃.

Because the temperature of reaction of said bath smelting is 1400～1600 ℃, the ferronickel product outflow temperature that reaction obtains under this temperature is about 1300～1500 ℃, and the outflow temperature of waste residue is about 1350～1550 ℃.Consider that the higher waste residue of temperature is discharged the treating processes difficulty and cost is higher, therefore, can before said first mixture carries out bath smelting, mix an amount of first slag former to reduce the waste residue outflow temperature.Preferably, can in said first mixture, sneak into first slag former of 5～20 weight parts.Selection about said first slag former does not have particular restriction, as long as can combine the SiO in the extra dry red wine soil type nickel minerals melt ₂, the fusing point that reduces extra dry red wine soil type nickel minerals gets final product.Preferably, said first slag former is to be selected from Wingdale, lime, rhombspar, yellow soda ash, sodium sulfate, gypsum and the calcium sulfate one or more.

The principal reaction of Wingdale in the bath smelting process is:

CaCO ₃→CaO+CO ₂

CaO+SiO ₂→CaSiO ₃

The principal reaction of rhombspar in the bath smelting process is:

CaMgCO ₃→CaO+MgO+CO ₂

CaO+SiO ₂→CaSiO ₃

MgO+SiO ₂→MgSiO ₃

The principal reaction of yellow soda ash in the bath smelting process is:

Na ₂CO ₃→Na ₂O+CO ₂

Na ₂O+SiO ₂→Na ₂SiO ₃

The principal reaction of sodium sulfate in the bath smelting process is:

Na ₂SO ₄→Na ₂O+SO ₂+O ₂

Na ₂O+SiO ₂→Na ₂SiO ₃

The principal reaction of calcium sulfate in the bath smelting process is:

CaSO ₄→CaO+SO ₂+O ₂

CaO+SiO ₂→CaSiO ₃

Having under the reductive agent situation, the calcium sulfate decomposition mechanism is:

2CaSO ₄+C→2CaO+2SO ₂+CO ₂

After adding first slag former, the outflow temperature of waste residue can be reduced to 1350～1450 ℃, has reduced waste residue and has discharged the difficulty of handling, and has reduced cost.

Its concrete operations can for: laterite-type nickel ore is provided, and dry said laterite-type nickel ore obtains the exsiccant laterite-type nickel ore; The exsiccant laterite-type nickel ore is mixed with said first reductive agent, obtain first mixture.Said first mixture is carried out bath smelting, obtain ferronickel product and waste residue.

When said laterite-type nickel ore obtained the ferronickel product through the rotary kiln electrosmelting, its concrete operations can comprise:

A-2-1) said laterite-type nickel ore is mixed the back with coal and add the dry kiln drying, obtain extra dry red wine soil type nickel minerals;

A-2-2) said extra dry red wine soil type nickel minerals is mixed and add calcination rotary kiln with second reductive agent and first slag former and carry out roasting; Obtain calcining; Wherein said extra dry red wine soil type nickel minerals is 60～80 weight parts, and said second reductive agent is 5～20 weight parts, and said first slag former is 5～20 weight parts;

A-2-3) said calcining is added electric furnace and smelt, obtain the ferronickel product.

Said drying means and equipment do not have particular restriction, can be identical with used method and apparatus in the bath smelting ferronickel product, and the method for use of first slag former and act on identical in the method for use of said first slag former and effect and the bath smelting ferronickel product.Said second reductive agent also has reductibility, and can be used as the fuel use, to reach the temperature of bath smelting through burning.Consider the cost problem, preferably, said second reductive agent can be to be selected from hard coal, bituminous coal and the coke one or more.

The principal reaction of reductive agent in reduction process is:

Fe ₂O ₃+C→Fe ₃O ₄+CO

Fe ₃O ₄+C→FeO+CO

NiO+C→Ni+CO ₂

Thus, the method through the rotary kiln electrosmelting also can obtain the ferronickel product.

About in the step b) ferronickel product being carried out the method that melting obtains the nickel matte product, it will be appreciated that its melting method and equipment do not have particular restriction, for example can adopt the converter melting.Its concrete operations can comprise:

B-1) said ferronickel product is mixed with said vulcanizing agent obtain second mixture;

B-2) said second mixture is added converter, and adding second slag former carries out the converter melting in converter, obtains nickel matte product and waste residue.

Wherein, in said second mixture, contain the said ferronickel product of 80wt%～95wt%, the said vulcanizing agent of 3wt%～5wt%.

Selection about said vulcanizing agent it will be appreciated that, the main effect of said vulcanizing agent be with the ferronickel product in reaction such as NiO, FeO, NiFe and Ni to form the nickel matte product, preferably, said vulcanizing agent can be for being selected from sulphur (S), pyrite (FeS ₂), in calcium sulfate, sodium sulfate and the sal epsom one or more.

When selecting sulphur (S) as vulcanizing agent for use, the principal reaction in the converter fusion process is:

NiO+S→Ni ₃S ₂+SO ₂

FeO+S→FeS+SO ₂

NiFe+S→Ni _xFe _1-xS

Ni+S→Ni ₃S ₂

When selecting pyrite (FeS for use ₂) during as vulcanizing agent, the principal reaction in the converter fusion process is:

FeS ₂→FeS+S ₂

S ₂+NiFe→Ni _xFe _1-xS

S ₂+NiO+FeO→Ni _xFe _1-xS+SO ₂

NiO+FeS→Ni _xFe _1-xS+SO ₂

FeS+NiO+Fe→Ni ₃S ₂+FeO

When selecting for use sodium sulfate, calcium sulfate or sal epsom to make vulcanizing agent, the principal reaction in the converter fusion process is respectively:

Na ₂SO ₄+NiO+SiO ₂+CO→Ni ₃S ₂+Na ₂SiO ₃+CO ₂

CaSO ₄+NiO+SiO ₂+CO→Ni ₃S ₂+CaSiO ₃+CO ₂

MgSO ₄+NiO+SiO ₂+CO→Ni ₃S ₂+MgSiO ₃+CO ₂

Thus, can obtain by Ni _xFe _1-xS, Ni ₃S ₂The nickel matte product that mixes with NiFe.

Consider the temperature of reaction of nickel matte melting, in order to guarantee normally carrying out of melting reaction, preferably, the temperature of reaction of said bath smelting is 1300～1500 ℃.

In order to reduce the converter melting outflow temperature of nickel matte slag afterwards; Second slag former that can in second mixture, add 5wt%～10wt%; Selection about said second slag former does not have particular restriction, for example can be to be selected from one or more of Wingdale, lime, rhombspar, yellow soda ash and sodium sulfate.

The principal reaction of Wingdale in the converter fusion process is:

CaCO ₃→CaO+CO ₂

CaO+SiO ₂→CaSiO ₃

The principal reaction of rhombspar in the converter fusion process is:

CaMgCO ₃→CaO+MgO+CO ₂

CaO+SiO ₂→CaSiO ₃

MgO+SiO ₂→MgSiO ₃

The principal reaction of yellow soda ash in the converter fusion process is:

Na ₂CO ₃→Na ₂O+CO ₂

Na ₂O+SiO ₂→Na ₂SiO ₃

The principal reaction of sodium sulfate in the converter fusion process is:

Na ₂SO ₄→Na ₂O+SO ₂+O ₂

Na ₂O+SiO ₂→Na ₂SiO ₃

After adding second slag former, the outflow temperature of nickel matte slag can be reduced to 1300～1400 ℃, has reduced waste residue and has discharged the difficulty of handling, and has reduced cost.

Consider a large amount of by product of generation in the bath smelting process,, can like waste residue and hot flue gas, carry out recycling by product in order better to play environmental-protection function.Preferably, can be with the processing of gathering dust of said hot flue gas, and the waste heat of said hot flue gas is used for generating; Can also said waste residue be carried out recycling and obtain mineral wool and/or manual sandstone.

Describe according to the method for utilizing laterite-type nickel ore melting nickel matte of the present invention below in conjunction with specific embodiment.

Embodiment 1

Laterite-type nickel ore is provided; The adding dry kiln carries out 700 ℃ of calcining dryings and obtains the exsiccant laterite-type nickel ore; Is the mixed of 16:3:1 with exsiccant laterite-type nickel ore, hard coal and Wingdale with the mass ratio, obtains mixture, and mixture is joined in the top blast smelting furnace; Under 1500 ℃, carry out the top-blown bath melting, obtain ferronickel product and waste residue.

The ferronickel product is added sulphur and Wingdale in entering the converter process, control ferronickel product: sulphur: the mass ratio of Wingdale is 10:1:1, and the converter smelting temperature is 1450 ℃, obtains nickel matte product Ni _xFe _1-xS, Ni ₃S ₂Mixture, waste residue and hot flue gas with NiFe.

With the processing of gathering dust of hot flue gas, and the waste heat of hot flue gas is used for generating.

The outflow temperature of said waste residue is 1400 ℃, waste residue is carried out recycling obtain mineral wool and/or manual sandstone.

Embodiment 2

Laterite-type nickel ore is provided; The adding dry kiln carries out 700 ℃ of calcining dryings and obtains the exsiccant laterite-type nickel ore; Is the mixed of 15:2:3 with exsiccant laterite-type nickel ore, hard coal and Wingdale with the mass ratio, obtains mixture, and mixture is joined in the side-blown smelting furnace; Under 1500 ℃, carry out the side-blowing bath melting, obtain ferronickel product and waste residue.

The ferronickel product is added sulphur and Wingdale in entering the converter process, control ferronickel product: sulphur: the mass ratio of Wingdale is 10:1:1, and the converter smelting temperature is 1500 ℃, obtains nickel matte product Ni _xFe _1-xS, Ni ₃S ₂Mixture, waste residue and hot flue gas with NiFe.

With the processing of gathering dust of hot flue gas, and the waste heat of hot flue gas is used for generating.

The outflow temperature of said waste residue is 1300 ℃, waste residue is carried out recycling obtain mineral wool and/or manual sandstone.

Embodiment 3

Laterite-type nickel ore is provided; The adding dry kiln carries out 700 ℃ of calcining dryings and obtains the exsiccant laterite-type nickel ore; With exsiccant laterite-type nickel ore, hard coal and Wingdale is the mixed of 16:3:1 with the mass ratio; Obtain mixture, mixture is added calcination rotary kiln carry out roasting, obtain calcining; Calcining is added electric furnace smelt, obtain ferronickel product and waste residue.

The ferronickel product is added sulphur and Wingdale in entering the converter process, control ferronickel product: sulphur: the mass ratio of Wingdale is 10:1:1, and the converter smelting temperature is 1500 ℃, obtains nickel matte product Ni _xFe _1-xS, Ni ₃S ₂Mixture, waste residue and hot flue gas with NiFe.

With the processing of gathering dust of hot flue gas, and the waste heat of hot flue gas is used for generating.

The outflow temperature of said waste residue is 1400 ℃, waste residue is carried out recycling obtain mineral wool and/or manual sandstone.

In the description of this specification sheets, the description of reference term " embodiment ", " some embodiment ", " example ", " concrete example " or " some examples " etc. means the concrete characteristic, structure, material or the characteristics that combine this embodiment or example to describe and is contained at least one embodiment of the present invention or the example.In this manual, the schematic statement to above-mentioned term not necessarily refers to identical embodiment or example.And concrete characteristic, structure, material or the characteristics of description can combine with suitable manner in any one or more embodiment or example.

Although illustrated and described embodiments of the invention; Those having ordinary skill in the art will appreciate that: under the situation that does not break away from principle of the present invention and aim, can carry out multiple variation, modification, replacement and modification to these embodiment, scope of the present invention is limited claim and equivalent thereof.

Claims (14)

1. a method of utilizing laterite-type nickel ore melting nickel matte is characterized in that, comprising:

A) said laterite-type nickel ore is obtained the ferronickel product through rotary kiln electrosmelting or bath smelting; With

B) said ferronickel product is mixed back adding converter with vulcanizing agent and carry out melting, obtain nickel matte product and waste residue.

2. the method for utilizing laterite-type nickel ore melting nickel matte according to claim 1 is characterized in that, obtain said ferronickel product at laterite-type nickel ore described in the step a) through bath smelting, and said step a) comprises:

A-1-1) said laterite-type nickel ore is mixed with first reductive agent, obtain first mixture;

A-1-2) said first mixture is carried out bath smelting, obtain ferronickel product and waste residue, wherein, in said first mixture, contain the said laterite-type nickel ore of 60～80 weight parts and said first reductive agent of 5～20 weight parts.

3. the method for utilizing laterite-type nickel ore melting nickel matte according to claim 2 is characterized in that, said bath smelting is top-blown bath melting, side-blowing bath melting or bottom blowing bath smelting.

4. the method for utilizing laterite-type nickel ore melting nickel matte according to claim 2 is characterized in that, said step a-1-1) in also be added with 5～20 weight parts first slag former to obtain said first mixture.

5. the method for utilizing laterite-type nickel ore melting nickel matte according to claim 1 is characterized in that, obtain said ferronickel product at laterite-type nickel ore described in the step a) through the rotary kiln electrosmelting, and said step a) comprises:

A-2-1) said laterite-type nickel ore is mixed the back with coal and add the dry kiln drying, obtain extra dry red wine soil type nickel minerals;

A-2-2) said extra dry red wine soil type nickel minerals is mixed and add calcination rotary kiln with second reductive agent and first slag former and carry out roasting, obtain calcining;

A-2-3) said calcining is added electric furnace and smelt, obtain the ferronickel product.

6. according to claim 2 or the 5 described methods of utilizing laterite-type nickel ore melting nickel matte, it is characterized in that said first reductive agent and said second reductive agent are to be selected from one or more of hard coal, bituminous coal and coke.

7. according to claim 4 or the 5 described methods of utilizing laterite-type nickel ore melting nickel matte, it is characterized in that said first slag former is to be selected from one or more of Wingdale, lime, rhombspar, yellow soda ash, sodium sulfate, gypsum and calcium sulfate.

8. the method for utilizing laterite-type nickel ore melting nickel matte according to claim 1 is characterized in that, said step b) comprises:

B-1) said ferronickel product is mixed with said vulcanizing agent obtain second mixture;

B-2) said second mixture is added converter, and adding second slag former carries out the converter melting in converter, obtains nickel matte product and waste residue.

9. the method for utilizing laterite-type nickel ore melting nickel matte according to claim 8 is characterized in that, said vulcanizing agent is to be selected from one or more of sulphur, pyrite, calcium sulfate, sodium sulfate and sal epsom.

10. the method for utilizing laterite-type nickel ore melting nickel matte according to claim 8; It is characterized in that, in said second mixture, contain the said ferronickel product of 80wt%～95wt%, the said vulcanizing agent of 3wt%～5wt% and said second slag former of 5wt%～10wt%.

11. the method for utilizing laterite-type nickel ore melting nickel matte according to claim 8 is characterized in that, the temperature of said converter melting is 1300～1500 ℃.

12. the method for utilizing laterite-type nickel ore melting nickel matte according to claim 8 is characterized in that, said nickel matte product is Ni _xFe _1-xS, Ni ₃S ₂Mixture with NiFe.

13. the method for utilizing laterite-type nickel ore melting nickel matte according to claim 8 is characterized in that, said step b) also comprises:

B-3) said waste residue is carried out recycling and obtain mineral wool and/or manual sandstone.

14. the method for laterite-type nickel ore smelting ferronickel product according to claim 8 and converter melting nickel matte is characterized in that, said second slag former is to be selected from one or more of Wingdale, lime, rhombspar, yellow soda ash and sodium sulfate.