TORONTO, March 24,
2023 /CNW/ - Laramide Resources Ltd.
("Laramide" or the "Company") (TSX: LAM) (ASX: LAM)
(OTCQX: LMRXF) is pleased to announce completion of the
initial diamond drilling phase of the project ramp-up at its 100%
owned NRC licensed Crownpoint-Churchrock Uranium Project,
near Gallup, New Mexico, USA
("Crownpoint"). The diamond drill program, having a total
drilled length of 6,030 feet (1,838 meters) was comprised of seven
drill holes located in areas of uranium mineralization within
Section 17, Township 16 North South, Range 16 West and located
along the boundary between Section 17 and Section 8. Three of these
drill holes were "twin holes" drilled within 20 feet (ft) of
historic drill holes designed to confirm the stratigraphic position
of uranium mineralization, the relative thicknesses of mineralized
intervals, the range of uranium grades that were encountered in the
historical drill holes and to provide drill core for chemical
assays and radiometric equilibrium analysis. The project is being
managed by NuFuels, Inc., a wholly owned subsidiary of Laramide
Resources Ltd., which oversees Laramide's uranium asset portfolio
in the United States. As reported
on December 13, 2022, and
January 23, 2023, Laramide has
appointed SLR International Corporation ("SLR") of Denver,
Colorado, to complete an NI 43-101 Preliminary Economic
Assessment ("PEA") with respect to the Churchrock Uranium
Project (the "Project").
Crownpoint consists of two discrete ISR-amenable
deposits, Crownpoint and Churchrock, covered by a single
NRC license (SUA-1580). The PEA envisions that uranium will
be mined by in situ recovery (ISR) methods at only the Churchrock
location and recovered in a proposed new processing facility at the
nearby Crownpoint location where
significant project infrastructure already exists. When completed
in Q2 2023, the PEA will provide estimates of project economics
based on ISR mining of estimated mineral resources in Section 8 of
the Churchrock NRC license area, recovery factors, and
life-of-project permitting, capital, operating, and reclamation
cost estimates for the mine area and the proposed Crownpoint processing facility.
The recent drilling conducted at Churchrock confirmed that
historical drilling results are suitable for resource estimations
and agreed with previous studies showing there is low risk of
depletion of chemical uranium compared to radiometric uranium in
the Churchrock mineralization, and will also provide core for the
test work necessary to obtain the New Mexico Aquifer Discharge
Permit, the final material permit needed for the project.
Upon completion of drilling, each drill hole on the Project was
logged with a suite of geophysical tools including natural-gamma,
spontaneous potential (SP), and resistivity. All downhole
logging was conducted by COLOG. Natural gamma logging is an
industry-standard procedure for estimating equivalent uranium
grades and was utilized in historic drill campaigns at Churchrock.
Recovered drill core from the new holes was logged by project
geologists for lithology and mineralization, and one-half splits
were collected for direct geochemical analysis of uranium at Energy
Laboratories, Inc. in Casper, Wyoming.
The results of the recent drilling confirmed the location and
tenor of uranium roll fronts at Churchrock (Figure 2).
Chemical assays of uranium were compared to recent and historic
gamma-equivalent uranium grades from the Westwater Canyon B Sand
(Jmw B) which was the primary target of the 2022 drill program and
the primary mineralized sand targeted for ISR mining in Section 8
are shown in Table 1. Chemical assays show an average
thickness of 18.3 ft of 0.061% U3O8, compared
to a gamma-equivalent average thickness of 21.7 ft at 0.045%
eU3O8. Comparing historic twin holes
against holes completed in 2022 for equivalent grade (Table 2)
showed an average thickness of 15.8 ft at 0.039%
eU3O8 compared to an average thickness of
20.5 ft at 0.046% U3O8 from the nearby
historic holes. Both comparisons favorably validate that the
historic drilling results are suitable for declaring Mineral
Resources.
From a grade thickness standpoint (grade thickness ("GT")
defined as the grade multiplied by the thickness of a mineralized
intercept), all of the holes tabled below had GT's in excess of 0.3
%-ft which is the minimum GT considered typical for mining by
ISR.
Table 1: Comparison of Gamma-Indicated and Chemically-Measured
Uranium in 2022 Drill Holes
|
2022 Drill
Hole
|
Thickness
(ft)
|
Gamma-
Indicated U3O8
(%)
|
Grade x
Thickness*
|
Thickness
(ft)
|
Chemical
U3O8 (%)
|
Grade x
Thickness
*
|
|
DHID-01
|
27.0
|
0.064
|
1.73
|
27.0
|
0.064
|
1.73
|
|
DHID-02
|
34.3
|
0.044
|
1.49
|
22.0
|
0.058
|
1.27
|
|
DHID-05
|
15.0
|
0.051
|
0.77
|
14.0
|
0.065
|
0.91
|
|
DHID-06
|
25.1
|
0.036
|
0.90
|
22.5
|
0.052
|
1.17
|
|
DHID-07
|
7.3
|
0.030
|
0.22
|
6.0
|
0.067
|
0.40
|
|
Average
|
21.7
|
0.045
|
0.98
|
18.3
|
0.061
|
1.12
|
|
*Grade-Thickness is the
average grade across the mineralized interval multiplied by the
cumulative thickness of the mineralized interval.
|
Table 2: Comparison of Gamma-Indicated and Chemically-Indicated
Uranium in Twin Holes
|
2022 Drill
Hole
|
Thickness
(ft)
|
Chemical
U3O8 (%)
|
Grade x
Thickness*
|
Historic
Drill Hole
|
Thickness
(ft)
|
Gamma-
Indicated
U3O8 (%)
|
Grade x
Thickness*
|
|
DHID-05
|
15.0
|
0.051
|
0.77
|
S17-
DH51/28
|
15.5
|
0.054
|
0.84
|
|
DHID-06
|
25.1
|
0.036
|
0.90
|
S17-
DH51/30
|
28.5
|
0.053
|
1.51
|
|
DHID-07
|
7.3
|
0.030
|
0.22
|
S17-
DH51/32
|
17.5
|
0.032
|
0.56
|
|
Average
|
15.8
|
0.039
|
0.62
|
|
20.5
|
0.046
|
0.95
|
|
*Grade-Thickness is the
average grade across the mineralized interval multiplied by the
cumulative thickness of the mineralized interval.
|
Mineralized core from the recently completed program will also
be used by NuFuels in a planned laboratory-scale program carried
out jointly with the US Department of Energy's Los Alamos, New Mexico laboratories to
demonstrate the capacity to restore groundwater geochemical
conditions to levels that existed prior to uranium recovery through
the application of ISR methods. The objectives for this program are
as follows:
- Complete a bench level testing program in support of
the New Mexico State discharge permit application;
- Replicate the in-situ uranium chemistry and recovery
characteristics at the laboratory scale;
- Determine ISR mining reaction kinetics data specific to the ore
body;
- Duplicate expected reverse osmosis (RO) restoration chemistry
characteristics and evaluate the results;
- Examine uranium and other trace element concentrations after
simulated reverse osmosis treatment and sulfide treatment;
- Record pH and clay mineralogy of the (laboratory) leached
samples; and,
- Examine uranium and other potential trace metals concentrations
for rebound during a post restoration stability period.
Background on Churchrock
properties:
The Churchrock properties within the Crownpoint Project
consist of 4,053 acres within the historic Grants Mining District
in McKinley County, New
Mexico. The Project is a compilation of significant
historical work completed by major mining and energy companies. The
United States Nuclear Regulatory Commission (NRC) has granted a
license for production of uranium from sections of Churchrock.
In 2017, SLR formerly known as Roscoe Postle Associates
Inc. ("RPA") produced a Technical Report on the Churchrock
properties from drill hole data available as of September
2017. Data from previous operators was consolidated and digitized
resulting in a database of 1,667 drill holes totaling 1,841,545 ft
of drilling. Using a 0.5 ft-%
eU3O8 Grade Thickness (GT) cut-off, the
Inferred Mineral Resource totals 33.9 million short tons (Mst) at
an average grade of 0.08% eU3O8 for a
contained metal content of 50.8 million pounds (Mlb)
U3O8.
The current Mineral Resource is classified as Inferred based on
the historic nature of the drilling data and drill hole density
along mineralized trends contained within the sandstone units of
the Brushy Basin and Westwater Canyon Members of the Morrison
Formation.
A discharge permit for the underground injection and control
associated with the Project will be required by New Mexico Water
Quality Control Commission rules. Test work in support of this
discharge permit is described above.
Technical information contained in this news release has been
reviewed and approved by Mark B.
Mathisen, C.P.G., Principal Geologist, SLR Consulting
International Corp. who is considered to be a Qualified Person as
defined in "National Instrument 43-101, Standards of Disclosure for
Mineral Projects".
Follow us on Twitter @LaramideRes
About Laramide Resources
Ltd.:
Laramide is engaged in the exploration and development of
high-quality uranium assets. Its wholly owned uranium assets are in
Australia and the United States. Each of Laramide's
portfolio of five advanced uranium projects have been chosen for
their production potential. Laramide's Westmoreland project, in Queensland, Australia, is one of the largest
projects currently held by a junior mining company. Its U.S. assets
include Crownpoint-Churchrock Uranium Project which covers two
project areas including, a large ISR project and a former uranium
mining operation; La Jara Mesa in the historic Grants, New Mexico mining district; and
La Sal, a fully permitted,
underground project in Lisbon Valley, Utah.
This press release contains forward-looking statements. The
actual results could differ materially from a conclusion, forecast
or projection in the forward-looking information. Certain material
factors or assumptions were applied in drawing a conclusion or
making a forecast or projection as reflected in the forward-looking
information.
SOURCE Laramide Resources Ltd.