FPX Nickel Corp.
(FPX-TSX.V) (“
FPX
Nickel” or the “
Company”) is pleased to
report the commencement of the first-ever field tests which are
designed to confirm the potential for the development of a low- or
zero-carbon mining operation at its Baptiste Project in the Decar
Nickel District in central British Columbia. The field tests,
initiated in August by researchers from the University of British
Columbia (“
UBC”), build on previous positive
laboratory tests, which have demonstrated that the Baptiste
Project’s tailings can absorb considerable quantities of carbon
dioxide (“
CO2”) when exposed to air through a
natural process of mineral carbonation.
Highlights
- Current field testing builds on a strong foundation of
laboratory testing dating back to 2016 which has demonstrated the
potential, and controls for, carbon capture by Baptiste tailings by
both direct air capture and CO2 injection from flue gas
- Field tests, from August to October 2020, are being conducted
on splits of a 300 kilogram sample to simulate the rate and volume
of carbon sequestration by direct air capture of CO2 from Baptiste
tailings under field conditions typical of an eventual mining
operation
- Preliminary testing will also be conducted to provide
indications of the extent to which carbon sequestration may enhance
the geotechnical stability of the host material
“This test program is designed primarily to estimate the
potential of Baptiste tailings to permanently sequester significant
quantities of carbon dioxide by direct air capture under natural
conditions as a consequence of the proposed mining and milling
process,” commented Martin Turenne, FPX Nickel’s President and CEO.
“The Baptiste Project has the potential to be a global leader in
the large-scale production of low- or zero-carbon nickel for
decades to come. We look forward to sharing the results of these
field tests in the coming months.”
Background
The field tests are being overseen by UBC’s Dr. Greg Dipple, who
has been investigating carbon capture in mine tailings for over a
decade, and specifically the potential of the Baptiste Project
tailings since 2016. Dr. Dipple is an international leader in
the research of carbon sequestration; his studies have incorporated
findings from several operating sites, including BHP’s Mt. Keith
nickel mine in Australia and DeBeers’ Diavik diamond operations in
Canada’s Northwest Territories.
Detailed mineralogical examination conducted by the UBC research
team has shown that the amount of CO2 that can be sequestered in
ultramafic host rock is strongly controlled by the amount of the
mineral brucite (Mg(OH) 2), which when exposed to air, through a
natural process of carbon mineralization, forms solid magnesium
carbonate which is geologically stable. This team has also
developed a method for determining the amount of brucite in each
assay sample within the Baptiste mineral resource, allowing for the
potential development of a targeted approach to carbon
sequestration over the life of an eventual mining operation at
Baptiste.
Previous test results suggest that the principal rate-limiting
factor on the amount of CO2 sequestration in Baptiste material is
the volume of CO2 available for exposure to the brucite contained
in the host rock. These results suggest further avenues of study to
investigate various engineering options to improve the contact rate
between CO2 and brucite.
Carbon sequestration can also occur via the reaction of CO2 with
the serpentine minerals which are also present in the Baptiste
Project, though this reaction is significantly weaker than the CO2
reaction with brucite.
2020 Test Program
The field work is designed to test the rate and amount of carbon
capture from direct air exposure and to assess how this process is
affected by normal climactic changes typical of central British
Columbia. A portion of the sample material is being fully
exposed to local weather conditions throughout the field
experiment, with another portion forming a control sample in a
covered outdoor area.
This work will be completed on a representative mineralized
composite sample of approximately 300 kilograms of assay reject
material from drill holes, ground to the similar sizes as the
anticipated tailings in a potential mining operation.
The test program is being conducted in two stages. The first
stage comprises a field test in August at an outdoor location in
Prince George which approximates the climactic conditions at the
Decar Nickel District. The second stage comprises an extended study
to be conducted both outdoors and in a laboratory in the Vancouver
area in September and October. Testing during this latter
stage will assess the rate and quantity of carbon capture by
exposure of Baptiste material to air and to injected CO2 gas.
In addition to the geochemical tests assessing the rate and
quantity of carbon sequestration, tests during both stages of the
program will be conducted to measure the change in the physical
properties of the crushed rock sample, particularly to understand
the extent to which the carbon sequestration process may enhance
the geotechnical stability of the host material.
The Company has engaged a senior consulting engineering firm to
provide input on the design and execution of the UBC test programs,
to assist in the interpretation of test results, and to guide
future work programs which could ultimately support the
incorporation of carbon sequestration parameters into the tailings
design for the Baptiste Project.
The Company expects to report the preliminary findings of the
August field trial in the first quarter of 2021, and to report the
final findings of the entire 2020 test program (including both the
August field trial and subsequent field and lab testing from
September-October) by the second quarter of 2021.
Funding for the Baptiste field test has been provided, in part,
by the Government of Canada’s Clean Growth Program, which in 2019
awarded a $2 million grant to researchers from UBC, Trent
University, University of Alberta and Université INRS, working in
collaboration with mining companies including FPX Nickel Corp. and
De Beers Group. For further information on this government
grant, see FPX Nickel’s news release dated July 24, 2019.
Dr. Peter Bradshaw, P. Eng., FPX Nickel’s Qualified Person under
NI 43-101, has reviewed and approved the technical content of this
news release.
About the Decar Nickel District
The Company’s Decar Nickel District claims cover 245 square
kilometres of the Mount Sidney Williams ultramafic/ophiolite
complex, 90 km northwest of Fort St. James in central British
Columbia. The District is a two hour drive from Fort St. James on a
high-speed logging road.
Decar hosts a greenfield discovery of nickel mineralization in
the form of a naturally occurring nickel-iron alloy called
awaruite, which is amenable to bulk-tonnage, open-pit mining.
Awaruite mineralization has been identified in four target areas
within this ophiolite complex, being the Baptiste Project, the B
target, the Sid target and Van target, as confirmed by drilling in
the first three plus petrographic examination, electron probe
analyses and outcrop sampling on all four. Since 2010, more
than $25 million has been spent on the exploration and development
of Decar.
Of the four targets in the Decar Nickel District, the Baptiste
Project has been the main focus of diamond drilling since 2010,
with a total of 82 holes and over 31,000 metres of drilling
completed. The Sid target was tested with two holes in 2010
and the B target had a single hole drilled into it in 2011; all
three holes intersected nickel-iron alloy mineralization over wide
intervals with DTR nickel grades comparable to the Baptiste
Project. The Van target was not drill-tested at that time as
rock exposure was very poor prior to logging activity by forestry
companies.
As reported in a NI 43-101 resource estimate prepared on
February 26, 2018, the Baptiste deposit contains 1.843 billion
tonnes of indicated resources at an average grade of 0.123% DTR
nickel, for 2.3 million tonnes of DTR nickel, and 391 million
tonnes of inferred resources with an average grade of 0.115% DTR
nickel, for 0.4 million tonnes of DTR nickel, reported at a cut-off
grade of 0.06%. Mineral resources are not mineral reserves
and do not have demonstrated economic viability.
About FPX Nickel Corp.
FPX Nickel Corp. is focused on the exploration and development
of the Decar Nickel District, located in central British Columbia,
and other occurrences of the same unique style of naturally
occurring nickel-iron alloy mineralization known as awaruite. For
more information, please view the Company’s website at
www.fpxnickel.com or contact Martin Turenne, President and CEO, at
(604) 681-8600 or ceo@fpxnickel.com.
On behalf of FPX Nickel Corp. "Martin Turenne" Martin Turenne,
President, CEO and Director
Forward-Looking StatementsCertain of the
statements made and information contained herein is considered
“forward-looking information” within the meaning of applicable
Canadian securities laws. These statements address future events
and conditions and so involve inherent risks and uncertainties, as
disclosed in the Company's periodic filings with Canadian
securities regulators. Actual results could differ from those
currently projected. The Company does not assume the obligation to
update any forward-looking statement.
Neither the TSX Venture Exchange nor its Regulation Services
Provider accepts responsibility for the adequacy or accuracy of
this release.
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