18:00 Thu 14 Nov 2019
Savannah Resources - Mina do Barroso Lithium Project Update
14 November 2019
Mina do
Robust Results from Grandao Variability Test work and Encouraging Preliminary Metallurgical Test Work Results from both Pinheiro and Aldeia Deposits
To view the announcement with the illustrative maps and diagrams, please use the following link: http://www.rns-pdf.londonstockexchange.com/rns/3434T_1-2019-11-13.pdf
Highlights
· Excellent progress made with metallurgical test work, underlining the Mina do
· Savannah has successfully produced high quality spodumene concentrates from the Grandao, Pinheiro and Aldeia deposits at the Project, using a "whole of ore flotation" process developed during the previous test work programmes
· The recovery rates and the purity of spodumene concentrates produced from varying samples taken from the Grandao orebody vindicates Savannah's decision to expand its test work programme to produce a robust processing flowsheet
· Savannah continues to de-risk the Project by building up a comprehensive understanding of how best to manage the metallurgical outcomes for the Mina do Barroso deposits
Grandao deposit:
· To confirm that a robust process flow sheet can be developed to achieve saleable lithium concentrate grades from all parts of the deposit, a variability test work programme was conducted to assess the metallurgical performance of various lithologies, lithium grades and weathering states. The 'whole-of-ore' laboratory bench scale flotation test work results, on the fresh and transitional Grandao variability samples tested, excluding the transitional aplite sample (which represents less than 3% of the deposit), indicates lithia (Li2O) recoveries and concentrate grades of:
o 76% recovery and 6% concentrate grades for the fresh samples
o 74% recovery and 6% concentrate grades for the transitional samples
Pinheiro & Aldeia deposits:
· Preliminary metallurgical whole of ore float tests on both deposits confirm the potential to produce saleable concentrate grades
· Testing, which is yet to be optimised, produced concentrates grades of up to 6.1% Li2O, with recoveries in excess of 77% at Pinheiro and 5.5% Li2O, with recoveries in excess of 73% at Aldeia
Conclusions & Next steps:
· Geometallurgical modelling highlighted that c.93% of the global Mineral Resources for the Project are considered fresh mineralisation
· The predominance of fresh mineralisation provides a significant advantage to the Project as it would allow bulk mining techniques to be used, which limits dilution or contamination
· The lithium concentrates produced from all deposits have low iron and impurity levels making for a very saleable concentrate
· Significant scope remains to further optimise and improve upon these results which Savannah is doing through its ongoing metallurgical test work programmes - further results will be announced as they become available.
Savannah's CEO,
''We have put an enormous amount of effort into validating the new flow sheet. While flotation is a venerable processing technique in the mining industry, we have sought to ensure the application of the technique to Mina do Barroso spodumene mineralisation is optimised. The work was designed to test the performance of the flow sheet with different weathering states of the mineralisation, dealing with the presence of micas and to test the performance from lower grade lithium mineralisation. Our results vindicate the extra time and investment we have put into the metallurgical test work programmes, which will now continue, culminating in a final stage of pilot plant scale testing."
Test work Overview
Details of the test work programme are detailed in Appendix A.
Further Work
Following the robust results from the Grandao "whole-of-ore" laboratory programme, flotation work will now focus on final process flowsheet refinements prior to pilot plant test work.
The results produced from these preliminary tests on both Pinheiro and Aldeia have demonstrated that commercially acceptable grades and recoveries can be generated using a standard flotation process. Optimisation and variability testing are ongoing as further samples become available.
Savannah is progressing the metallurgical test programme at laboratory scale to focus on the following:
· Screening new reagents to improve the recoveries and concentrate grades
· To test the variability
· To achieve further optimisation by doing locked cycle testing
· To test the recovery of acceptable feldspar and quartz concentrates
Competent Person Statement
The information in this announcement that relates to exploration results is based upon information compiled by Mr
The information in this release that relates to metallurgy and metallurgical test work has been reviewed by Mr
Regulatory Information
This announcement contains inside information for the purposes of Article 7 of Regulation (EU) 596/2014.
**ENDS**
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For further information please visit www.savannahresources.com or contact:
About Savannah
Savannah is a diversified resources group (AIM: SAV) with a portfolio of energy metals projects - lithium in
The Company is listed and regulated on AIM and the Company's ordinary shares are also available on the Quotation Board of the
APPENDIX A
Test Work Overview
Savannah has successfully produced good quality spodumene concentrates from all of the Grandao, Pinheiro and Aldeia deposits, using a "whole of ore flotation" process developed during the previous test work programmes.
Grandao
277 diamond drill core bagged samples, from the Grandao deposit, Mina do
The samples were composited based on assay data and geological logging descriptions on the material type and degree of oxidation/weathering profile. Samples were typically selected along contiguous drill hole intercepts, and also with some edge material included. The head assay data and geology descriptions for the composite samples is summarised in Table 1, with the samples sorted by weathering profile.
Table 1. Grandao Head Assay and Sample Summary Table
Composite ID |
Hole ID |
From (m) |
To (m) |
Sample Mass (kg) |
Li2O (%) |
Fe2O3 (%) |
Na2O (%) |
K2O (%) |
Description |
GRA-M009 |
18GRADD021/22/28 |
38.0 |
47.0 |
81 |
1.24 |
1.15 |
3.30 |
3.21 |
Fresh with ~12% schist, mixture of banded and pegmatite |
GRA-M010 |
18GRADD022/28 |
47.9 |
70.0 |
96 |
1.04 |
0.42 |
4.63 |
2.60 |
all Fresh, ~85% banded and rest pegmatite |
GRA-M012 |
18GRADD020/28 |
47.0 |
63.7 |
75 |
0.88 |
0.35 |
4.35 |
2.86 |
55% Fresh, primarily pegmatite with ~30% aplite and banded |
GRA-M016 |
18GRADD020/22/28 |
45.0 |
62.0 |
78 |
1.26 |
1.62 |
3.33 |
2.73 |
Mixture (60%) Fresh with a higher (~20%) of schist, rest pegmatite |
GRA-M007 |
18GRADD008/23 |
24.0 |
53.2 |
81 |
0.82 |
1.02 |
3.90 |
3.26 |
all Transitional, all pegmatite |
GRA-M008 |
18GRADD020/21/28 |
10.0 |
60.0 |
93 |
1.28 |
0.29 |
4.14 |
2.39 |
all Transitional, mixture of banded and pegmatite |
GRA-M011 |
18GRADD019/23 |
18.7 |
24.7 |
84 |
0.96 |
0.33 |
3.81 |
2.84 |
all Transitional, all pegmatite |
GRA-M014 |
18GRADD019/23/25 |
6.1 |
29.0 |
91 |
0.79 |
0.39 |
4.57 |
2.83 |
Banded Transitional |
GRA-M013 |
18GRADD019/20/25/28 |
11.2 |
43.5 |
56 |
0.79 |
0.38 |
4.58 |
2.67 |
Aplite Transitional |
GRA-M015 |
18GRADD008/19/23/25 |
0.5 |
50.35 |
72 |
0.76 |
0.50 |
4.53 |
2.82 |
all Transitional, primarily pegmatite with <10% each aplite and banded |
'Whole of ore' laboratory bench scale flotation tests were performed on each of the composited Grandao variability samples, and test work conditions comprised:
· Grind to P80 106 µm
· Deslime (at ~P80 20 µm),
· Wet high intensity magnetic separation
· Rougher mica pre-float
· Rougher/cleaner/re-cleaner stage spodumene flotation,
The 'whole-of-ore' laboratory bench scale flotation test work results, for the combined spodumene re-cleaner 1 to 3 concentrates, are presented in Table 2.
Table 2: Global Summary of Spodumene Re-Cleaner Flotation (Con 1-3), Grandao Composites
Composite ID |
Mass* Deport. (%) |
Li2O* Deport. (%) |
Li2O (%) |
Fe2O3 (%) |
Na2O (%) |
K2O (%) |
LOI1000 (%)** |
Description |
GRA-M009 |
15.1% |
79.3% |
6.60 |
0.66 |
0.41 |
0.46 |
1.25 |
Fresh, ~10% schist |
GRA-M010 |
13.6% |
79.1% |
5.86 |
0.44 |
0.83 |
1.00 |
1.61 |
Fresh |
GRA-M012 |
11.7% |
79.3% |
6.13 |
0.38 |
0.63 |
0.56 |
1.53 |
Fresh |
GRA-M016 |
13.8% |
74.9% |
5.89 |
0.72 |
0.57 |
0.63 |
1.51 |
Fresh, ~20% schist |
GRA-M007 |
9.7% |
65.4% |
6.23 |
0.88 |
0.56 |
0.48 |
1.55 |
Transitional |
GRA-M008 |
14.9% |
80.8% |
6.57 |
0.38 |
0.66 |
0.61 |
1.26 |
Transitional |
GRA-M011 |
10.0% |
63.7% |
5.87 |
0.54 |
0.83 |
0.65 |
1.84 |
Transitional |
GRA-M014 |
9.1% |
69.6% |
6.13 |
0.61 |
0.63 |
0.71 |
1.63 |
Transitional |
GRA-M013 |
11.5% |
73.3% |
5.15 |
0.54 |
1.24 |
0.81 |
1.64 |
Transitional / Aplite |
GRA-M015 |
10.1% |
71.4% |
5.25 |
0.47 |
1.36 |
0.60 |
1.73 |
Transitional / Aplite |
* Global deportment
**LOI = Loss on Ignition (Moisture)
The lithia flotation kinetic grade and recovery curves for each Grandao composite sample are illustrated in Figure 1, with the samples sorted on the material type and degree of oxidation/weathering profile.
Figure 1: Spodumene Flotation Concentrate Grade and Recovery Curves, Grandao Composites
· The fresh and transitional Grandao variability samples assessed in this work produced a 6.0% Li2O concentrate grade via the 'whole-of-ore' flotation process flowsheet.
· The summarised flotation concentrate data, extrapolated at a 6.0% Li2O concentrate grade on the fresh and transitional Grandao variability samples tested, indicates lithia recoveries of:
o 72% - 80% for the fresh samples
o 66% - 83% for the transitional samples, excluding the transitional aplite sample which represents less than 3% of the deposit
· Circa 80% to 90% of the iron was removed in the three stages of feed preparation prior to spodumene flotation - via desliming, magnetic separation and mica removal via flotation.
· Spodumene flotation concentrate produced in this work, and ranging between 5.5% to 6.0% Li2O, contained less than 1% Fe2O3 in all cases.
· At a flotation concentrate grade of 6.0% Li2O, the halide content was less than 1.0% Na2O and 1.0% K2O in the fresh and transitional samples.
· At a flotation concentrate grade of 5.5% Li2O, the halide content was less than 1.3% Na2O and 1.1% K2O in all samples (fresh, transitional and transitional/aplite).
Pinheiro
Two samples (Table 3) from the Pinheiro deposit were subjected to standard metallurgical tests to enable evaluation of the potential final products.
Table 3. Pinheiro Head Assay and Sample Summary Table
Composite ID |
Hole ID |
From (m) |
To (m) |
Sample Mass (kg) |
Li2O (%) |
Fe2O3 (%) |
Na2O (%) |
K2O (%) |
LOI1000 (%) |
Description |
PNR - M001 |
18PNRDD001 |
15.10 |
22.50 |
73 |
1.29 |
0.65 |
3.41 |
2.65 |
0.96 |
Fresh pegmatite with ~10% schist |
PNR - M004 |
18PNRDD002 |
39.00 |
50.25 |
103 |
1.12 |
0.62 |
3.36 |
2.84 |
1.41 |
Transitional |
'Whole of ore' laboratory scale flotation test work was performed on the Pinheiro samples, using standard conditions:
· Grind to P80 106 µm
· Deslime (at P80 20 µm), followed by wet high intensity magnetic separation
· Rougher/cleaner mica pre-float
· Rougher and single cleaner stage spodumene flotation
The influence of collector type was also investigated:
· Alternative spodumene collector, Clariant Flotinor 7801, with 750 g/t dosage
· Oleic acid, a common monounsaturated fat in the human diet, with 2400 g/t dosage
The high-level summary of spodumene flotation concentrate produced from this suite of tests is presented in Table 4 and Figure 2.
Table 4: Global Summary of Spodumene Flotation, Pinheiro Composites
Composite ID |
Mass Deport. (%) |
Li2O Deport. (%) |
Li2O (%) |
Fe2O3 (%) |
Na2O (%) |
K2O (%) |
LOI1000 (%) |
PNR - M001* |
13.2 |
56.3 |
5.36 |
0.71 |
0.71 |
0.86 |
0.99 |
PNR - M004** |
13.6 |
77.2 |
6.08 |
0.43 |
0.60 |
0.37 |
0.83 |
*Spodumene rougher concentrate grade, 2400 g/t oleic acid, **Spodumene Re-cleaner 1-2 Concentrate, 750 g/t Flotinor 7801
**LOI = Loss on ignition (moisture)
The results produced by the flotation conditions for PNRM004 produced the best results of 6.1% Li2O at 77% recoveries and further test work will focus on other samples from the Project using these flotation conditions and looking to further optimise and improve the flotation performance.
Aldeia
Two samples (Table 3) from the Aldeia deposit were subjected to standard metallurgical tests to enable evaluation of the potential final products.
Table 5. Aldeia Composite Head Assay and Sample Summary Table
Composite ID |
Hole ID |
From (m) |
To (m) |
Sample Mass (kg) |
Li2O (%) |
Fe2O3 (%) |
Na2O (%) |
K2O (%) |
LOI1000 (%) |
Description |
ALD-M005 |
19ALADD001 |
5.65 |
23.50 |
117 |
0.84 |
1.26 |
3.05 |
3.02 |
1.56 |
~75% Fresh with oxides on fractures, ~25% schist material |
ALD-M006 |
19ALADD003 |
23.00 |
36.00 |
113 |
1.10 |
0.81 |
3.70 |
3.14 |
1.06 |
~25% Fresh, ~75% Fresh with oxides on fractures |
'Whole of ore' laboratory bench scale flotation test work was performed on the Aldeia composite samples (Table 5), and preliminary conditions comprised:
· Grind to P80 106 µm
· Deslime (at P80 20 µm), followed by wet high intensity magnetic separation
· Rougher mica pre-float
· Rougher/cleaner/re-cleaner stage spodumene flotation
The laboratory bench scale re-cleaner flotation test work results for the Aldeia composites are summarised in Table 6 and Figure 3.
Table 6: Global Summary of Spodumene Flotation, Aldeia Composites
Composite ID |
Mass Deport. (%) |
Li2O Deport. (%) |
Li2O (%) |
Fe2O3 (%) |
Na2O (%) |
K2O (%) |
LOI1000 (%) |
ALD-M005 |
8.6 |
53.9 |
5.56 |
0.85 |
0.65 |
0.85 |
2.67 |
ALD-M006 |
12.9 |
68.4 |
5.55 |
0.78 |
0.47 |
1.81 |
2.38 |
Figure 2. Spodumene Re-Cleaner Flotation Performance, Aldeia Composites
Further development test work is now required to optimise and improve the Aldeia flotation performance.
Geometallurgy
A detailed geometallurgical model for each deposit is under construction to ensure that the Company has a thorough understanding of how each deposit is likely to perform when processed. As part of the variability test work, samples from each rock type were processed including samples of different grade and weathering as well as introducing up to 10% of the host schist. This process was completed to ensure that a robust flow sheet can be developed which can treat all rock types and produce a saleable concentrate at acceptable recoveries.
Geometallurgical modelling has highlighted:
· The major rock type (over 80%) in the deposits is pegmatite which has routinely reported very good recoveries and concentrate grades (Table 7)
· Around 93% of the global resources for the Project are considered fresh with only limited transitional material present (Table 8)
· The geometallurgical model has highlighted the distribution of the transitional material where metallurgical performance is more variable than in the fresh material - having a strong understanding of the distribution of these areas will enable optimal mine scheduling to maximise recoveries and cash flows and to reduce metallurgical risk.
· A significant advantage of the Project is the predominance of fresh rock type which means bulk mining can be done which limits dilution or contamination
Table 7.
Rock Type |
Mineralisation % |
Minimum Li20% |
Maximum Li20% |
Average Li20% |
FGP |
80.6 |
0.50 |
3.19 |
1.23 |
FGB |
5.65 |
0.03 |
2.95 |
0.94 |
FGA |
3.75 |
0.03 |
1.91 |
0.53 |
SCH |
10.0 |
0.00 |
1.91 |
0.53 |
|
100.0 |
|
|
|
FGP = Pegmatite, FGB = Banded Pegmatite/Aplite, FGA = Aplite, SCH=Schist
Table 8.
Deposit |
Total (t) |
Fresh (t) |
Fresh (%) |
Transitional (t) |
Transitional (%) |
Grandao |
17,739,100 |
16,288,200 |
91 |
1,450,900 |
9 |
Pinheiro |
1,958,600 |
1,845,000 |
94 |
113,600 |
6 |
Reservatorio |
3,190,100 |
2,940,800 |
98 |
250,100 |
9 |
Aldeia |
3,468,900 |
3,465,500 |
>99 |
3400 |
<0 |
NOA |
640,600 |
574,500 |
88 |
66,100 |
12 |
Total |
26,997,300 |
25,113,200 |
93 |
1,884,200 |
7 |
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