TORONTO, Nov. 6, 2023
/CNW/ - Denison Mines Corp. ("Denison" or the
"Company") (TSX: DML) (NYSE American: DNN) is pleased to announce
the successful completion of the inaugural In-Situ
Recovery ("ISR") field test program within the Tthe Heldeth Túé
uranium deposit ("THT") at the Company's 67.41% owned Waterbury
Lake Uranium Project ("Waterbury"), which is located
in northern Saskatchewan,
Canada and is situated in close proximity to key regional
infrastructure, including roads, the provincial power grid, and
Denison's 22.5%-owned McClean Lake mill (see Figure 1). View PDF
version
The THT ISR field test involved the installation of an 8-well
ISR test pattern ("Test Pattern") designed to collect an extensive
database of hydrogeological data, and the program successfully
achieved each of its planned objectives, including:
- Confirmed Hydraulic
Conductivity: Pump and injection tests were successfully
completed within the Test Pattern, validating
hydraulic connectivity in 100% of the test wells within
the ore zone, and achieving hydraulic conductivity values (a
measure of permeability) consistent with the 2020 Preliminary
Economic Assessment ("PEA") for the
project. Sufficient permeability within the ore zone is a key
criteria for the successful deployment of the ISR mining
method.
- Established 10-hour Breakthrough Time with Ion Tracer
Test: A subsequent tracer test significantly increased
the confidence in the initial hydrogeological evaluations (pump and
injection tests) within the Test Pattern. The tracer test
demonstrated Denison's ability to maintain hydraulic control
of injected solutions and achieve breakthrough times
consistent with expectations.
- Demonstrated the Effectiveness of Permeability
Enhancement: One method of permeability enhancement was
successfully deployed from multiple
wells demonstrating the suitability of the method to the THT
deposit. Efficiency of permeability enhancement was verified
by comparison of pre- and post-permeability enhancement hydraulic
testing.
David Cates, Denison's President
and Chief Executive Officer, commented
"Our recently
completed ISR de-risking efforts at THT
demonstrate the competitive advantage of our in-house
Saskatoon-based
technical team. While there is no short-cut for the
collection of
key project-specific technical
data, our team developed a program for
THT that
leveraged our experience
and maximized the value of our time and
efforts in the field. The program
was completed safely and delivered excellent results,
confirming our previous
expectations that THT can
be amenable to ISR mining and should be
considered as a potentially low-cost and highly prospective uranium
development project.
Despite higher uranium prices, many
potential projects in the uranium mining industry struggle to
meaningfully advance towards a future development or
restart decision.
We continue to meaningfully invest in our exploration and
development pipeline projects, and the results from the ISR field
test program support
bringing THT forward for
additional evaluation, and
reinforce the
project's potential
to become Denison's second ISR uranium
mine development asset in the Athabasca Basin".
In November 2020, an independent PEA was completed for
Waterbury evaluating the potential use of the ISR mining method at
THT. The PEA demonstrated robust economics for a small-scale
Athabasca Basin ISR mining
project, highlighted by an estimated all-in cost per pound
U3O8 of US$24.93 and a pre-tax internal rate of
return estimated at 50.0% based on a uranium selling
price of US$65.00 per pound
U3O8 (see press release dated
November 17, 2020).
The PEA included recommendations to further advance the
technical de-risking of the project with the collection
of site-specific data. As the PEA is preliminary in
nature, there is no certainty that the results of the PEA will be
realized and mineral resources that are not mineral reserves do not
have demonstrated economic viability.
2023 ISR Field Test
Program
The 2023 ISR field test program was designed to validate the
permeability of THT, and to collect a database of hydrogeological
and metallurgical data to further evaluate the ISR mining
conditions present at the deposit. This data is expected
to de-risk the ISR requirements related to permeability and is to
be further incorporated into ISR mine planning efforts as
part of the completion of a potential future Pre-Feasibility Study
("PFS") for THT.
The Test Pattern consists of 8 small diameter wells in the
Eastern Pod of THT (see Figure 2) – made up of
four monitoring wells, two pump/injection wells, one Vibrating Wire
Piezometer ("VWP") and one recharge well. Each test well was
drilled to their target depths and, as
applicable, outfitted with well screens and/or pressure
monitoring devices.
Core collected from the test wells within the mineralized
zone is also expected to allow Denison to verify and update
the current mineral resource estimate for the
deposit and support future wellfield design and mineral
processing assessments.
Successful Completion of
Hydrogeologic Test Work
The 2023 ISR field test program included preliminary
hydrogeological tests completed by using the test wells to move
water through the Test Pattern. Measurements of the movement
of water (hydraulic pressure changes) within the ore zone provide
evidence of the hydraulic conditions present and are indicative of
the potential movement of mining solution in an ISR mining
operation. Over 20 different pump, injection, or slug tests
were completed during the program.
Results from the hydrogeological testing produced
hydraulic conductivity values consistent with the PEA.
Importantly, 100% of the wells located within the Test Pattern
showed hydraulic connectivity with another test well.
Additional supportive test work completed during the program
included permeability and porosity tests conducted either downhole
or on mineralized drill core recovered during the test program.
Execution of Ion Tracer
Test
Following hydrogeologic testing, a 2-hole ion tracer test was
completed within the Test Pattern. The ion tracer was injected into
GWA-003A (Injection well), with pumping occurring from the
extraction well (GWA-002). Water recovered from the
extraction well was then recirculated until concentrations of
the ion tracer stabilized.
After completion of the ion tracer test, remediation was
then conducted to demonstrate the ability to remove injected
tracer fluid from the Test Pattern. Injection was halted at the
injection well and the extraction well continued to pump to remove
the remaining injected ion tracer. Based upon tracer concentrations
measured during the two-day clean-up period, 89% of the injected
tracer mass was recovered in the extraction well.
Vertical hydraulic control during the tracer test was confirmed
through monitoring of the VWP installed in GWA-004, which
provided pressure recordings at 3 positions in the
sandstone above the mineralized zone, 3 positions in the
mineralized zone, and 2 positions in the basement
horizons. Hydraulic control was also validated through sampling of
the four perimeter monitoring wells for total dissolved solids
("TDS") values before and after the ion tracer test. No
elevated values in TDS were observed outside of the test
area during the ion tracer test, confirming no migration of
the tracer outside of the two-spot pattern.
Demonstration of the
Effectiveness of Permeability Enhancement Method
One method of permeability enhancement was successfully
evaluated on three test wells, with efficiency verified
by comparison of pre- and post-permeability enhancement
hydraulic conductivity tests. Permeability enhancement has
been proven to increase and normalize hydraulic
conductivity in the area proximal to the
wellbore. This is important as it provides a useful tool
for increasing contact of injected fluids with the ore zone to
maximize uranium recoveries in an ISR mining environment.
Collection of Other Supporting
ISR Datasets
In addition to the hydrogeological tests described above,
samples will be collected from the drill core recovered from
the test wells to facilitate (1) assessment of matrix
permeability to inform an initial model of the
hydrogeological variations of the deposit, (2) future column leach
and core leach testing to investigate the uranium extraction curve,
lixiviant requirements, reagent consumption and solution flow
rates; and (3) characterization of hydrogeologic units and
anticipated flow path distribution.
About Waterbury
Lake
Waterbury Lake is owned by the Waterbury Lake Uranium Limited
Partnership, of which Denison Waterbury Corp. (a
wholly-owned subsidiary of Denison) owns 67.41% and
Korea Waterbury Lake Uranium Limited Partnership
("KWULP") owns 32.59%.
KWULP is comprised of a consortium of investors, in which Korea
Hydro & Nuclear Power holds a majority position. More
information about the project is available in the technical report
titled "'Preliminary Economic Assessment for the Tthe Heldeth Túé
(J Zone) Deposit, Waterbury Lake Property, Northern Saskatchewan, Canada' with an
effective date of October 30, 2020" a
copy of which is available on
Denison's website and under its
profile on SEDAR+ at www.sedarplus.ca and
on EDGAR at www.sec.gov/edgar.shtml.
About Denison
Denison is a uranium exploration and development company with
interests focused in the Athabasca
Basin region of northern Saskatchewan,
Canada. The Company has an effective 95% interest in its
flagship Wheeler River Uranium Project, which is the largest
undeveloped uranium project in the infrastructure rich eastern
portion of the Athabasca Basin
region of northern Saskatchewan.
In mid-2023, a Feasibility Study was completed for Wheeler River's
Phoenix deposit as an ISR mining
operation, and an update to the previously prepared PFS was
completed for Wheeler River's Gryphon deposit as a conventional
underground mining operation. Based on the respective studies, both
deposits have the potential to be competitive with the lowest cost
uranium mining operations in the world. Permitting efforts for the
planned Phoenix ISR operation commenced in 2019 and have advanced
significantly, with licensing in progress and a draft Environmental
Impact Statement submitted for regulatory and public review in
October 2022.
Denison's interests in Saskatchewan also include a 22.5% ownership
interest in the McClean Lake Joint Venture, which owns several
uranium deposits and the McClean Lake uranium mill, contracted to
process the ore from the Cigar Lake mine under a toll milling
agreement, plus a 25.17% interest in the Midwest Main and Midwest A
deposits and a 67.41% interest in the THT and Huskie deposits on
the Waterbury Lake property. The Midwest Main, Midwest A, THT and
Huskie deposits are located within 20 kilometres of the McClean
Lake mill.
Through its 50% ownership of JCU (Canada) Exploration Company, Ltd ('JCU'),
Denison holds additional interests in various uranium project joint
ventures in Canada, including the
Millennium project (JCU, 30.099%), the Kiggavik project (JCU,
33.8118%) and Christie Lake (JCU,
34.4508%).
Denison's exploration portfolio includes further interests in
properties covering approximately 285,000 hectares in the
Athabasca Basin region.
Follow Denison on Twitter @DenisonMinesCo
Qualified Persons
The technical information contained in this release has been
reviewed and approved by Mr. Chad
Sorba, P.Geo., Denison's Director, Technical Services, who
is a Qualified Person in accordance with the requirements of NI
43-101.
Cautionary Statement Regarding
Forward-Looking Statements
Certain information contained in this news release
constitutes 'forward-looking information', within the meaning of
the applicable United States and
Canadian legislation, concerning the business, operations and
financial performance and condition of Denison. Generally,
these forward-looking statements can be identified by the use of
forward-looking terminology such as 'potential', 'plans',
'expects', 'budget', 'scheduled', 'estimates', 'forecasts',
'intends', 'anticipates', or 'believes', or the negatives and/or
variations of such words and phrases, or state that certain
actions, events or results 'may', 'could', 'would', 'might' or
'will' 'be taken', 'occur' or 'be
achieved'.
In particular, this news release contains forward-looking
information pertaining to the following: scope, objectives
and interpreted results of the ISR test
program at THT; future plans and objectives for
Waterbury, including further studies, analysis and a potential
future resource estimate update and PFS; and
expectations regarding its joint venture ownership interests and
the continuity of its agreements with its partners and third
parties.
Forward looking statements are based on the opinions and
estimates of management as of the date such statements are made,
and they are subject to known and unknown risks, uncertainties and
other factors that may cause the actual results, level of activity,
performance or achievements of Denison to be materially different
from those expressed or implied by such forward-looking statements.
For example, the modelling and assumptions upon which the plans
for Waterbury Lake are based may not be
maintained after further work is completed. In addition,
Denison may decide or otherwise be required to
discontinue testing, evaluation and
other work if it is unable to maintain or otherwise
secure the necessary resources (such as testing facilities, capital
funding, regulatory approvals, etc.). Denison believes that
the expectations reflected in this forward-looking information are
reasonable but no assurance can be given that these expectations
will prove to be accurate and results may differ materially from
those anticipated in this forward-looking information. For a
discussion in respect of risks and other factors that could
influence forward-looking events, please refer to the factors
discussed in Denison's Annual Information Form dated March 27,
2023 or subsequent quarterly financial reports
under the heading 'Risk Factors'. These factors are not, and should
not be construed as being exhaustive.
Accordingly, readers should not place undue reliance on
forward-looking statements. The forward-looking information
contained in this news release is expressly qualified by this
cautionary statement. Any forward-looking information and the
assumptions made with respect thereto speaks only as of the date of
this news release. Denison does not undertake any obligation to
publicly update or revise any forward-looking information after the
date of this news release to conform such information to actual
results or to changes in Denison's expectations except
as otherwise required by applicable legislation.
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SOURCE Denison Mines Corp.