Process to thermally upgrade metal-containing limonite or saprolite ores via magnetic separation and the use of the magnetic concentrate as seeds

What is claimed is: 1 . A process to thermally upgrade metal-containing ores, comprising the following steps: (1) mixing: (i) ore, (ii) from 4 up to 15% by weight relative to the ore of reducing agent, (iii) sulphur bearing agent, (iv) metallic-bearing seeding agent, and optionally (v) low temperature binder agent to produce a blend; (2) agglomeration and dry, if required, of the blend formed in step 1 to produce agglomerates; (3) calcination the agglomerates formed in step 2 at reducing atmosphere (from a partial pressure of oxygen of Log 10 (pO 2 )=−12 to Log 10 (pO 2 ) =−15) and at temperature between 950-1150° C. to produce a liquid metallic phase that growth and concentrate into metallic particles within the agglomerates; (4) cooling the agglomerates after step 3 to ambient temperature in reducing or inert atmosphere; (5) crushing and grinding the calcine produced in step 4 to a size amenable (p 80 ≦25 μm) for magnetic separation of metallic particles; and (6) magnetic concentration of metallic particles by known techniques of magnetic separation, including but not limited to magnetic separation by wet or dry means, dewatering and drying. 2 . The process of claim 1 , wherein the ores includes nickel laterites of both limonite and saprolite nature. 3 . The process of claim 1 , wherein the metal includes nickel and iron. 4 . The process of claim 1 , wherein the metal-containing ores is nickel containing lateritic ores. 5 . The process of claim 4 , wherein the nickel containing lateritic ores are of the limonitic type or a blend of limonitic/saprolitic ores with low or high iron to silica ratio. 6 . The process of claim 4 , applicable to the co-processing of lateritic ores in conjunction with nickel-bearing sulphides that could contain any kind of impurities that can be removed by any known method. 7 . The process of claim 1 , wherein includes a pretreatment of the ore in order to prepare the ore to adequate the size (below 212 μm) and moisture (10 to 20% by mass), by known means of mineral processing. 8 . The process of claim 7 , wherein this pretreatment might involve, but might not be limited to: crushing, screening, desliming, flotations as part of silica rejection process in order to produce ore blend with Fe/SiO 2 ratios above 2.0 g/g. 9 . The process of claim 1 , wherein the reducing agent is solid carbon or liquid hydrocarbon type. 10 . The process of claim 1 , wherein the sulphur bearing agent is added in amounts from 1 and up to 5 wt % of equivalent contained S relative to the weight of ore. 11 . The process of claim 1 , wherein the sulphur bearing agent is elemental sulphur, nickel-bearing sulphide concentrate, Iron-bearing concentrate, or a blend of sulphides minerals. 12 . The process of claim 1 , wherein the metallic-bearing seeding agent is added in amounts as little as 0.1 wt % and as high as 2 wt % relative to the weight of ore. 13 . The process of claim 1 , wherein the metallic-bearing seeding agent is ferronickel particle, ferronickel concentrate, metallic nickel, nickel powder and metallic iron powder. 14 . The process of claim 1 , wherein the low temperature binder agent is added in amounts from 0 and up to 5 wt.% relative to the mass of ore. 15 . The process of claim 1 , wherein the low temperature binder agent is organic binder and silicate binder. 16 . The process of claim 1 , wherein agglomerates of step (3) are dried or wet. 17 . The process of claim 16 , wherein the dried or wet agglomerates are calcined for at least one hour to a maximum of three hours in contact with reducing atmosphere (equivalent to Log 10 (pO 2 ) of −12 to −15) to a temperature are in the range of 950-1150° C. 18 . A magnetic concentrate, characterized by being produced by the process as defined in claim 1 , which consists of 5 to 15 wt % Ni and with varying Fe/Ni ratios in the range of 1/1 and up to 10/1 by mass with metallic particles ranging in size above 20 μm. 19 . Use of the magnetic concentrate, produced by the process as defined in claim 1 , to produce a ferronickel or highly metalized nickel containing matte for the production of stainless steel.