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Search Minerals Produces High Purity Mixed Rare Earth Oxide Product From the Pilot Plant Operation

06.03.2017  |  Marketwire

VANCOUVER, BRITISH COLUMBIA--(Marketwired - Mar 6, 2017) - Search Minerals Inc. (TSX VENTURE:SMY) ("Search" or the "Company") is pleased to announce the initial results from its pilot plant operation at SGS Laboratories in Lakefield, Ontario. The pilot plant project has been completed with some further results to be subsequently released.

After processing over 3.0 tonnes of material representative of the Foxtrot Deposit, the pilot plant testing has clearly demonstrated the ability to produce a high purity mixed rare earth oxide (REO) concentrate. In addition, the pilot plant testing has successfully demonstrated the ability to bring uranium, thorium, zinc, and iron levels below those thresholds expected by refineries that separate mixed REO concentrates into individual rare earth elements (REEs).

Pilot Plant Highlights:

  • Processed over 3.0 tonnes of crushed material from the Foxtrot Deposit using the patented Search Minerals Direct Extraction Process.
  • Achieved excellent metallurgical results including:
    • Average extractions of 85% neodymium (Nd), 86% praseodymium (Pr), 68% dysprosium (Dy) by acid treatment/water leaching.
    • Average Losses of 2% Nd, 2% Pr and 0.3% Dy through iron removal.
    • Separation of uranium from the rare earths by ion exchange to below detection limits in solution.
    • Precipitation of +99.9% of the rare earth elements as a mixed carbonate product containing ~35% total rare earth content. (Average of 5.3% Nd, 1.48% Pr, 0.58% Dy).
    • Demonstration of the re-leaching and purification of the mixed carbonate product to produce REO material for refining with low Th (8.6 g/t), U (<0.5 g/t) and Zn (64 g/t).
    • The refining of the mixed rare earth carbonate product was performed in a sulfuric acid medium with careful control of thorium (precipitation with magnesium carbonate) and zinc (precipitation with hydrogen sulfide).
    • The final product was formed by oxalic acid precipitation and calcination.
  • Generated engineering data for all parts of the circuit from sample preparation to production of the mixed rare earth oxide.
  • Produced environmental samples (leach residues, precipitates, and barren solutions) for characterization.

Greg Andrews, President and Chief Executive Officer of Search, states, "The results from the pilot plant testing conducted at SGS Laboratories in Lakefield, Ontario under the supervision of Search Vice-President of Metallurgy, Dr. David Dreisinger have exceeded expectations. The results help support a conclusion that our proprietary 'Direct Extraction' metallurgical process can produce a high purity mixed rare earth oxide. Furthermore, based on close attention to market forecasts, the process has been optimized to significantly increase recoveries for our key revenue elements, neodymium (Nd) and praseodymium (Pr)."

"We cannot overstate the importance of this achievement," noted Jim Clucas, Executive Chairman of Search. "Getting the metallurgy provides greater confidence and is a major milestone in the advancement of any REE project. It not only takes significant financial resources but significant management attention. On behalf of the Board and Management of Search Minerals I would like to thank the NunatuKavut Community Council and all our shareholders for their ongoing support over the last two years. As well, we'd like to thank the Atlantic Canada Opportunities Agency ("ACOA") and the Research & Development Corporation of Newfoundland and Labrador ("RDC") for their contribution of $1.25M towards this $ 1.9M pilot plant project," Clucas added.

Further Description of Process and Results

The Search Minerals Direct Extraction Process was tested on a sample of Foxtrot mineralization at SGS Minerals Lakefield Site. A representative bulk sample of Foxtrot mineralization was prepared under the supervision of Dr. Randy Miller of Search Minerals for the testing. The material was crushed to -10 mesh particle size prior to chemical treatment.

The testing process included: (1) extensive bench scale testing of the new sample and optimization of the chemical conditions for rare earth element recovery from the Foxtrot material, (2) a 5-day commissioning campaign in December 2016 to ensure smooth pilot operation, (3) a 10-day production campaign in January 2017 from crushed sample to mixed rare earth carbonate and (4) a 4-day refinery campaign to process mixed rare earth carbonate precipitate to mixed rare earth oxide.

Primary Leach Circuit

The first part of the pilot plant (to production of mixed rare earth carbonate) included these steps:

  1. Acid/sample mixing in a "PUG" mill.
  2. Acid/sample heating in the METSO HOLOFLITE system.
  3. Holding acid/sample mixture at temperature in a holding furnace (equivalent to the insulated discharge hopper in the plant).
  4. Water leaching of the acid/sample mixture to dissolve rare earth elements.
  5. Iron removal (along with aluminum and thorium) by pH adjustment with magnesium carbonate addition.
  6. Filtration and washing to recover a leach/purification residue and a clean solution carrying rare earth elements.
  7. Removal of uranium by ion exchange.
  8. Precipitation of rare earth elements as a mixed carbonate by addition of sodium carbonate.
  9. Thickening and filtration/washing of the mixed rare earth carbonate. The mixed rare earth carbonate is held as a wet filter cake ready for the re-leach circuit of the pilot plant, which was operated as a separate campaign.

The key results of the Primary Leach Circuit of the pilot plant were as follows:

1. Acid bake and water leach extractions with approximately 140 kg of sulfuric acid addition per tonne of ore.

The acid baking and water leach extractions were reported for the period January 21, 2017 to January 27, 2017 as follows. The average extractions of the critical elements were 85% for Nd, 86% for Pr and 68% for Dy with several operating periods exceeding 70% Dy.

Extraction (%)
La Ce Pr Nd Sm Eu Gd Tb Dy Ho Y Er Tm Yb Lu Sc Th U
January 21 AM 88 87 87 87 83 77 78 75 73 70 71 67 65 59 55 13 71 55
January 21 PM 89 89 90 89 85 81 80 74 72 70 71 67 65 60 55 15 70 56
January 22 AM 87 87 87 86 83 83 78 73 70 68 69 64 61 58 54 14 64 51
January 22 PM 83 84 94 83 80 80 75 71 70 67 68 65 63 58 53 15 70 51
January 23 AM 84 84 94 84 80 79 74 72 69 67 68 65 63 60 56 17 76 51
January 23 PM 82 83 92 82 81 81 75 70 66 68 65 61 63 57 62 20 77 52
January 24 AM 84 86 95 84 80 79 73 70 65 68 67 59 61 55 51 NA 77 49
January 24 PM 87 88 97 87 83 72 75 73 70 65 67 65 63 56 47 19 82 53
January 25 AM 85 85 85 84 81 80 73 68 63 65 66 63 61 53 41 14 79 47
January 25 PM 87 87 87 86 82 77 75 69 65 62 67 62 60 55 46 13 76 53
January 26 AM 87 87 86 85 80 78 75 71 67 63 68 64 62 59 46 11 77 52
January 26 PM 85 85 85 84 80 74 75 71 68 66 68 64 62 58 51 15 77 49
January 27 AM 87 87 87 86 84 75 77 71 71 65 69 66 63 57 53 18 79 56
Average 86 86 86 85 82 78 75 71 68 67 68 64 62 57 51 11 75 52

2. Iron Removal

The iron removal process is designed to remove the bulk of the iron, aluminum and thorium from solution by precipitation with magnesium carbonate while minimizing the losses of rare earths to the iron residue. The average removal efficiency of impurities was 100% for Fe, 56% for Al and 92% for Th. The losses of rare earths by co-precipitation were minimal. The overall recoveries of the rare earth elements to solution are summarized below. The average recoveries were Nd (83%), Pr (84%) and Dy (68%). When compared to the acid bake and water leach extractions, the losses were 2-3% for Nd-Pr and <1% for Dy.

Recoveries to Solution after Iron Removal (%)
La Ce Pr Nd Sm Eu Gd Tb Dy Ho Y Er Tm Yb Lu
Average 84 84 84 83 80 76 75 70 68 65 68 64 60 56 49

3. Uranium Ion Exchange

The uranium ion exchange process selectively removes uranium from the iron free solution to ensure production of a low uranium mixed rare earth oxide product. The uranium was removed to below the detection limit in the solution with negligible (<0.1%) loss of rare earth elements by co-loading with uranium.

4. Precipitation of a Mixed Rare Earth Carbonate Precipitate

The uranium and iron free solution was treated with sodium carbonate solution to precipitate the rare earths (and any remaining impurities) as a mixed carbonate product. This process was highly efficient and produced a mixed carbonate product of the analysis shown below. The first table shows the rare earth composition of the precipitate. The second table shows the remaining contaminants in the precipitate that must be removed in the refining process (the second part of the Search Minerals Direct Extraction Process).

Average Analysis of the Rare Earth Carbonate Precipitate (%)
La Ce Pr Nd Sm Eu Gd Tb Dy Ho Y Er Tm Yb Lu
Average 5.83 12.54 1.48 5.32 0.93 0.05 0.7 0.1 0.58 0.11 2.85 0.3 0.04 0.23 0.03
Average Impurity Analysis of the Rare Earth Carbonate Precipitate
Th U Si Al Fe Mg Ca Mn Cr Be Zn
(g/t) (g/t) (%) (%) (%) (%) (%) (%) (%) (%) (%)
Average 199 1 5.49 5.89 0.34 0.48 1.08 0.35 0.03 0.12 3.1

5. Re-Leach and Refining

The second part of the pilot plant program processed the mixed rare earth carbonate product to form a mixed rare earth oxide.

The steps in this process were:

1. Re-leach the mixed carbonate in a weak sulfuric acid solution (change from former practice of using hydrochloric acid).

2. Adjust the pH of the solution to remove Fe, Al, Th to low levels.

3. Filter the solid residue produced by the pH adjustment. Note that some REEs are precipitated in this process but we have shown on the bench that we can treat this residue with strong acid and recycle to the first part of the plant (current operation) with negligible losses of REE's.

4. Removal of zinc by sulfide precipitation to produce a 63% Zn stream.

5. Precipitation of REE's by oxalic acid addition to form insoluble RE oxalates.

6. Filtration and washing of RE Oxalates.

7. Calcine the RE Oxalates to produce the ~99% pure produce with low impurity content for refining.

The re-leaching and pH adjustment process was effective at redissolving the rare earth elements from the mixed carbonate and precipitating the iron, aluminum and thorium to low levels using magnesium carbonate. This process was done with sulfuric acid addition in order to remove the use of hydrochloric acid from the Search Minerals Direct Extraction Process.

The precipitate recovered from this part of the process still carries high rare earth values which must be recovered and recycled to the first part of the Search process for recovery. The initial testing of the re-leaching of this precipitate has shown that high extractions (and therefore negligible losses) of rare earth elements can be obtained. Further bench scale work on this precipitate treatment is being performed by SGS Minerals to confirm the high extractions and negligible losses.

The removal of zinc from solution by hydrogen sulfide precipitation was very effective to producing a low zinc solution composition for the oxalic acid precipitation step.

The initial recovery of a mixed rare earth oxide by oxalic acid precipitation and calcination has confirmed the production of a high grade mixed rare earth oxide product containing low Th (8.6 g/t), U (<0.5 g/t) and Zn (64 g/t) for refining to individual rare earth elements.

Qualified Person:

Dr. David Dreisinger, Ph.D., P.Eng., is the Company's Vice President, Metallurgy and Qualified Person for the purposes of NI 43-101. Dr. Dreisinger has reviewed and approved the technical disclosure contained in this news release as applicable. The company will endeavour to meet high standards of integrity, transparency, and consistency in reporting technical content, including geological and assay (e.g., REE) data.

About Search Minerals Inc.

Led by a proven management team and board of directors, Search is focused on finding and developing resources within the emerging Port Hope Simpson Critical Rare Earth Element (CREE) District of SE Labrador. The Company controls a belt 70 km long and 8 km wide including its 100% interest in the FOXTROT Project which is road accessible and at tidewater. Exploration efforts have advanced "Deepwater Fox" and "Fox Meadow" as significant new CREE prospects very similar and in close proximity to the original FOXTROT discovery. While the Company has identified more than 20 other prospects in the District, its primary objective remains development of FOXTROT by confirming proprietary processing technology at the pilot plant level (in progress) and delineation of prospects that will ensure competitive-low cost production beyond the 14-year mine life contemplated in the Preliminary Economic Assessment of FOXTROT completed in April 2016. The FOXTROT Project has a low capital cost to bring the initial project into production ($152 M), a short payback period and is scalable due to Search's proprietary processing technology.

All material information on the Company may be found on its website at www.searchminerals.ca and on SEDAR at www.sedar.com

About neo-CREOs (Adamas Intelligence - December 2016)

We consider neodymium, praseodymium, and dysprosium to be neo-CREOs because there is a high probability they will be in short supply by 2025, and they are vital to NdFeB magnets used widely in renewable power generation, electric mobility, and energy-efficient technologies. We consider terbium to be a neo-CREO because upon experiencing shortages of dysprosium, consumers in the magnet industry will rapidly consume available terbium supplies in its place for applications involving renewable power generation, electric mobility and energy efficient technologies. Lanthanum is considered a neo-CREO because there is a high probability it will be in short supply by 2025 and because it is widely used in catalytic converters and rechargeable batteries, and will be increasingly used as a thermal stabilizer by producers of poly-vinyl chloride (PVC) to minimize lead consumption and improve the energy efficiency of PVC and other processing equipment.

Neither the TSX Venture Exchange nor its Regulation Services Provider (as that term is defined in the policies of the TSX Venture Exchange) accepts responsibility for the adequacy or accuracy of this release.

CAUTIONARY STATEMENTS

Regarding "Forward-Looking" Information.

This news release includes certain "forward-looking information" and "forward-looking statements" (collectively "forward-looking statements") within the meaning of applicable Canadian and United States securities legislation including the United States Private Securities Litigation Reform Act of 1995. All statements, other than statements of historical fact, included herein, without limitation, statements relating the future operating or financial performance of the Company, are forward-looking statements.

Forward-looking statements are frequently, but not always, identified by words such as "expects", "anticipates", "believes", "intends", "estimates", "potential", "possible", and similar expressions, or statements that events, conditions, or results "will", "may", "could", or "should" occur or be achieved. Forward-looking statements in this news release relate to, among other things future events or the Company's future performance, business prospects or opportunities. Actual future results may differ materially. There can be no assurance that such statements will prove to be accurate, and actual results and future events could differ materially from those anticipated in such statements. Forward-looking statements reflect the beliefs, opinions and projections on the date the statements are made and are based upon a number of assumptions and estimates that, while considered reasonable by the respective parties, are inherently subject to significant business, economic, competitive, political and social uncertainties and contingencies. Many factors, both known and unknown, could cause actual results, performance or achievements to be materially different from the results, performance or achievements that are or may be expressed or implied by such forward-looking statements and the parties have made assumptions and estimates based on or related to many of these factors. Such factors include, without limitation, general business, economic and social uncertainties; litigation, legislative, environmental and other judicial, regulatory, political and competitive developments; and those additional risks set out in Search's public documents filed on SEDAR at www.sedar.com. Although Search believes that the assumptions and factors used in preparing the forward-looking statements are reasonable, undue reliance should not be placed on these statements, which only apply as of the date of this news release and no assurance can be given that such events will occur in the disclosed time frames or at all. Except where required by law, Search disclaims any intention or obligation to update or revise any forward-looking statement, whether as a result of new information, future events, or otherwise.



Contact

Greg Andrews
President and CEO
Tel: 604 998-3432 Ext 2
E-mail: info@searchminerals.ca
Paul Snow
Investor Relations
Tel: 709 753-0794
E-mail: psnow@pilotcom.ca


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