BRISBANE, Australia,
May 23, 2018 /CNW/ -- Orocobre
Limited (ASX: ORE, TSX: ORL) ("Orocobre" or "the
Company") is pleased to announce an updated resource estimate
for the Company's Cauchari Joint Venture Project in Jujuy,
Argentina based on the Phase II
drilling results. The update, prepared by FloSolutions S.A.C, has
increased the Inferred Resource to a volume of approximately 1,200
million cubic metres of brine at average grades of 450 mg/l lithium
and 4,028 mg/l potassium for 3.0 Mt of Lithium Carbonate Equivalent
(LCE) and will be the basis for a Scoping Study/Preliminary
Economic Assessment (PEA) scheduled for completion in this
quarter.
The exploration program is being managed by JV partner
Advantage Lithium Corp. ("Advantage Lithium") (TSX
Venture: AAL) (OTCQX: AVLIF) who hold 75% of Cauchari.
Orocobre owns 29% of Advantage Lithium's issued capital and 25%
directly in the joint venture.
Highlights:
- +6-fold increase of the inferred resource to 3.0 Mt LCE at
Cauchari at 450 mg/l Lithium
- The updated resource covers a significantly larger area and
extends to greater depths in the NW and SE Sectors
- Significant potential for additional resource expansion at
depth
- The brine has excellent chemistry for processing and the Mg/Li
ratio averages 2.5, very similar to Orocobre's Olaroz project
- Phase III drilling is underway to upgrade this inferred
resource and underlying brine to measured and indicated resources
for the definitive feasibility study (DFS) scheduled for completion
in Q2 2019
Advantage Lithium intends to submit a full technical report
within 45 days of this filing, in accordance with the requirements
of National Instrument 43-101 (NI 43-101) to support the
conclusions presented here.
Richard Seville, Managing
Director and Chief Executive Officer commented "We are very pleased
with the results from the programme so far which has delivered a
six times increase on the prior resource estimate. Three
million tonnes LCE provides a solid basis for a Scoping Study/PEA
and there is a significant exploration target from which we will
build our resource base further. We will be completing the Scoping
Study/PEA during this quarter and then will progress to a
definitive Feasibility Study for a potential 20,000 tonnes per
annum of Lithium Carbonate. I commend our partner and JV
manager Advantage Lithium and its dedicated management team for
delivering this quality programme in such a short period of time
and we look forward to continue working with them on the Scoping
Study/PEA."
Updated Cauchari Resource
Based on the results of the 2017/2018 drilling programme, the
resource at Cauchari has been increased. As advised by
independent consultants FloSolutions S.A.C. there is now an
Inferred Resource of 1,200 million cubic metres of brine at 450
mg/l lithium and 4,028 mg/l potassium. This is equivalent to
3.0 Mt Lithium Carbonate Equivalent (LCE) (based on 5.32
tonnes of lithium carbonate is equivalent to 1 tonne of lithium)
and 9.5 Mt of potassium chloride (based on 1 tonne potassium
chloride is equivalent to 1.91 tonnes of potassium). The
resource estimate includes both the NW and SE Sectors. This is an
expansion of six times the previous estimate of 0.47 Mt of Lithium
Carbonate Equivalent. The average grade of the entire resource has
increased to 450 mg/l Li and 4,028 mg/l K. Locally
higher grades were encountered in the NW Sector in areas such as
production hole CAU07 (601 mg/l during 48 hr pumping test) and in
the Deep Sand unit in CAU11 (515 mg/l during 48 hr pumping test).
The results of the estimation are summarized in Table 1 below.
The brine resource is calculated over the NW and SE Sectors of
the Cauchari project and covers an area of 92.6 km2. The brine
resource in the NW Sector extends from the brine level below the
Archibarca fan to a depth of up to 300
m. The brine resources in the SE Sector extend from the
phreatic brine level to a constant depth of 300 m and continue locally as a separate resource
volume in the Deep Sand unit between approximately 400 m and 480 m
depth (as defined by Deep Sand drilling intercepts in holes CAU11,
CAU12 and CAU13). None of the boreholes completed to date have
intercepted bedrock (basement) and the resource remains open at
depth. A significant exploration target has been defined
below the current inferred resources as further discussed below
(Table 3).
|
Table 1: Cauchari
Project Lithium and Potassium Resource Estimate; May 22,
2018
|
|
Inferred Resources
(lithium cut-off of 300 mg/l)
|
|
|
Parameter
|
NW
Sector
|
SE
Sector
|
Total
|
|
|
Resource area
(km2)
|
35.2
|
57.4
|
92.6
|
|
|
Aquifer volume
(km3)
|
6.5
|
13.9
|
20.4
|
|
|
Mean specific
yield (Sy)
|
9%
|
4%
|
6%
|
|
|
Brine volume
(km3)
|
0.6
|
0.6
|
1.2
|
|
|
Element
|
Li
|
K
|
Li
|
K
|
Li
|
K
|
|
|
Mean concentration
(mg/l)
|
465
|
3,920
|
443
|
4,078
|
450
|
4,028
|
|
|
Mean grade
(g/m3)
|
44
|
373
|
20
|
184
|
28
|
244
|
|
|
Total Resource
(tonnes)
|
288,000
|
2,420,000
|
280,000
|
2,560,000
|
568,000
|
4,980,000
|
|
|
Lithium Carbonate
(tonnes)
|
1,530,000
|
1,490,000
|
3,020,000
|
|
|
Potash
(tonnes)
|
4,600,000
|
4,900,000
|
9,500,000
|
|
|
|
|
Notes:
1. JORC definitions were followed for mineral resources.
2. The Competent Person for this Mineral Resource estimate is Frits
Reidel, CPG.
3. A lithium cut-off concentration of 300 mg/L has been applied to
the resource estimate.
4. Lithium is converted to lithium carbonate (Li2CO3) with a
conversion factor of 5.32.
5. Potassium is converted to potash with a conversion factor of
1.91
4. Numbers may not add due to rounding.
|
|
Results of the brine chemistry analysis carried out to date
indicate that the Cauchari brine is similar in composition to the
brine in the adjacent Olaroz Salar from which Orocobre is
successfully producing lithium carbonate using conventional lithium
processing technology. Table 2 provides a summary of the Cauchari
brine characteristics. The lower average lithium
concentration of the total inferred resource compared to that of
drill holes such as CAU07, CAU11 (and other results released during
the Phase II drilling program) reflects the presence of lower
concentration brine near surface in the SE Sector such as around
holes CAU12, 13 and 14. The brine characteristics and hydraulic
characteristics in the upper SE Sector are distinct from those in
the NW Sector and the Deep Sand unit. Pumping tests from the NW
Sector and Deep Sand have produced excellent flows with lithium
concentration >500 mg/l lithium, as reported by the
company on the 7th of February and 6th of March 2018. There is a reasonable prospect that
the Cauchari brine from these areas could be successfully processed
using similar technology to the Olaroz plant.
|
Table 2: Cauchari
brine chemistry characteristics
|
|
Samples
Ratio
|
NW Sector &
Deep Sand
|
Upper SE
Sector
|
|
Mg/Li
|
2.7
|
2.5
|
|
SO4/Li
|
29.4
|
69.6
|
Resource Estimation Methodology
The updated lithium resource estimate for the Cauchari Project
is based on the results of seven diamond holes and five rotary
holes drilled during the Phase II campaign in 2017/8 and results of
four diamond drill holes of the Phase I campaign in 2011. Figure 1
shows a location map of the boreholes completed during the 2011 and
2017/8 drilling campaigns. Brine sample collection during the
2017/8 program consisted of bailed and packer samples in the
diamond holes, and packer and pumped samples in the rotary
holes. A total of 449 brine samples (including 164 QA/QC
samples) were analyzed by Norlabs (JuJuy, Argentina) as the primary laboratory and by
Alex Steward Assayers (Mendoza, Argentina) and the University of Antofagasta (Chile) as secondary QA/QC laboratories.
Additional brine QA/QC analyses were carried out on centrifuged
samples collected by Corelabs in Houston,
TX.
HQ core was retrieved during the diamond core drilling from
which some 172 primary undisturbed samples were prepared for
laboratory drainable porosity and other physical parameter
determinations by Geo Systems Analaysis (GSA) in Tucson, AZ.
Laboratory QA/QC porosity analyses are being undertaken by
Corelabs.
The lithium resource was estimated using SGEMs software with
ordinary kriging and applying a 300 mg/l lithium concentration
cut-off. The resource estimate was prepared in accordance with the
guidelines of National Instrument 43-101 and uses best practice
methods specific to brine resources, including a reliance on core
drilling and sampling methods that yield depth-specific chemistry
and drainable porosity measurements. The resource estimation was
completed by independent qualified person Mr. Frits Reidel of Santiago based hydrogeology firm FloSolutions
with extensive experience in the estimation of lithium brine
resources in Argentina.
Geological Exploration Target
The geological exploration target is estimated to range between
1,430,000 and 3,000,000 t LCE, primarily in the SE Sector beneath
the current inferred resource area in the Deep Sand unit to a depth
of 600 m. Table 3 provides the
details of the geological exploration potential. The upper
and lower ranges of the geological potential were bounded by two
times the standard deviation around the calculated average lithium
concentration of the overlying inferred resources. The
Deep Sand unit in the SE Sector was intersected below 360 m in CAU11, CAU12 and CAU13. A
preliminary 48 hour pumping test in CAU11 at a pumping rate of 19
l/s indicated that the Deep Sand unit has excellent hydraulic
characteristics. The geology of the Cauchari basin suggests there
is good potential to convert brine within the exploration target to
resources. Similar sand units have been intersected in the
neighboring Olaroz project.
|
Table 3: Cauchari
Project – Geological Potential
|
|
Geological
Potential - Lower range (X-2SD)
|
|
Parameter
|
NW
Sector
|
SE
Sector
|
Total
|
|
Resource area
(km2)
|
35.2
|
57.4
|
92.6
|
|
Aquifer volume
(km3)
|
2.6
|
12.8
|
15.4
|
|
Mean specific
yield (Sy)
|
11%
|
5%
|
6%
|
|
Brine volume
(km3)
|
0.3
|
0.6
|
0.9
|
|
Element
|
Li
|
K
|
Li
|
K
|
Li
|
K
|
|
Mean concentration
(mg/l)
|
281
|
2,320
|
281
|
2,320
|
281
|
2,320
|
|
Mean grade
(g/m3)
|
31
|
258
|
15
|
122
|
23
|
190
|
|
Total Resource
(tonnes)
|
80,000
|
670,000
|
190,000
|
1,550,000
|
270,000
|
2,220,000
|
|
Lithium Carbonate
(tonnes)
|
430,000
|
1,000,000
|
1,430,000
|
|
Potash
(tonnes)
|
1,300,000
|
2,900,000
|
4,200,000
|
|
Geological
Potential – Upper range (X+2SD)
|
|
Parameter
|
NW
Sector
|
SE
Sector
|
Total
|
|
Resource area
(km2)
|
35.2
|
57.4
|
92.6
|
|
Aquifer volume
(km3)
|
2.6
|
12.8
|
15.4
|
|
Mean specific
yield (Sy)
|
11%
|
5%
|
6%
|
|
Brine volume
(km3)
|
0.3
|
0.6
|
0.9
|
|
Element
|
Li
|
K
|
Li
|
K
|
Li
|
K
|
|
Mean concentration
(mg/l)
|
594
|
5,735
|
594
|
5,735
|
594
|
5,735
|
|
Mean grade
(g/m3)
|
66
|
638
|
31
|
301
|
49
|
473
|
|
Total Resource
(tonnes)
|
170,000
|
1,650,000
|
400,000
|
3,840,000
|
570,000
|
5,490,000
|
|
Lithium Carbonate
(tonnes)
|
900,000
|
2,100,000
|
3,000,000
|
|
Potash
(tonnes)
|
3,100,000
|
7,300,000
|
10,400,000
|
The potential quantity and grade of the exploration target is
conceptual in nature, and there has been insufficient exploration
to define a Mineral Resource in the volume where the Exploration
Target is outlined. It is uncertain if further exploration drilling
will result in the determination of a Mineral Resource in this
volume. The exploration target is where, based on the available
geological evidence, there is the possibility of defining a mineral
resource. Importantly the exploration target is not to be
considered a resource or reserve. It must be stressed the
exploration target is based on a series of assumptions and future
drilling is required to determine the brine grade and formation
drainable porosity values to establish whether a resource can be
defined.
Phase III Drilling and Further Resource Expansion
The Phase III resource definition drilling program is currently
underway at the Cauchari project site. The Phase III
program will include additional diamond holes in the NW and SE
Sectors to upgrade the resource classification by Q2 2019 to
support the Project's Definitive Feasibility Study. The Phase III
drilling program is designed to provide a combined borehole density
sufficient to upgrade the current inferred resources to the
Indicated and Measured categories. The Phase III drilling is also
aimed at further defining resources in the Deep Sand unit.
For more information please contact:
Andrew Barber
Investor
Relations Manager
T: +61 7 3871 3985
M: +61 418 783 701
E: abarber@orocobre.com
Qualified Person's/Competent Person's Statement
The information in this report that relates to exploration
reporting at the Cauchari JV project has been prepared by Mr
Frits Reidel. Frits Reidel is a Certified Professional
Geologist and member of the American Institute of Professional
Geologists. Frits Reidel is General
Manager and Principal with FloSolutions and is independent of
Orocobre. Frits has sufficient relevant experience to qualify as a
competent person as defined in the 2012 edition of the Australasian
Code for Reporting of Exploration Results, Mineral Resources and
Ore Reserves. He is also a "Qualified Person" as defined in NI
43-101. Frits Reidel consents to the
inclusion in this announcement of this information in the form and
context in which it appears.
About Orocobre Limited
Orocobre Limited (Orocobre) is
a dynamic global lithium carbonate supplier and an established
producer of boron. Orocobre is dual listed on the Australia and Toronto Stock Exchanges (ASX:
ORE), (TSE: ORL). Orocobre's operations include its Olaroz Lithium
Facility in Northern Argentina,
Borax Argentina, an established Argentine boron minerals and
refined chemicals producer and a 29% interest in Advantage
Lithium.
For further information, please visit www.orocobre.com.
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SOURCE Orocobre Limited