6 March
2024
Thor
Energy PLC
("Thor"
or the "Company")
New 3D Model Highlights
Structural Controls on Copper Mineralisation
Alford
East Copper-REE Project, South Australia
The directors of Thor Energy PLC
("Thor" or the "Company") (AIM, ASX: THR, OTCQB: THORF) are pleased
to share Thor's updated 3D Geological Model, incorporating the
recently completed Ambient Noise Tomography ("ANT") surveys by
Fleet Space Technologies ("Fleet") for the Alford East Copper - Rare Earth Element
("REE") Project in South Australia.
Highlights:
§ Fleet's
ANT survey results provided valuable insights into the lithological
and structural setting of the Alford East Copper oxide and REE
Project.
§ Deeply
weathered troughs in areas of unaltered metamorphic rocks were
found to be associated with zones of faulting, deep oxidation and
intrusives at depth.
§ The ANT
surveys confirm the significance of the prominent north-northeast
(NNE) structure associated with copper oxide mineralisation
(Figure 1).
§ The
combined resultant 3D Model provides
targeted criteria for extensions to existing mineralisation and
potential for new discoveries of oxide copper-REE
mineralisation.
Figure 1: Alford East 3D ANT
and Structural Model highlighting the NNE trending fault zone (red)
commonly associated with copper oxide mineralisation as seen at
prospect AE5 to AE8
Nicole Galloway Warland,
Managing Director of Thor Energy, commented:
"The 3D ANT Modelling has provided significant lithological
and structural insights into the Alford East Project area.
Combining this information with Thor's dataset has led to an
exciting new 3D Model, with a newfound understanding of the Alford
East structural setting and mineralisation controls. This has
provided the Company with a refined targeted strategy, focusing
future drilling on areas with potential high-grade oxide
copper-gold and REE mineralisation.
"The model also provides greater insight into historical,
negative drill results that led to major explorers leaving the
area."
Figure 2: 3D ANT model showing low
velocity weathered troughs that host oxide copper
mineralisation
Next Steps:
1. Drill
preparations and drilling
2. Pump testing
for ISR assessment push-pull work
3. Continue
quarterly groundwater testing
3D
ANT and Structural Model
After the acquisition of ANT data by
Fleet across the northern part of the Alford East project in 2023
(Figure 6), Thor engaged
with the consultant, Doreen Mikitiuk, DXplorer to review and
update the current Alford East structural model and geological
interpretation of the survey areas.
In preparation for the new
structural interpretation, historic logging codes were simplified
and grouped using information acquired from reports, core photos
and Hylogger data. Lithology groups were based on the
lithogeochemical assessment of multi-element assays of the 2021
diamond core drillholes and reassay of selected historic core,
which was completed in 2023.
The 3D ANT survey provided clearer
understanding of the structural setting of the Alford East area (Figure 2).
With improved knowledge of geology and weathering through the
review of lithological information, the ANT results mapped
localising faults and intrusives at depth. Deeply weathered troughs
in areas of sedimentary rocks were found to be associated with
zones of faulting, deep oxidation and intrusives at
depth.
With the newly gained understanding
of the geological and structural setting, targeting criteria for
primary copper and oxide mineralisation were developed providing
excellent opportunities for the discovery of new copper and REE
mineralisation, which may have been missed by previous
explorers.
Key observations from the 3D
Modelling include:
1)
The highest-grade copper oxide mineralisation is
commonly hosted in pelitic and carbonaceous sediments, with faults
facilitating deeper weathering and alteration. For example, MRE
Domain Area 6, 7 and 8 (Figure 1,
4 and 5).
2)
Mineralisation in Area 5 is predominantly adjacent
to fault zones within dioritic and/or felsic intrusives and pelitic
sediments. Host rocks are more competent and brittle and may have
concentrated oxide mineralisation to brecciated zones along
faults/shears. Lower grade intersected
towards the base of drillholes is found within shears in more
competent diorite.
3)
Psammites seem to be less favourable host rocks
for copper oxide mineralisation.
4)
Mineralised features are subsequently offset by
regional scale east-northeast (ENE) dextral strike slip faults and
associated northwest (NW) trending faults.
5) Zones
of low velocity at shallow depths (approx. 70m) correlate with
pelitic sediments in trough-like structures which are in closely
related to higher velocity intrusives at depth (Figure 4 and 5). These higher velocities suggest
intermediate, rather than felsic composition.
Figure 3: New 3D ANT and Structural
model showing the prominent NNE faults at depth
Figure 4: Cross Section through MRE
Domain AE8 highlighting the ANT defined trough of increased
weathering and oxidation hosting copper
mineralisation
Figure 5: Cross Section through MRE
Domain AE8 highlighting controlling NNE fault and the associated
weathered trough hosting oxide copper-REE
mineralisation
ANT
Geophysics Surveys:
Two comprehensive ANT surveys were
executed at the Alford East
Project, covering the northern portion of the Mineral
Resource Estimate Domains (Figure
2 and Figure 6). The
surveys were designed to delineate the
low-velocity, weathered 'troughs' that are known to host the oxide
copper-gold and REE mineralisation within the Alford Copper Belt
(Figure 5).
The oxide copper-gold and REE mineralisation
within the Alford Copper Belt is associated with rocks that are
significantly less dense with lower seismic velocity than the
surrounding fresh units.
The data collected from these two
surveys was subject to extensive processing, leading to the
development of a high-resolution 3D seismic velocity model of the
subsurface. This model has revealed key features, such as regions
with lower velocity within a high-velocity basement, inferring a 3D
geometry of the interpreted variably weathered trough and a sheared
metasedimentary basement, which is expected to host mineralisation
(Figure 2).
Figure 6: Alford East Location Map
showing the lateral extent of the Alford Copper Belt (left), and
the Alford East Mineral Resource Domains showing the area for
initial ANT Surveys (right)
Alford East Project
Background:
The Alford East Copper-REE Project is
located on EL6529, where Thor holds an 80% interest from unlisted
Australian explorer Spencer Metals Pty Ltd, covering portions of
EL6255 and EL6529 (Figure
6) (ASX/AIM: 20 November 2020).
The Alford East Project covers the northern
extension of the Alford Copper Belt, located on the Yorke
Peninsula, South Australia. The Alford Copper Belt is a
semi-coherent zone of copper-gold oxide mineralisation, within a
structurally controlled, north-south corridor consisting of deeply
kaolinised and oxidised troughs within metamorphic units on the
edge of the Tickera Granite (Figure 6), Gawler Craton, South
Australia.
Thor completed an Inferred Mineral
Resource Estimate ("MRE") by utilising historic drill hole
information.
Table C - (ASX/AIM: 27 January
2021):
▪
125.6Mt @ 0.14% Cu containing 177,000t of
contained copper
▪
71, 500oz of contained gold
https://thorenergyplc.com/investor-updates/maiden-copper-gold-mineral-resource-estimate-alford-east-copper-gold-isr-project/
Table C:
Alford East
Mineral Resource Estimate as of 22 January 2021 - Figure 2 (ASX/AIM: 27 January 2021)
|
Domain
|
Tonnes (Mt)
|
Cu %
|
Au g/t
|
Contained Cu
(t)
|
Contained Au
(oz)
|
|
AE_1
|
24.6
|
0.12
|
0.021
|
30,000
|
16,000
|
|
AE_2
|
6.8
|
0.13
|
0.004
|
9,000
|
1,000
|
|
AE_3
|
34.9
|
0.09
|
0.022
|
33,000
|
25,000
|
|
AE_4
|
8.0
|
0.11
|
0.016
|
8,000
|
4,000
|
|
AE_5
|
11.0
|
0.22
|
0.030
|
24,000
|
11,000
|
|
AE-8
(NP)
|
31.3
|
0.19
|
0.008
|
61,000
|
8,000
|
|
AE-7
(LW_E)
|
7.7
|
0.14
|
0.025
|
10,000
|
6,000
|
|
AE-6
(LW_W)
|
1.3
|
0.13
|
0.011
|
2,000
|
500
|
|
Total
|
125.6
|
0.14
|
0.018
|
177,000
|
71,500
|
Note: MRE reported on oxide material only, at a cut-off grade
of 0.05% copper which is consistent with the assumed In-Situ
Recovery technique.
REE results were later reported from
the 2021 diamond drilling program, with significant drill
intercepts (>500ppm TREO[1]) including (THR: ASX/AIM 26 April
2023):
o 21AED005:
36.7m @ 1568ppm
(0.16%) TREO & 1.2% Cu from 6.3m,
including 11.8m @ 2095 ppm (0.21%) TREO and 1.2% Cu from
10m,
11m
@ 2088ppm (0.21%) TREO and 0.8% Cu from 47m,
including 2m @ 5042ppm (0.5%) TREO from
47m
o 21AED002:
11.6m @ 1699ppm (0.17%) TREO and
0.26% Cu from 30.4m
including
6.1m @ 2262ppm (0.22%) TREO from 34.0m
o 21AED001:
16.8m @ 1721ppm (0.17%) TREO and 0.5% Cu from
91.4m
The Board of Thor Energy Plc has
approved this announcement and authorised its release.
For further information, please
contact:
|
Thor
Energy PLC
|
|
|
Nicole Galloway Warland, Managing
Director
Ray Ridge, CFO & Company
Secretary
|
Tel: +61 (8) 7324 1935
Tel: +61 (8) 7324 1935
|
|
WH
Ireland Limited (Nominated Adviser and Joint
Broker)
|
Tel: +44 (0) 207 220
1666
|
|
Antonio Bossi / Darshan Patel / Isaac
Hooper
|
|
|
SI
Capital Limited (Joint Broker)
|
Tel: +44 (0) 1483 413 500
|
|
Nick Emerson
|
|
|
Yellow Jersey (Financial PR)
|
thor@yellowjerseypr.com
|
|
Sarah Hollins / Shivantha Thambirajah
/ Bessie Elliot
|
Tel: +44 (0) 20 3004 9512
|
Competent Person's
Report
The information in this report that relates to exploration
results is based on information compiled by Nicole Galloway
Warland, who holds a BSc Applied geology (HONS) and who is a Member
of The Australian Institute of Geoscientists. Ms Galloway Warland
is an employee of Thor Energy PLC. She has sufficient experience
which is relevant to the style of mineralisation and type of
deposit under consideration and to the activity which she is
undertaking 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'. Nicole Galloway
Warland consents to the inclusion in the report of the matters
based on her information in the form and context in which it
appears.
Updates on the Company's activities
are regularly posted on Thor's website
which includes a facility to register to receive
these updates by email, and on the Company's X page @thorenergyplc
About Thor Energy Plc
The Company is focused on uranium
and energy metals that are crucial in the shift to a 'green' energy
economy. Thor has a number of highly prospective projects that give
shareholders exposure to uranium, nickel, copper, lithium and gold.
Our projects are located in Australia and the USA.
Thor holds 100% interest in three
uranium and vanadium projects (Wedding Bell, Radium Mountain and
Vanadium King) in the Uravan Belt in Colorado and Utah, USA with
historical high-grade uranium and vanadium drilling and production
results.
At Alford East in South Australia,
Thor has earnt an 80% interest in oxide copper deposits considered
amenable to extraction via In Situ Recovery techniques (ISR). In
January 2021, Thor announced an Inferred Mineral Resource
Estimate¹.
Thor also holds a 26.3% interest in
Australian copper development company EnviroCopper Limited (ECL),
which in turn holds rights to earn up to a 75% interest in the
mineral rights and claims over the resource on the portion of the
historic Kapunda copper mine and the Alford West copper project,
both situated in South Australia, and both considered amenable to
recovery by way of ISR.²³
Alligator Energy recently invested A$0.9M for a 7.8% interest in
ECL with the rights to gain a 50.1% interest by investing a further
A$10.1m over four years.
Thor holds 100% of the advanced
Molyhil tungsten project, including measured, indicated and
inferred resources⁴, in the
Northern Territory of Australia, which was awarded Major Project
Status by the Northern Territory government in July 2020. Thor
executed a A$8m Farm-in and Funding Agreement with Investigator
Resources Limited (ASX: IVR) to accelerate exploration at the
Molyhil Project on 24 November 2022.6
Adjacent to Molyhil, at Bonya, Thor
holds a 40% interest in deposits of tungsten, copper, and vanadium,
including Inferred resource estimates for the Bonya copper deposit,
and the White Violet and Samarkand tungsten deposits. ⁵
Thor's interest in the
Bonya tenement EL29701 is planned to be divested as part of the
Farm-in and Funding agreement with Investigator Resources
Limited.6
Thor owns 100% of the Ragged Range
Project, comprising 92 km2 of exploration licences with
highly encouraging early-stage gold and nickel results in the
Pilbara region of Western Australia.
Notes
1 https://thorenergyplc.com/investor-updates/maiden-copper-gold-mineral-resource-estimate-alford-east-copper-gold-isr-project/
2
www.thorenergyplc.com/sites/thormining/media/pdf/asx-announcements/20172018/20180222-clarification-kapunda-copper-resource-estimate.pdf
³
www.thorenergyplc.com/sites/thormining/media/aim-report/20190815-initial-copper-resource-estimate---moonta-project---rns---london-stock-exchange.pdf
4 https://thorenergyplc.com/investor-updates/molyhil-project-mineral-resource-estimate-updated/
5
www.thorenergyplc.com/sites/thormining/media/pdf/asx-announcements/20200129-mineral-resource-estimates---bonya-tungsten--copper.pdf
6 https://thorenergyplc.com/wp-content/uploads/2022/11/20221124-8M-Farm-in-Funding-Agreement.pdf
About Fleet Space Technologies
Fleet Space
Technologies, a leading
Australian space company with a mission to connect Earth, Moon, and
Mars, is revolutionising the mineral exploration, defence, and
space exploration sectors through its ground-breaking products and
connectivity solutions. Headquartered at a state-of-the-art
facility in Adelaide, South Australia, Fleet has rapidly grown to
over 100 employees and boasts a global presence, including a team
in the US and offices in Canada, Luxembourg, and Chile.
Fleet created EXOSPHERE BY
FLEET®,
a solution for the mineral exploration industry providing lightning
fast, 3D mapping of underground structures and providing increased
accuracy in drilling targets. This cutting-edge technology is
helping the world transition to clean-air mobility technologies by
creating a faster, more sustainable, and less expensive route to
finding critical mineral deposits. EXOSPHERE BY
FLEET® is an
end-to-end service offered to mineral exploration customers to
decrease the time it takes to find a deposit. Fleet's sensors, the
Geodes, are deployed in a survey area and leverage real-time
passive seismic methods to 'scan' the subsurface. This is enabled
through non-invasive Ambient Noise Tomography (ANT) which listens
to seismic waves present on Earth. The data is rapidly processed
and transmitted through Fleet's low power satellite network to
create a 3D model of the area in near real time.
Since launching EXOSPHERE, Fleet
Space has signed contracts with over 30 clients around the world
including players such as Rio Tinto, Barrick Gold and Core Lithium.
Fleet has conducted more than 150 ANT surveys on different
commodity types and completed deployments in 5
continents. EXOSPHERE BY FLEET® is contributing to solve the
pressing global priority to decarbonise mobility and find more than
$13trillion USD worth of minerals required for the energy
transition to help meet global net zero priorities.
Contact:
Wes Carlson, Senior Communications
Manager
Fleet Space Technologies
wesley.carlson@fleet.space
+1-415-521-9516
1. 2012 Edition - Table 1 report
template
1.1
Section 1
Sampling Techniques and Data
|
Criteria
|
JORC Code explanation
|
Commentary
|
|
Sampling techniques
|
·
Nature and
quality of sampling (eg cut channels, random chips, or specific
specialised industry standard measurement tools appropriate to the
minerals under investigation, such as down hole gamma sondes, or
handheld XRF instruments, etc). These examples should not be taken
as limiting the broad meaning of sampling.
·
Include
reference to measures taken to ensure sample representivity and the
appropriate calibration of any measurement tools or systems
used.
·
Aspects of the
determination of mineralisation that are Material to the Public
Report.
·
In cases where
'industry standard' work has been done this would be relatively
simple (eg 'reverse circulation drilling was used to obtain 1 m
samples from which 3 kg was pulverised to produce a 30 g charge for
fire assay'). In other cases more explanation may be required, such
as where there is coarse gold that has inherent sampling problems.
Unusual commodities or mineralisation types (eg submarine nodules)
may warrant disclosure of detailed information.
|
No new drilling or surface sampling
in this release.
· THR is
reporting the results of an ambient noise tomography survey
conducted by Thor Energy Plc and Fleet Space Technologies
which commenced on the 28 Sep 2023 and finished on the 17 Oct
2023.
· The
Ambient Noise Tomography data was acquired using 96 Fleet Space
Technology Geodes.
· The Geode
specifications are as follows:
- 1-component (vertical) 2Hz geophones
- Sensitivity: 260 V/m/s
- Sampling rate: 20Hz
- Recording mode:
continuous
- Preamplifier gain: 32
(linear)
|
|
Drilling techniques
|
·
Drill type (eg
core, reverse circulation, open-hole hammer, rotary air blast,
auger, Bangka, sonic, etc) and details (eg core diameter, triple or
standard tube, depth of diamond tails, face-sampling bit or other
type, whether core is oriented and if so, by what method,
etc).
|
Not applicable -
No drilling reported
|
|
Drill sample recovery
|
·
Method of
recording and assessing core and chip sample recoveries and results
assessed.
·
Measures taken
to maximise sample recovery and ensure representative nature of the
samples.
·
Whether a
relationship exists between sample recovery and grade and whether
sample bias may have occurred due to preferential loss/gain of
fine/coarse material.
|
Not applicable-
No drilling reported
|
|
Logging
|
·
Whether core and
chip samples have been geologically and geotechnically logged to a
level of detail to support appropriate Mineral Resource estimation,
mining studies and metallurgical studies.
·
Whether logging
is qualitative or quantitative in nature. Core (or costean,
channel, etc) photography.
·
The total length
and percentage of the relevant intersections
logged.
|
Not applicable-
No drilling reported
|
|
Sub- sampling techniques and sample
preparation
|
·
If core, whether
cut or sawn and whether quarter, half or all core
taken.
·
If non-core,
whether riffled, tube sampled, rotary split, etc and whether
sampled wet or dry.
For all sample types, the nature, quality and appropriateness
of the sample preparation technique.
·
Quality control
procedures adopted for all sub-sampling stages to maximise
representivity of samples.
·
Measures taken
to ensure that the sampling is representative of the in situ
material collected, including for instance results for field
duplicate/second-half sampling.
·
Whether sample
sizes are appropriate to the grain size of the material being
sampled.
|
Not applicable-
No drilling reported
|
|
Criteria
|
JORC Code explanation
|
Commentary
|
|
Quality of assay data and laboratory tests
|
·
The nature,
quality and appropriateness of the assaying and laboratory
procedures used and whether the technique is considered partial or
total.
·
For geophysical
tools, spectrometers, handheld XRF instruments, etc, the parameters
used in determining the analysis including instrument make and
model, reading times, calibrations factors applied and their
derivation, etc.
·
Nature of
quality control procedures adopted (eg standards, blanks,
duplicates, external laboratory checks) and whether acceptable
levels of accuracy (ie lack of bias) and precision have been
established.
|
No drilling reported.
Fleet Space Technologies conducted
the ANT survey.
· The ANT
data was acquired using 96 Fleet Space Technology Geodes
· The Geode
specifications are as follows:
- 1-component (vertical) 2Hz geophones
- Sensitivity: 260 V/m/s
- Sampling rate: 20Hz
- Recording mode:
continuous
- Preamplifier gain: 32
(linear)
|
|
Verification of sampling and assaying
|
·
The verification
of significant intersections by either independent or alternative
company personnel.
·
The use of
twinned holes.
·
Documentation of
primary data, data entry procedures, data verification, data
storage (physical and electronic) protocols.
·
Discuss any
adjustment to assay data.
|
ANT - Data and model received is
preliminary in nature and is being reviewed by Fleet Space
Technologies.
|
|
Location of data points
|
·
Accuracy and
quality of surveys used to locate drill holes (collar and down-hole
surveys), trenches, mine workings and other locations used in
Mineral Resource estimation.
·
Specification of
the grid system used.
·
Quality and
adequacy of topographic control.
|
No drilling reported
§ ANT - Data
using a handheld GPS
§ GDA94 Zone
53.
|
|
Data spacing and distribution
|
·
Data spacing for
reporting of Exploration Results.
·
Whether the data
spacing and distribution is sufficient to establish the degree of
geological and grade continuity appropriate for the Mineral
Resource and Ore Reserve estimation procedure(s) and
classifications applied.
·
Whether sample
compositing has been applied.
|
ANT line spacing which is
approximately 150 m and 130 m in the two surveys is appropriate for
exploration purposes
|
|
Orientation of data in relation to
geological structure
|
·
Whether the
orientation of sampling achieves unbiased sampling of possible
structures and the extent to which this is known, considering the
deposit type.
·
If the
relationship between the drilling orientation and the orientation
of key mineralised structures is considered to have introduced a
sampling bias, this should be assessed and reported if
material.
|
ANT grid covers the roughly
East-West trending weathered zone.
|
|
Sample security
|
·
The measures
taken to ensure sample security.
|
No sampling reported
|
|
Audits or reviews
|
·
The results of
any audits or reviews of sampling techniques and
data.
|
None undertaken
|
|
Criteria
|
JORC Code explanation
|
Commentary
|
|
Mineral tenement and land tenure status
|
·
Type, reference
name/number, location and ownership including agreements or
material issues with third parties such as joint ventures,
partnerships, overriding royalties, native title interests,
historical sites, wilderness or national park and environmental
settings.
·
The security of
the tenure held at the time of reporting along with any known
impediments to obtaining a licence to operate in the
area.
|
Exploration results are reported on
EL 6529 in South Australia held 100% by spencer Metals Pty
ltd.
Thor holds 80 % interest in the
Alford East Project
The tenement is secure under SA
legislation and is in good standing.
|
|
Exploration done by other
parties
|
·
Acknowledgment
and appraisal of exploration by other parties.
|
|
|
Geology
|
·
Deposit type,
geological setting and style of mineralisation.
|
Primary deposits in the region are
considered to be of Iron Oxide Copper Gold (IOCG) affinity, related
to the 1590Ma Hiltaba/GRV event. Cu-Au-Mo-Pb mineralisation is
structurally controlled and associated with significant metasomatic
alteration and deep weathering or kaolinisation of host
rocks.
|
|
Drill hole Information
|
·
A summary of all
information material to the understanding of the exploration
results including a tabulation of the following information for all
Material drill holes:
o easting and northing of the
drill hole collar
o elevation or RL (Reduced
Level - elevation above sea level in metres) of the drill hole
collar
o dip and azimuth of the
hole
o down hole length and
interception depth
o hole
length.
·
If the exclusion
of this information is justified on the basis that the information
is not Material and this exclusion does not detract from the
understanding of the report, the Competent Person should clearly
explain why this is the case.
|
No drilling has been undertaken or
reported
|
|
Data aggregate n methods
|
·
In reporting
Exploration Results, weighting averaging techniques, maximum and/or
minimum grade truncations (eg cutting of high grades) and cut-off
grades are usually Material and should be stated.
·
Where aggregate
intercepts incorporate short lengths of high grade results and
longer lengths of low grade results, the procedure used for such
aggregation should be stated and some typical examples of such
aggregations should be shown in detail.
·
The assumptions
used for any reporting of metal equivalent values should be clearly
stated
|
Only field observations have been
reported. There has been no data aggregation.
|
|
Relationship between mineralisaton widths and intercept
lengths
|
·
These
relationships are particularly important in the reporting of
Exploration Results.
·
If the geometry
of the mineralisation with respect to the drill hole angle is
known, its nature should be reported.
·
If it is not
known and only the down hole lengths are reported, there should be
a clear statement to this effect (eg 'down hole length, true width
not known').
|
No drilling has been undertaken or
reported
|
|
Diagrams
|
·
Appropriate maps
and sections (with scales) and tabulations of intercepts should be
included for any significant discovery being reported These should
include, but not be limited to a plan view of drill hole collar
locations and appropriate sectional views.
|
See body of report
|
|
Balanced reporting
|
·
Where
comprehensive reporting of all Exploration Results is not
practicable, representative reporting of both low and high grades
and/or widths should be practiced to avoid misleading reporting of
Exploration Results.
|
ANT data is reported for Alford
East.
|
|
Other substantive exploration data
|
·
Other
exploration data, if meaningful and material, should be reported
including (but not limited to): geological observations;
geophysical survey results; geochemical survey results; bulk
samples - size and method of treatment; metallurgical test results;
bulk density, groundwater, geotechnical and rock characteristics;
potential deleterious or contaminating
substances.
|
All data have been
reported
|
|
Further work
|
·
The nature and
scale of planned further work (eg tests for lateral extensions or
depth extensions or large-scale step- out
drilling).
·
Diagrams clearly
highlighting the areas of possible extensions, including the main
geological interpretations and future drilling areas, provided this
information is not commercially sensitive.
|
It is anticipated that the weathered
zone identified from the ANT survey will be drill tested to
evaluate hydrogeological parameters.
|
|
|
|
|
|
| |