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![Lac Carheil Expanded Footprint, Drilling Fully Permitted](https://investingnews.com/media-library/image.png?id=52337777&width=1200&height=800)
Lac Carheil Expanded Footprint, Drilling Fully Permitted
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Metals Australia
Overview
Metals Australia (ASX:MLS) is a mineral exploration company with a high-quality portfolio of advanced battery minerals and metals projects in Tier 1 mining jurisdictions of Western Australia and Canada. The portfolio comprises two critical minerals projects in Quebec, Canada — the Lac Carheil flake graphite project and the Corvette River lithium (and gold) project. The Australian portfolio comprises four projects: Tennant Creek (copper-gold) in the Northern Territory and Warrambie (lithium, nickel-copper, gold), Murchison (gold) and Manindi (lithium, vanadium-titanium, zinc) – all in Western Australia.
The push for net zero targets and the call from policymakers to transition to cleaner energy has intensified the focus on electric vehicles (EVs) and battery storage. The EV automakers and battery manufacturers, rely on essential materials such as graphite and metals, including lithium, nickel, copper and cobalt, to manufacture the batteries that are used in these vehicles and storage batteries generally. This has driven carmakers and battery manufacturers to partner with battery material suppliers under direct off-take agreements. Further, some automakers/battery manufacturers are buying equity stakes in miners, involving them directly in financing decisions for the development of mining projects. This is encouraging for companies such as Metals Australia as it actively advances its projects towards development.
Figure 2 – Graphite is a Critical Mineral required for the mass electrification of auto transportation.
Metals Australia is focused on progressing its flagship Lac Carheil flake graphite project in Quebec, Canada. The project is well-positioned to supply high quality graphite products, including battery-grade graphite to the North American market – including for lithium-ion and EV battery production in the future. The company announced positive sampling results across a 36-km strike length of identified graphite trends at Lac Carheil, including many values over 20% Cg and an exceptionally high-grade sample containing over 63% Cg. The company has planned a drilling program to test new high-grade zones identified from the sampling program, which will form the basis for upgrading the existing Lac Carheil Mineral Resource. An application for the drilling program is progressing with the Quebec regulator. Additionally, the company has recently commenced a Flake Graphite concentrate prefeasibility study with Lycopodium in Ontario and a downstream battery anode plant design with ANZAPLAN in Germany.
Metals Australia is also advancing its lithium, gold and silver exploration project at Corvette River, which is adjacent to Patriot Battery Metals’ world-class lithium project. Further, the company carries out aggressive exploration programs at its other projects, including Manindi, Warrambie & the Murchison in Western Australia and Tennant Creek in the Northern Territory region of Australia.
Metals Australia is well-funded to complete all its planned exploration and project studies. The cash position at the end of Q1 2024 was AU$17.86 million, which we note was higher than the company’s market capital at current share price. Metals Australia benefits from a team of professionals boasting extensive expertise in geology and mining. The appointment of experienced mining executive Paul Ferguson as the CEO is positive for the company. Since joining in January 2024, he has significantly advanced planning and preparation for the exploration, metallurgical test work programs, and design studies required to move its flagship Lac Carheil high-grade graphite project towards development. The Corvette Project has also completed exploration planning and is now fully permitted for drilling and trenching work during the northern hemisphere summer.
Company Highlights
- Metals Australia is rapidly advancing its flag ship Lac Carheil Graphite Project in Quebec, Canada. In addition, the company has a suite of high-quality exploration projects – including Lithium, Gold and Silver in Quebec, Canada and Lithium, Gold, Copper & Vanadium in Western Australia (WA) and the Northern Territory (NT).
- All projects are in Tier-1 mining jurisdictions (Canada and Australia) with world-class prospectivity and stable geo-politically.
- The company has six key exploration and development projects:
- two in Canada: the Lac Carheil high-grade flake graphite project and the Corvette River lithium and gold-silver-copper exploration project, and,
- four in Australia: Warrambie (lithium, nickel-copper, gold), Murchison (gold) and Manindi (lithium, vanadium-titanium, zinc-silver) in WA, and Tennant Creek (Warrego East copper-gold) in the NT.
- The focus is to rapidly advance its flagship Lac Carheil Graphite Project towards development. A drilling program is already contracted to substantially increase the existing JORC 2012 Mineral Resource of 13.3 Mt @ 11.5 percent graphitic carbon (Cg) and test the potential of the many other identified high-grade graphite trends.
- The 2020 Scoping Study on Lac Carheil based on the existing resource, representing only 1km of drilling out of the total 36kms of identified graphite trends, indicates a 14-year mine life with a production of 100,000 tons per annum and a pre-tax NPV @ 8 percent of US$123 million (~AUD$190 million).
- There are multiple catalysts at Lac Carheil in the near term including a pre-feasibility study (PFS) (underway), a scoping study on downstream battery (anode) - grade graphite production, and planned drilling aiming to at least double the resource as well as test other identified high-grade graphite trends.
- Furthermore, other projects in Canada including the Corvette River lithium and gold targets, and exploration in Australia at Manindi, Warrambie, Murchison and Warrego – are all seeing active progress.
- The company is well-funded to complete all its planned exploration and project studies. The cash position at the end of Q1 2024 was AU$17.86 million.
- Metals Australia is led by a seasoned board and management team possessing extensive mining sector experience and a proven track record of successful discoveries and project developments. With funding in place, the company is well-positioned to capitalise on growth prospects.
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Key Projects
Canada
Lac Carheil Flake Graphite Project (MLS 100%)
Conceptual 3D Mining layout from February 2021 Scoping Study (Lac Carheil Project formerly named Lac Rainy Project)
The Lac Carheil Graphite Project is located in eastern Quebec, Canada, a tier 1 mining jurisdiction with access to excellent infrastructure, including hydroelectric power facilities. The project hosts an existing JORC 2012 mineral resource of 13.3 million tons (Mt) @ 11.5 percent graphitic carbon, which was announced in 2020 and a scoping study was completed and reported on in early 2021. Battery test work followed, in Germany, and this demonstrated the Lac Carheil Graphite concentrate could be shaped, purified, coated and used in battery applications with excellent results. Given the above work, the company carried out further field work, recently announcing exceptionally high-grade sampling results from 80 samples on 10 identified graphitic trends across the property. This included a sample containing 63 percent graphitic carbon, and 10 samples containing over 20% Cg. The average grade of the sampling was 11% Cg, which is comparable to the current high-grade resource. The combined strike length of the identified high-grade graphitic zones is over 36 kms. This compares to just 1 km of drilling on 1.6 kms of graphite trend that was utilised to obtain the existing resource. The potential for expanding and upgrading the existing resource remains enormous.
Figure 4 –Lac Carheil Graphite Project - Electromagnetic imagery outlining graphite trends and the resource
Additional drilling and development studies are either planned or are already underway, including a pre-feasibility study for a high grade Flake graphite concentrate product – which has commenced and a downstream purification options assessment and a scoping study for a battery anode facility in North America, which has been contracted. The company also announced it is contract ready for its planned drilling program and will fast-track the program as soon as permits are received from the Quebec regulator.
Corvette River Lithium Project (MLS 100%)
Corvette River Lithium, gold and silver Project is located in Quebec’s James Bay region Metals Australia recently announced that it is fully permitted to advance an extensive field exploration program across its holdings which include the wholly owned East Pontois, Felicie and West Pontois projects, situated within Patriot Battery Metals' (ASX:PMT) CV Lithium Trend, as well as tenements at West and East Eade in the company's parallel Corvette River South Trend. A field mapping and sampling program concluded last year and identified large, potentially lithium-bearing pegmatites immediately along strike from Patriot Battery Metals’ world-class lithium pegmatite discoveries. Additionally, the company has flagged significant gold and silver samples from its review of work previously completed across the field as is illustrated in the diagram below.Figure 5 – The Corvette Projects in the James Bay region of Canada. Prospective for Lithium, Gold & Silver
Australian Projects
Warrambie Project (MLS 80%)
The Warrambie project is located in the Pilbara region of Western Australia. It is 20 kms west of the Andover Lithium discovery (Azure Minerals (ASX:AZS). Metals Australia has completed geophysical surveys across the area and is identifying targets for further field exploration and drilling.
Warrego East Project (MLS 80%)
Metals Australia acquired the tenements as part of a package purchased from Payne Gully Gold in 2022. The company’s tenements include a granted exploration license (E32725) directly along strike to the east of the Warrego copper-gold deposit, which has a production of 1.45 Million Ounces of gold at 8 grams per tonne and over 90,000 tonnes of Copper at 2%. The Warrego mine operated from the late 1950’s through until 1989. It was found under sedimentary cover. The area and this land package is under detailed review utilizing available geophysical surveys. The company aims to identify further targets hidden under shallow sediment cover.
Big Bell North Project (MLS 80%)
The Murchison tenements were also acquired as part of the Payne Gully Gold transaction. Metals Australia owns exploration licenses at the Murchison gold project, which is adjacent to the >5 million ounces (Moz) Big Bell gold deposit. The company plans to conduct detailed magnetics and gravity surveys to test for extensions and repeats of high-grade gold deposits.
Manindi Project (MLS 80%)
The Manindi project is located in the Murchison District, approximately 500 kms northeast of Perth in Western Australia. The project comprises three mining leases and has an established high-grade zinc mineral resource. The metallurgical test work has located spodumene in samples from a high-grade lithium intersection of 12m @ 1.38 percent lithium oxide, including 3m @ 2.12 percent lithium oxide. The company also made a new vanadium-titanium discovery at the Manindi project.Management Team
Paul Ferguson – Chief Executive Officer
A Mining Engineer, Paul Ferguson has over three decades of experience in the resources and energy sectors across North America, Asia and Australia. He has extensive project development and operational experience working in Canada. He has worked in oil & gas major ExxonMobil across project stages, including feasibility, design, construction, and operation. He has worked in Executive level roles within Australia, including at GMA Garnet and held increasingly more senior roles with BHP (Iron Ore & Coking Coal) and then with Exxon Coal Minerals and Mobil Oil Australia during the early stages of his career.
Tanya Newby – CFO and Joint Company Secretary
Tanya Newby is a finance and governance professional with over 20 years experience in various corporate and commercial roles. She has a strong background in the resources sector and has provided financial advice and assistance to a number of publicly listed entities through exploration, project development through to the production stage. Tanya is a member of the Institute of Chartered Accountants, Member of the Governance Institute of Australia and a Graduate Member of the Institute of Company Directors.
Michael Muhling – Joint Company Secretary
Michael Muhling has over two decades of experience in the resources, including 15 years in senior roles with ASX-listed companies. He is a fellow of CPA Australia, The Chartered Governance Institute, and the Governance Institute of Australia.
John Dugdale – Technical Advisor
John Dugdale is a geologist with over 35 years of experience in the discovery and development of graphite, lithium, gold, nickel and copper projects. His corporate experience includes serving as a director and CEO of several junior resource companies focused on nickel-cobalt, graphite and copper-gold projects. Additionally, he has experience in funds management with Lion Selection Group.
Chris Ramsay – General Manager Geology
Chris Ramsay is a geologist and project manager with over 25 years of experience in the global mining industry. He has been involved in exploration, mine development and operations for mining projects in Australasia, Southeast Asia, and parts of Africa and North America.
Board
Michael Scivolo – Non-executive Chairman
Michael Scivolo has extensive accounting and taxation experience for corporate and non-corporate entities. He was a partner/director at a CPA firm until 2011 and has since been consulting in accounting and taxation. Scivolo is on the boards of several ASX-listed mining companies, including Sabre Resources, Golden Deeps and Tennant Minerals Ltd.
Alexander Biggs – Non-executive Director
Alexander Biggs has over 20 years of experience in the mining and engineering sector. During his career, he has been involved in various activities, including operations, consulting, finance and capital raising. He is currently the managing director of Lightning Minerals (ASX) and was previously the managing director of Critical Resources (ASX:CRR). Biggs is a member of the Australian Institute of Mining and Metallurgy and a graduate of the Western Australian School of Mines.
Rachelle Domansky – Non-executive Director
Rachelle Domansky is an ESG specialist and a consulting psychologist for businesses, governments and educational institutions in the Asia-Pacific region. In addition to Metals Australia, Rachelle holds non-executive board positions at Quebec Lithium and Access Plus WA Deaf.
Basil Conti – Non-executive Director
Basil Conti has been associated with the mining industry for over 25 years. He is a fellow of the Institute of Chartered Accountants Australia & NZ and was a partner/director of a chartered accounting firm in West Perth until 2015.
Australian Projects - Warrego East, Manindi, Drill Updates
Top 5 Canadian Mining Stocks This Week: Wealth Minerals Charges Up 64 Percent
Welcome to the Investing News Network's weekly look at the best-performing Canadian mining stocks on the TSX, TSXV and CSE, starting with a round-up of Canadian and US news impacting the resource sector.
The S&P/TSX Venture Composite Index (INDEXTSI:JX) was largely flat with a 0.29 percent gain on the week to close at 621.25 on Friday (January 24). Meanwhile, the S&P/TSX Composite Index (INDEXTSI:OSPTX) posted a 1.6 percent increase to hit 25,468.49, and the CSE Composite Index (CSE:CSECOMP) was up 1.33 percent to reach 137.31.
The week’s big news came on Monday (January 20), when Donald Trump was sworn in as the 47th president of the US. On his first day in office, the president signed dozens of executive orders including two directed at the US resource sector.
The first, Unleashing American Energy, will open federal lands and waters for exploration and development in the oil, gas and uranium sectors. The order will also seek to override energy and emission regulations at the state level, and potentially eliminate electric vehicle subsidies.
The second, Unleashing Alaska’s Extraordinary Resource Potential, targets resource development in Alaska and will seek to end what the administration calls “an assault on Alaska’s sovereignty.” The order will roll back environmental protections in Alaska and work to prioritize the development of liquid natural gas and critical minerals.
Although Donald Trump did not follow through on his promise to impose tariffs on Canada and Mexico on day one of his presidency he did indicate they may be applied on February 1.
He addressed the topic further on Thursday (January 23) in a virtual presentation at the World Economic Forum meeting in Davos, Switzerland. In his remarks, he suggested that the US doesn’t need Canadian exports and that the country has been very difficult to deal with in the past. He also repeated his prior remarks that Canada could avoid tariffs by becoming the 51st state.
North of the border, StatsCan released its November 2024 monthly mineral production survey on Wednesday (January 22). The data shows that copper production declined to 33.23 million kilograms from 38.34 million in October. However, shipments substantially increased to 47.89 million kilograms from 36.05 million the month prior. The total value of shipments in November reached C$487.96 million.
Gold production declined slightly to 16,945 kilograms in November from 17,027 kilograms in October, but like copper, shipments increased to 14,389 kilograms from 13,575 kilograms a month earlier, representing a total value of C$1.71 billion.
Meanwhile, silver production increased to 24,959 kilograms in November compared to 24,550 kilograms in October. Silver shipment volumes were up substantially to 24,047 kilograms from 20,414 kilograms the previous month, for a total value of C$32.66 million.
Markets climbed over the course of the week. The S&P 500 (INDEXSP:INX) was up 1.77 percent to end Friday at 6,101.24 while the Nasdaq 100 (INDEXNASDAQ:NDX) gained 1.45 percent to 21,774.01. Meanwhile, the Dow Jones Industrial Average (INDEXDJX:.DJI) climbed 2.57 percent to 44,424.25.
Gold soared 2.56 percent this week, closing at US$2,770.89 on Friday at 5 p.m. EST. It came close to breaking its all time high earlier in the day, touching the US$2,785 mark. Silver was up as well, although to a lesser degree, closing the week up 0.89 percent at US$30.59. On the other hand, the copper price fell 3.3 percent for the week to close at US$4.31 per pound on the COMEX, and the S&P GSCI (INDEXSP:SPGSCI) was down 1.41 percent to close at 571.13.
So how did mining stocks perform against this backdrop? We break down this week’s five best-performing Canadian mining stocks below.
Data for this article was retrieved at 3:00 p.m. EST on January 24, 2024, using TradingView's stock screener. Only companies trading on the TSX, TSXV and CSE with market capitalizations greater than C$10 million are included. Companies within the non-energy minerals and energy minerals sectors were considered.
1. Wealth Minerals (TSXV:WML)
Weekly gain: 63.64 percent
Market cap: C$28.55 million
Share price: C$0.09
Wealth Minerals is a lithium exploration and development company focused on advancing its Kuska and Yapuckuta projects in Chile.
The more advanced Kuska project covers 10,500 hectares in the Antofagasta region near the Bolivian border. The greenfield site has no past production or exploration, though other companies have carried out surface brine sampling and shallow auger drilling on adjacent properties since 2017.
In February 2024, Wealth Minerals released a preliminary economic assessment (PEA) for Kuska, which demonstrated an indicated resource of 139,000 metric tons of lithium from 8 million cubic meters of brine with an average grade of 175 milligrams per liter (mg/L) lithium, along with an additional inferred resource of 132,000 metric tons of lithium from 7.1 million cubic meters of brine with grades of 185 mg/L.
Wealth Minerals reported post-tax net present value (NPV) of US$1.15 billion, which was calculated at a discounted cash flow of 10 percent, as well as an internal rate of return (IRR) of 28 percent and a payback period of 6.9 years.
The Yapuckuta project is composed of 144 mining concessions covering an area of 46,200 hectares in the northern part of the Salar de Atacama in a region with known lithium and potassium deposits.
Wealth has not released news since September 2024, when it reported that the Chilean government had selected the Salar de Ollagüe to be among the first group of six salars considered for production licenses. Wealth said that it would apply for a special lithium operation contract for its Kuska project, which is located in the Salar de Ollagüe.
2. Star Diamond (TSX:DIAM)
Weekly gain: 60 percent
Market cap: C$18.53 million
Share price: C$0.04
Star Diamond is an exploration and development company working to advance its flagship Fort à la Corne diamond district in Saskatchewan, Canada.
The property is located 60 kilometers east of Prince Albert, Saskatchewan. Previously a joint venture with Rio Tinto (ASX:RIO,NYSE:RIO,LSE:RIO), Star Diamond acquired Rio Tinto’s stake in the project in March 2024 in exchange for 119.32 million shares in Star Diamond, resulting in Rio Tinto holding a 19.9 percent ownership position in Star Diamond.
Fort à la Corne has seen extensive exploration of kimberlite deposits, including geophysical surveys, large-diameter drilling and micro- and macro-diamond analyses.
The Star-Orion South diamond project, the most advanced project area in Star Diamonds' portfolio, is located within the district.
In 2018, the company released a PEA for Star-Orion South, which reported a resource of 27.15 million carats of diamonds from 200.16 million metric tons with an average grade of 14 carats per 100 metric tons. The inferred resource is 5.18 million carats from 72.08 million metric tons, with an average grade of 7 carats per 100 metric tons.
At the time, the company estimated a post-tax NPV of C$2 billion, an IRR of 19 percent and a payback period of 3 years and 5 months.
The company's most recent news came on January 9, when it announced that a 70.7 million share block held by a former project partner had been sold, with 61.12 million shares purchased by an international investor interested in diamonds.
3. Belo Sun Mining (TSX:BSX)
Weekly gain: 58.82 percent
Market cap: C$67.67 million
Share price: C$0.135
Belo Sun Mining is an exploration and development company focused on advancing its Volta Grande gold project in Brazil.
The property covers approximately 2,400 hectares within the Tres Palmeiras greenstone belt in Para State, Brazil. The company has been working on the project since 2003, and acquired necessary development permits in 2014 and 2017.
A 2015 mineral reserve estimate demonstrated proven and probable resource of 3.79 million ounces of gold from 116 million metric tons of ore with an average grade of 1.02 grams per metric ton (g/t).
Development at the site stalled in 2018 after a federal judge ruled that the Federal Brazilian Institute of the Environment (IBMA) would be the competent authority for issuing environmental permits. The decision was overturned in 2019 with the Secretariat of Environment and Sustainability of the State of Para (SEMAS) reassuming its permitting authority. The decision was once again reversed in September 2023, returning authority to IBMA.
The company's most recent news came on January 23, when it announced that the Federal Court of Appeals had reassigned SEMAS as the permitting authority for the Volta Grande project. The company said it was pleased with the decision, as the agency is familiar with the project and enjoys a constructive and transparent relationship with it.
4. Alaska Energy Metals (TSXV:AEMC)
Weekly gain: 52.38 percent
Market cap: C$23.87 million
Share price: C$0.16
Alaska Energy Metals is an exploration company working to advance its critical mineral properties in Alaska, US, and Québec, Canada.
The company’s flagship property, the Nikolai project, is located in Southeast Alaska and hosts the Eureka deposit. In a resource estimate from a technical report published in February 2024, the company reported the project hosts indicated resources of 813 million metric tons of ore containing indicated metal of 3.88 billion pounds of nickel, 1.28 billion pounds of copper, 303 million pounds of cobalt along with 4 million ounces of platinum.
The company also owns the Angliers project located in Western Québec. The site is composed of 464 mineral claims covering an area of 26,417 hectares in a region known to host mineralized bodies of nickel, copper, platinum-group metals, gold, molybdenum and zinc. The company announced on June 5 that it had entered an agreement that would allow it to acquire an option for 100 percent of the adjacent Bambino nickel and copper property, which would add 57 new claims over 3,320 hectares.
Although the company did not release news this past week, shares gained alongside news that Donald Trump had signed an executive order that would relax regulations and give more authority to the State of Alaska to permit and advance mineral projects.
5. Finlay Minerals (TSX:FYL)
Weekly gain: 44.44 percent
Market cap: C$11.21 million
Share price: C$0.065
Finlay Minerals is an exploration company working to advance a portfolio of projects in BC, Canada.
The company’s Silver Hope property covers 21,691 hectares in the Skeena Arch region of Central BC. It is home to the past-producing Equity Silver mine. The company is working on several advanced targets on the site, including the Main and West, which are home to promising zones that host deposits of copper, silver and molybdenum.
Finlay’s SAY property is a 10,587 hectare site located in the Stikine Terrane, 140 kilometers north of Smithers. It hosts multiple deposits with copper, silver and molybdenum mineralization. Its ATTY property is a 4,498 hectare site in the southern Toodoggone region. The region has known deposits of copper, gold and silver mineralization, and the company has identified two porphyry targets.
The company has been working most recently on the PIL gold property, which is also located in the Toodoggone mining district. A 2016 discovery revealed a significant copper and silver porphyry system and a silver and gold epithermal system.
Hecla Mining (NYSE:HL) subsidiary ATAC Resources previously had an option in place to earn a 70 percent stake in the project. However, in an update released on Monday, Finlay indicated that the agreement was terminated on December 27.
The company also announced results from diamond drill holes in the PIL South target, including a broad interval that measured 0.1 percent copper, 0.05 g/t gold, 7.1 g/t silver and 0.18 percent zinc over 162 meters.
The company added that it was reviewing exploration data and would be assessing the next steps for a 2025 exploration program, with a focus on PIL South, following Amarc Resources' (TSXV:AHR,OTCQB:AXREF) significant AuRORA discovery at its Joy property, which borders PIL South.
FAQs for Canadian mining stocks
What is the difference between the TSX and TSXV?
The TSX, or Toronto Stock Exchange, is used by senior companies with larger market caps, and the TSXV, or TSX Venture Exchange, is used by smaller-cap companies. Companies listed on the TSXV can graduate to the senior exchange.
How many companies are listed on the TSXV?
As of June 2024, there were 1,630 companies listed on the TSXV, 925 of which were mining companies. Comparatively, the TSX was home to 1,806 companies, with 188 of those being mining companies.
Together the TSX and TSXV host around 40 percent of the world’s public mining companies.
How much does it cost to list on the TSXV?
There are a variety of different fees that companies must pay to list on the TSXV, and according to the exchange, they can vary based on the transaction’s nature and complexity. The listing fee alone will most likely cost between C$10,000 to C$70,000. Accounting and auditing fees could rack up between C$25,000 and C$100,000, while legal fees are expected to be over C$75,000 and an underwriters’ commission may hit up to 12 percent.
The exchange lists a handful of other fees and expenses companies can expect, including but not limited to security commission and transfer agency fees, investor relations costs and director and officer liability insurance.
These are all just for the initial listing, of course. There are ongoing expenses once companies are trading, such as sustaining fees and additional listing fees, plus the costs associated with filing regular reports.
How do you trade on the TSXV?
Investors can trade on the TSXV the way they would trade stocks on any exchange. This means they can use a stock broker or an individual investment account to buy and sell shares of TSXV-listed companies during the exchange's trading hours.
Article by Dean Belder; FAQs by Lauren Kelly.
Don't forget to follow us @INN_Resource for real-time updates!
Securities Disclosure: I, Dean Belder, hold no direct investment interest in any company mentioned in this article.
Securities Disclosure: I, Lauren Kelly, hold no direct investment interest in any company mentioned in this article.
Western Australia Supreme Court Approves Latin Resources' Pilbara Minerals Acquisition
Pilbara Minerals' (ASX:PLS,OTC Pink:PILBF) AU$560 million acquisition of Latin Resources (ASX:LRS,OTC Pink:LRSRF) is now legally effective, Latin said in a press release on Wednesday (January 22).
First announced this past August, the deal has already been approved by the Supreme Court of Australia.
Latin's announcement also outlines the remaining key dates of the scheme.
The transaction will give Pilbara ownership of Latin’s flagship Salinas lithium project in Brazil.
The asset is located in Minas Gerais' Bananal Valley area, 10 kilometres outside the town of Salinas. Its resource estimate, which covers the Colina and Fog's Block deposits, stands at 77.7 million tonnes at 1.24 percent lithium oxide.
According to Latin Resources, there is potential to establish the deposit as the second largest spodumene concentrate producer in Brazil; it could also be among the lowest-cost spodumene concentrate producers globally.
When the purchase was announced last August, Pilbara said it forms part of its strategy to position itself “as one of the leading lithium materials suppliers globally.” The company's flagship asset is Pilgangoora, located in Western Australia's Pilbara region. Pilbara is currently completing optimisation work at Pilgangoora due to lithium market conditions.
Earlier this month, Pilbara received AU$15 million in grant funding from Western Australia's Investment Attraction Fund.
“(The funds) will be used for the Mid-Stream Demonstration Plant Project (Demonstration Plant Project) at Pilbara Minerals’ Pilgangoora lithium operation in the Pilbara region of Western Australia,” the company said.
“Completing the construction of this project would put Western Australia in a stronger position when lithium market conditions turn by increasing benefits to the state in the form of employment, royalites and economic diversification.”
Pilbara previously said that among its projects, it ranks Salinas at the top of its list “when benchmarked holistically across a range of key criteria.” The company added that it looks forward to developing Salinas to its full potential.
New Pilbara shares are expected to start trading on a normal settlement basis on February 5.
Don’t forget to follow us @INN_Australia for real-time news updates!
Securities Disclosure: I, Gabrielle de la Cruz, hold no direct investment interest in any company mentioned in this article.
Powering the Clean Energy Revolution Begins with Lithium Exploration
As lithium becomes increasingly critical in the global transition to clean energy, the strategic importance of lithium exploration has never been more pronounced, presenting unique opportunities for investors and companies alike.
This versatile metal, often dubbed "white gold," is at the heart of the renewable energy revolution, playing a pivotal role in electric vehicle (EV) batteries and grid-scale energy storage systems. Gaining an understanding of where the opportunities lie within the lithium exploration space can help investors make strategic investment decisions.
Surging demand for lithium in clean energy applications
The skyrocketing demand for lithium is driven primarily by the rapid adoption of EVs and the expansion of renewable energy infrastructure. According to the International Energy Agency, demand for lithium could potentially increase up to 42 times its 2020 levels by 2040. This staggering projection underscores the metal's critical role in the global energy transition.
EVs represent the largest driver of lithium demand. As governments worldwide implement stricter emissions regulations and automakers commit to electrifying their fleets, the need for lithium-ion batteries will only continue to surge. The demand is further amplified by the growing deployment of large-scale energy storage systems to support intermittent renewable energy sources like wind and solar.
Savvy investors also understand that any discussion of the growing lithium demand won’t be complete without considering the potential environmental implications of exponentially increasing the supply of this critical mineral. While lithium is essential for clean energy technologies, its extraction and processing can have environmental impacts. However, when compared against fossil fuel extraction and use, the net environmental benefit of lithium-based clean energy solutions are substantial. In addition, exploration and mining companies are increasingly recognizing the socioeconomic benefits of environmental, social and governance undertakings, and many have committed to meaningful efforts toward sustainable operations throughout the value chain.
Critical role of lithium exploration in supply chain
As demand outpaces current supply, the importance of lithium exploration cannot be overstated. Exploration companies are at the forefront of addressing the looming supply deficit, working to discover and develop new lithium resources to meet future needs. These companies play a crucial role in the lithium supply chain, acting as the first link in a process that ultimately leads to the production of batteries and other clean energy technologies.
The potential rewards for successful lithium exploration are significant. Companies that can efficiently identify and develop new lithium deposits stand to benefit from the metal's rising value and strategic importance. Investors in these exploration companies have the opportunity to participate in the early stages of what could become major lithium production projects, potentially yielding substantial returns as demand continues to grow.
Brunswick Exploration: Pioneering lithium discovery in strategic locations
Brunswick Exploration (TSXV:BRW,OTCQB:BRWXF) is one company that exemplifies the strategic approach to lithium exploration that investors should consider. The company has positioned itself at the forefront of lithium discovery, focusing on high-potential districts in Canada and Greenland.
This strategic focus aligns with the global need for new lithium sources in politically stable jurisdictions.
Recent developments highlight Brunswick Exploration's progress and potential:
- In October 2024, Brunswick made a significant breakthrough by discovering a lithium-bearing pegmatite containing spodumene within its Nuuk License in Greenland. This marks the first such discovery in the region, underscoring Greenland's potential as a new frontier for lithium exploration.
- The company has expanded its holdings in Greenland, capitalizing on the country's favorable geological conditions, including exceptional outcrop exposure that facilitates exploration efforts.
- Previous drilling activities have yielded encouraging results, indicating promising lithium mineralization across Brunswick's project portfolio.
These milestones position Brunswick Exploration favorably in the competitive landscape of lithium exploration. The company's commitment to exploring new high-grade spodumene deposits strategically responds to the anticipated surge in lithium demand, making it a potentially attractive option for investors looking to gain exposure to the lithium market's growth potential.
Key investment considerations
For investors considering the lithium sector, companies like Brunswick Exploration offer an opportunity to participate in the ground level of the lithium supply chain. While exploration companies inherently carry higher risk compared to established producers, they also offer the potential for significant returns if successful in their endeavors.
Key factors for investors to consider include:
- The company's exploration strategy and the geological potential of its project areas
- Management team experience and track record in mineral exploration
- Financial position and ability to fund ongoing exploration activities
- Geopolitical factors affecting the regions where exploration is conducted
As the global demand for lithium continues to rise, driven by the clean energy transition, the importance of companies engaged in lithium exploration is likely to grow. Successful explorers will play a crucial role in ensuring the availability of lithium to meet future needs, potentially offering significant value to investors who recognize this opportunity early.
Investor takeaway
The strategic value of lithium exploration in the context of the global shift towards clean energy cannot be overstated. For investors, the lithium exploration sector offers a unique opportunity to participate in the clean energy revolution from the ground up, with the potential for substantial returns as the world increasingly embraces sustainable technologies.
Moving forward, the success of lithium exploration efforts will be crucial in determining our ability to meet the ambitious goals set for clean energy adoption and climate change mitigation.
This INNSpired article is sponsored by Brunswick Exploration (TSXV:BRW,OTCQB:BRWXF,FWB:1XQ). This INNSpired article provides information which was sourced by the Investing News Network (INN) and approved by Brunswick Explorationin order to help investors learn more about the company. Brunswick Exploration is a client of INN. The company’s campaign fees pay for INN to create and update this INNSpired article.
This INNSpired article was written according to INN editorial standards to educate investors.
INN does not provide investment advice and the information on this profile should not be considered a recommendation to buy or sell any security. INN does not endorse or recommend the business, products, services or securities of any company profiled.
The information contained here is for information purposes only and is not to be construed as an offer or solicitation for the sale or purchase of securities. Readers should conduct their own research for all information publicly available concerning the company. Prior to making any investment decision, it is recommended that readers consult directly with Brunswick Exploration and seek advice from a qualified investment advisor.
Lithium Brine Projects Present Growth Opportunity in Clean Energy Market
The accelerated global shift towards clean energy solutions continues to shine a spotlight on sustainable and cost-effective mineral extraction methods, and lithium brine projects are emerging as a compelling investment opportunity with the potential for attractive returns.
The surging demand for lithium, driven primarily by the electric vehicle (EV) revolution and the growing need for renewable energy storage systems, has created a projected supply deficit that savvy investors are keen to capitalise on.
Lithium brine projects, particularly those located in the renowned Lithium Triangle of South America, offer a unique combination of high-grade resources and cost-effective extraction methods, positioning them favourably to address the looming supply shortfall while providing substantial returns on investment.
Lithium demand landscape
The global push for decarbonisation has placed lithium at the forefront of the clean energy transition. Electric vehicles, which rely heavily on lithium-ion batteries, are experiencing unprecedented growth.
According to industry forecasts, EV sales are expected to increase from 6.6 million units in 2021 to over 20 million annually by 2025. This exponential growth, coupled with the expanding renewable energy sector's need for large-scale storage solutions, is creating a substantial lithium supply deficit.
Lithium brine projects have emerged as a promising solution to meet this surging demand efficiently. These projects, particularly those located in the renowned Lithium Triangle of South America, offer a combination of high-grade resources and cost-effective extraction methods that position them favourably to address the looming supply shortfall.
Benefits of lithium brine extraction
Lithium brine extraction stands out for its economic and environmental advantages compared to traditional hard-rock mining. This method leverages natural evaporation processes, making it particularly suitable for arid regions like the Lithium Triangle, known for its high-grade brine resources.
Key benefits of lithium brine extraction include:
- Lower operational costs due to the use of natural solar evaporation
- Reduced environmental footprint compared to hard-rock mining
- Higher lithium recovery rates in many cases
- Potential for additional revenue streams from by-products like potassium and boron
These advantages make lithium brine projects not only cost-effective, but also align them with the growing emphasis on sustainable and environmentally responsible mining practices.
Why brine projects appeal to investors
Lithium brine projects have garnered significant investor interest due to their compelling economic and strategic advantages. The lower operational costs associated with brine extraction methods translate to potentially higher profit margins, making these projects particularly attractive in a market with strong demand fundamentals.
Key factors driving investor appeal include:
- Cost effectiveness: Lower OPEX compared to hard-rock lithium mining
- Sustainability alignment: Reduced environmental impact aligns with ESG investment criteria
- Scalability: Potential for phased expansion to meet growing demand
- Strategic location: Jurisdictions like Argentina, where the Lithium Triangle is located, offer a stable mining environment
The strategic importance of lithium brine projects in Argentina has been further validated by recent industry developments. For instance, Rio Tinto's US$6.7 billion acquisition of Arcadium Lithium underscores the value major mining companies place on high-quality brine assets in the region
Galan Lithium: A case study
A prime example of high-potential lithium brine projects can be found in Galan Lithium's (ASX:GLN) Hombre Muerto West (HMW) and Candelas projects in Argentina. These projects, situated in the heart of the Lithium Triangle, showcase the immense potential of brine extraction in meeting global lithium demand.
Galan Lithium's projects have an impressive profile:
- A combined resource estimate of 8.6 million tonnes of lithium carbonate equivalent
- High-grade lithium concentrations averaging 859 mg/l
- Low levels of impurities, enhancing processing efficiency
- Strategic location with excellent infrastructure access
The company is making significant strides towards production, with Phase 1 at HMW targeted for completion by 2025. This rapid progress demonstrates how lithium brine projects can support near-term lithium supply needs, a critical factor in addressing the projected supply deficit.
Galan Lithium stands out as a compelling player in the lithium brine sector, offering a strong value proposition to investors and the global battery market. The company's focus on high-grade, low-impurity lithium brine projects in Argentina positions it favourably to capitalise on the growing demand for lithium.
Key elements of Galan's value proposition include:
- High-quality resources: Galan's projects in the Hombre Muerto salar are known for their exceptional lithium grades and low impurity levels, factors that contribute to more efficient and cost-effective production.
- Strategic location: The projects benefit from their position in Argentina's portion of the Lithium Triangle, an area renowned for its lithium-rich brines and supportive mining environment.
- Phased development approach: Galan's strategy of phased development, starting with HMW Phase 1, allows for managed growth and the potential for rapid scaling as market demand increases.
- Strong economic fundamentals: Projected low operating costs and high-grade resources contribute to robust project economics, enhancing the company's competitiveness in the global lithium market.
- Advanced project status: With HMW Phase 1 progressing towards production by 2025, Galan is well positioned to contribute to near-term lithium supply, addressing the critical supply/demand imbalance.
Investor takeaway
As the global battery market continues to expand, driven by the electrification of transport and the growth of renewable energy storage, lithium brine projects like those developed by Galan Lithium offer a cost-effective and sustainable solution to meet this surging demand. The combination of favourable economics, strategic location, and high-quality resources positions these projects as key players in shaping the future of the global lithium supply chain.
As investors delve deeper into the specifics of lithium brine extraction, the compelling investment case becomes clear as more investors look to participate in the sustainable energy transition and potentially reap significant financial rewards.
This INNSpired article is sponsored by Galan Lithium (ASX:GLN,FSX:9CH). This INNSpired article provides information which was sourced by the Investing News Network (INN) and approved by Galan Lithiumin order to help investors learn more about the company. Galan Lithium is a client of INN. The company’s campaign fees pay for INN to create and update this INNSpired article.
This INNSpired article was written according to INN editorial standards to educate investors.
INN does not provide investment advice and the information on this profile should not be considered a recommendation to buy or sell any security. INN does not endorse or recommend the business, products, services or securities of any company profiled.
The information contained here is for information purposes only and is not to be construed as an offer or solicitation for the sale or purchase of securities. Readers should conduct their own research for all information publicly available concerning the company. Prior to making any investment decision, it is recommended that readers consult directly with Galan Lithiumand seek advice from a qualified investment advisor.
Ioneer Closes US$996 Million American Government Loan for Rhyolite Ridge
Ioneer (ASX:INR,NASDAQ:IONR) has received a US$996 million loan from the US Department of Energy's (DOE) Loan Programs Office (LPO) to develop an on-site processing facility at its Rhyolite Ridge lithium-boron project.
Filed under the DOE's Advanced Technology Vehicles Manufacturing program, the investment is part of the LPO's work to build a critical minerals supply chain in the US, while creating rural jobs and supporting American manufacturers.
The US$996 million loan has a principal of US$968 million, with the remaining US$28 million as capitalised interest. It also represents a US$268 million principal increase from a conditional loan provided in January 2023.
Ioneer said it has engaged with the LPO for more than three years, with the timing of the transaction driven by its receipt of a positive record of decision from the Department of the Interior in October 2024.
“The need for domestically sourced and processed lithium and boron has never been greater,” said Ioneer Executive Chairman James Calaway in a Monday (January 20) press release. “The United States requires Rhyolite Ridge and more projects like it if we want secure domestic critical mineral production. It's as simple as that."
Rhyolite Ridge is located in Esmeralda County, Nevada, and the company believes that once operational it will increase the nation’s lithium supply by four times, reducing reliance on foreign sources.
Ioneer also notes that the asset is North America's only known lithium-boron deposit, and one of only two such deposits worldwide. It could power upward of 50 million electric vehicles over a 26 year mine life.
Managing Director Bernard Rowe added that the project is fully permitted and construction ready.
“(It) will not only create new jobs in Nevada but foster innovation across the country," he said.
The US Bureau of Land Management released a final environmental impact statement for the project in September 2024.
At the time, Ioneer said Rhyolite Ridge was the first lithium project to reach this stage of the environmental permitting review process under the Biden administration.
Construction is targeted for late 2025, and is expected to last an average of 36 months.
Don’t forget to follow us @INN_Resource for real-time news updates!
Securities Disclosure: I, Gabrielle de la Cruz, hold no direct investment interest in any company mentioned in this article.
Laguna Verde Resource Update
CleanTech Lithium PLC ("CleanTech Lithium" or "CleanTech" or the "Company") (AIM: CTL, Frankfurt:T2N), an exploration and development company advancing sustainable lithium projects in Chile, announces an updated resource estimate for its Laguna Verde project that has been included by the Chile Government as one of the six salar systems to be prioritised for development.
Highlights:
- The mineral resource estimate is updated from that reported in the RNS of 17 July 2023 based on additional exploration and pumping tests conducted in 2024
- The JORC (2012) compliant estimate was calculated by Montgomery & Associates ("Montgomery´"), a leading hydrogeological consultant highly experienced in lithium brine resource estimation
- The total updated resource is 1.63 million tonnes of Lithium Carbonate Equivalent (LCE), at a grade of 175 milligrams per litre (mg/l) lithium, of which 0.81 million tonnes is in the Measured + Indicated category at a grade of 178 mg/l lithium
- This current resource estimate is based on the proposed polygon area included in the Company´s recently submitted application for a Special Operating Contract for Lithium ("CEOL")
- The previous 2023 estimate which totalled 1.77 million tonnes LCE at an average grade of 200mg/l lithium was based on the previously proposed CEOL area under the old application regime that was larger covering the entire estimated resource of the basin.
- Lithium concentrations obtained in the 2024 campaign were below the average grade of other exploration wells impacting the average lithium grade of the resource
- Montgomery recommends three additional drillholes in the southwest, north and northeast to potentially increase the resource based on completed geophysics
- This updated measured and indicated resource estimate will be used in the pre-feasibility study (PFS) which is intended to underpin a maiden reserve estimate for the Laguna Verde project
Steve Kesler, Executive Chairman, CleanTech Lithium said: "The updated JORC-compliant resource estimate for the Laguna Verde project, independently determined by Montgomery & Associates, confirms a robust and significant resource of 1.63 million tonnes of Lithium Carbonate Equivalent (LCE), with 0.81 million tonnes in the Measured and Indicated category at an average grade of 178 mg/l lithium. Now with greater confidence in the resource, this comprehensive evaluation will form the basis for the Pre-Feasibility Study, scheduled for end of this quarter. This positions Laguna Verde as a highly promising direct lithium extraction (DLE) based project in the lithium brine sector and as a contributor to Chile's future as a leading lithium producer for the global EV and battery market."
Further Details:
Project Background
The Laguna Verde corresponds to a lithium brine deposit which is found in the Atacama Region of Chile, near the Chile - Argentina border. The project consists of mining concessions located approximately 192 kilometres (km) northeast of Copiapó. The concession area is readily accessible via a network of paved roads from the closest major city Copiapó, following the route (R-31) for approximately 275 km. The Laguna Verde Basin has elevations that vary between 4,330 to 4,500 metres above sea level (masl), where the low altitude valley area is approximately 20 km long and 4 km wide.
Figure 1: Regional Location Map and Project Area
The previous resource estimate for Laguna Verde was reported in July 2023, based on five wells completed in 2022 and 2023. A drill programme was undertaken in 1H 2024 which completed two infill wells in the first half of 2024 along with three observation wells drilled to support observations during pumping tests. The location of wells completed from 2022 - 2024 are shown in Figure 2, along with three recommended wells to potentially increase the resource.
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Figure 2: Existing and Recommended Exploration Wells at Laguna Verde
Resource Summary
Montgomery was engaged to support the 2024 field programme at Laguna Verde and based on the information obtained to provide an updated resource estimate and technical report for the project. The technical report has been prepared to conform to the regulatory requirements of the JORC Code (2012). Mineral Resources are also reported in accordance with the Canadian Institute of Mining, Metallurgy and Petroleum (CIM) Best Practice Guidelines (CIM, 2012).
The breakdown of the resource categories comprising the total resource estimate and the comparison with the previous 2023 estimate is shown below in Table 1. The previous 2023 estimate which totalled 1.77 million tonnes LCE at an average grade of 200 mg/l Lithium was based on a proposed CEOL area that was larger and covered the entire estimated resource of the basin, whereas the updated 2025 estimate is based on the Company's preferential licences and proposed polygon area included in the Company´s recently submitted application for a CEOL. As a comparison, the current resource estimate for the basin (on the same basis of larger CEOL area) would be 1.95 million tonnes LCE.
Lithium concentrations obtained in the 2024 campaign were below the average grade of other exploration wells impacting the average lithium grade. Although slightly lower than the lithium grade used in the 2023 scoping study a grade of 175 mg/l lithium is very suitable for the DLE process and is well above the cut-off grade of 100 mg/l lithium.
Table 1: Updated JORC Resource Estimate 2025 Compared to 2023 Resource Estimate
Special Operating Contract for Lithium (CEOL)
In April 2024 the Chilean government announced, as part of its National Lithium strategy, the intention to make available to the private sector CEOLs over 26 salt flats. As of September 2024, the Chilean government has prioritised six salt flats for the CEOL award process, one of which is Laguna Verde. The CEOL grants exclusive rights to exploit lithium and only one CEOL is to be granted per saline system. The Government also published a polygon CEOL area for each of the prioritised salt flats but clarified that this polygon area is referential and could be modified following community dialogue and with agreement of the applicant. The Government also announced that the CEOL could be awarded in a streamlined procedure that allowed direct negotiation with Government rather than through a public tender provided that a number of criteria were met. One criteria was that the applicant must demonstrate that it holds at least 80% of the preferential mining licences in the CEOL polygon.
CleanTech Lithium has proposed a modification to the published CEOL polygon in its CEOL application (shown in Figure 3) which has been developed to ensure that over 80% of the proposed CEOL polygon area is preferential mining licenses held by CleanTech. The CEOL application by CleanTech includes letters of support from indigenous communities for the proposed modified CEOL polygon.
Figure. 3: CleanTech´s Preferential Licences and Proposed CEOL Extent
Table 2 provides a breakdown of the current Laguna Verde resource estimate by resource category and by separating the resource attributable to the preferential licences held by the Company, and the provisional resources in licences held by third parties within the proposed CEOL area. The combined resource would be attributable to the Company provided the CEOL is awarded to CleanTech for the proposed area (Figure 3).
Mineral resources are not mineral reserves and do not have demonstrated economic viability. Furthermore, not all mineral resources can be converted into mineral reserves after application of the modifying factors, which include but are not limited to mining, processing, economic, and environmental factors.
Table 2: Mineral Resource Estimate for the Laguna Verde Project (Effective January 3, 2025)
Resource Estimation Method
The updated resource estimate consists of Measured, Indicated and Inferred resources. A detailed geological and resource block model was creating in Leapfrog (Seequent, 2023) using obtained well lithologies, discrete-depth values for brine chemistry, drainable porosity values, and geophysical profiles. Lithium concentrations were interpolated using ordinary kriging, specific yield was assigned to each hydrogeological unit, and the mass calculations within the resource block model were undertaken using the Leapfrog Edge extension. A cut-off grade of 100mg/l lithium was conservatively applied based on the Laguna Verde scoping study capital and operating costs.
Consistent with the Houston et al. (2011) recommendations for immature salars, a 1.25 km radius circle around the well was used to estimate a Measured resource, a 2.5 km radius circle around the well was used to estimate an Indicated resource, while a maximum 5 km radius circle was used as the areal extent to estimate an Inferred resource. Depending on the confidence in the sampling procedures and presence of volcanic outcrops, some resource polygons were limited in extent.
Surface Rights
In Chile, Surface Access Rights should be granted or imposed on a mining concession before the extraction starts. CleanTech Surface Access Rights request was received by Bienes Nacionales on June 16, 2023, in the name of Atacama Salt Lakes SpA and is currently in process. The requested area totals 11,136 hectares and covers the project scoping study planned installations (Ad Infinitum, December, 2022). The requested area can be seen in Figure 4.
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Figure 4. CleanTech's Requested Surface Right Area
Water Rights
There are surface water courses that contribute to the Laguna Verde. The Peñas Blanca River flows from west to east and has a continuous flow throughout the year, while to the east of the Laguna Verde, there are intermittent surface water flows. Freshwater exploration wells also exist in the western portion of the basin with demonstrated pumping rates that exceed 40 L/s (Hydro Exploraciones, 2020). Furthermore, a conceptual water balance of the basin recharge has been prepared and indicates that the average estimated freshwater recharge in the Laguna Verde Basin corresponds to 570 l/s (M&A, 2024a). Potential sources of freshwater for the Project include the application for groundwater rights in the basin or the purchase of water rights from third parties (CleanTech, 2024).
Geological Setting
The regional geology of the Project area is mainly characterised by volcanic and sedimentary sequences. Laguna Verde is an immature clastic salar basin, with the lagoon effectively corresponding to the evaporative "salar nucleus". The Project consists of a lithium-rich aquifer found below the lagoon and in the surrounding sediments. The brine is mainly hosted in volcaniclastic sediments and tuff beneath the lagoon with a moderate hydraulic conductivity.
The Laguna Verde stratigraphy is characterised by a band of tuffs with different grain sizes, consolidation / welding, type of clasts, and locally interbedded volcaniclastic sediments. This unit presents an average thickness of 400 metres and overlays the lower volcanic rock (mainly andesite) identified in drillholes and the gravity survey, which has some fracturing and a low drainable porosity. Furthermore, a fault zone which has highly fractured and brecciated rock was encountered along the southern portion of Laguna Verde. In all, the brine aquifer was characterised up to a maximum depth of 650 metres (LV07).
Figure 5 shows the locations for two NW-SE hydrogeological cross sections, and Figure 6 shows the sections with the hydrogeological units modelled in the Leapfrog software.
Figure 5: Hydrogeological Cross Section Locations
Figure 6: Hydrogeological Cross Sections
Exploration
CleanTech engaged Geodatos to conduct Transient ElectroMagnetic (TEM) geophysical surveys at Laguna Verde during the periods April to May 2021 and again in March 2022. The objective of these surveys was to determine the electrical properties of the subsurface sediments to provide information about the stratigraphy and water quality of the hydrogeologic units in the area. The surveys also helped determine the water table level and helped confirm the presence of brine.
A gravity survey was performed by Geodatos between the end of December 2022 and early January 2023. The survey campaign included TEM measurements and two extra profiles. One hundred and eleven (111) gravity stations, arranged in four lines surrounding the lagoon area, as well as fourteen (14) TEM stations, arranged in two lines, were surveyed with a 400-metre separation.
Figure 7: Laguna Verde Surveyed Gravity and TEM Stations
Drilling
An initial drilling campaign was conducted in 2022 and 2023 with four diamond drill holes (DDH) (LV01, LV02, LV03 and LV04) and two rotary wells (LV05 and LV06) as shown in Figure 2. A second campaign was conducted in 2024, with Montgomery personnel, where two exploration boreholes were drilled (LV07 and LV11) with monitoring wells for subsequent pumping tests at LV05 and LV06. Drilling at boreholes LV07 and LV11 reached a final depth of 650 metres below land surface (mbls) and 412.8 mbls, respectively. A pumping test at LV05 was initially conducted in the first campaign and included a pre-test and a 48-hour constant discharge test on April 8, 2023. During the 2024 campaign, a step-discharge and a constant-discharge were conducted at LV05, but due to adverse weather conditions, a long-term constant rate test could not be completed. During the first campaign, a pre-test and a constant discharge test were conducted at LV06 and a long-term (7-day) constant rate test was conducted during the 2024 campaign.
Table 3: Location and Depth Drilled for Years 2022, 2023 and 2024 Exploration Wells
Well | Drilling Method | Northing | Easting | Total Depth Drilled (m) | Year Drilled |
LV01 | DDH | 7,027,088 | 549,432 | 474 | 2021-2022 |
LV02 | DDH | 7,024,396 | 553,992 | 339 | 2022 |
LV03 | DDH | 7,028,434 | 549,980 | 547.5* | 2022 |
LV04 | DDH | 7,024,390 | 556,826 | 311 | 2022 |
LV05 | Rotary | 7,027,908 | 550,972 | 434.6 | 2022-2023 |
LV06 | Rotary | 7,026,004 | 555,912 | 405 | 2023 |
LVM05a | DDH | 7,027,908 | 550,921 | 221.50 | 2024 |
LVM05b | DDH | 7,027,951 | 550,946 | 41.5 | 2024 |
LVM06c | DDH | 7,026,032 | 555,959 | 40 | 2024 |
LV07 | DDH | 7,025,296 | 552,561 | 650 | 2024 |
LV11 | DDH | 7,024,793 | 555,582 | 412.8 | 2024 |
*LV03 was drilled as an angled borehole with an azimuth of 120 degrees and dip of 60 degrees.
Figure 8: Drilling at LV07 in 1H 2024
Brine Sampling Collection and Analysis
Various methods were used to obtain brine samples during and after the exploration drilling program:
- Packer sampling
- Airlift sampling
- Double-valved disposable bailer sampling
- Double-valved electric bailer sampling
- Hydra-sleeve sampling
- Brine sampling during pumping tests
The brine sampling program included standard quality assurance/quality control (QA/QC) elements such as including duplicate brine and blank samples in bine sample batches sent to the laboratory. Formal traffic reports and chain of custody documents were prepared for every sample obtained and submitted for laboratory analysis. In the opinion of the Competent Person (CP), sample preparation, security, and analytical procedures were acceptable for this stage of the Project and results from the laboratory analyses are considered adequate.
Drill Core Sampling and Specific Yield Estimation
During the first campaign, core samples were obtained every 10 metres from the four drillholes and a total of 122 core samples were obtained at each drillhole and submitted to the DBS&A Laboratory in New Mexico, USA for Relative Brine Release Capacity (RBRC) tests. During the second campaign (2024), 33 core samples were obtained from LV07 and LV11 and were sent to GeoSystem Analysis (GSA) laboratory in Tucson, USA, for analysis.
Figure 9: Example of Drill Core from Exploration Borehole LV11 (132 to 136m)
Laboratory values for drainable porosity were obtained from 145 successfully analysed core samples. Core samples underwent Relative Brine Release Capacity (RBRC) tests. The drainable porosity (i.e., specific yield) measurement procedure involved saturating the core sample with a brine solution and placing them in test cells where a pressure differential was applied and the proportion of brine which can be drained was estimated. In the opinion of the CP, sample preparation, security, and analytical procedures were acceptable and results from the laboratory analyses are considered adequate for resource estimation. The 2023 resource estimate included drainable porosity measurements which were increased by a secondary porosity term calculated from rock quality designation logged during drilling. This current resource update uses drainable porosity measurements from the laboratory, without modification, which results in lower drainable porosities than used in the 2023 resource estimate.
The average drainable porosity values assigned to each hydrogeologic unit used to estimate the lithium resource are given in Table 3. Due to its smaller dataset, a simpler analysis was undertaken for drainable porosity to assign representative values by hydrogeological unit; constant (average) values were assigned to each hydrogeologic unit in the resource model, and drainable porosity values were not interpolated.
Table 3: Assigned Drainable Porosity Values for Laguna Verde Hydrogeological Units
Hydrogeological Unit | Average Drainable Porosity* | N° Samples |
Unconsolidated Tuff and Coarse Tuff | 6% | 102 |
Consolidated Ash Tuff | 3% | 14 |
Brecciated and Fractured Rock | 5% | 9 |
Lower Volcanic Rock | 1% | 5 |
Upper Alluvium and Colluvium | 10%** | 0 |
Surficial Volcanic Deposits | 3%*** | 0 |
* Rounded arithmetic average
** Assumed theoretical value
*** The drainable porosity of the consolidated ash tuff unit was assumed due to its lithological similarity. The number of blocks that correspond to the consolidated ash tuff within the resource block model are negligible compared to the rest of the hydrogeological units.
Recommendations
Currently, the drilling and testing of a reinjection well is planned for the first quarter of 2025. In terms of the resource, three additional diamond drillholes in the southwest, north, and northeast are recommended to potentially expand the resource volume (Figure 2; LV08, LV09, and LV10) based on the conducted geophysics. During the drilling of those three additional diamond drillholes, depth-specific brine and drainable porosity sampling are recommended with the corresponding QA/QC measures.
Block Model Results and Verification
Figure 10 presents the shallowest interpolated concentrations of the brine body which were mapped to the Leapfrog block model; as can be seen, grades are highest in the western portion of Laguna Verde, whereas the eastern portion represents a zone of heightened recharge with diluted grades. The bottom of the block model was limited to the deepest well (LV07), and the horizontal extent of the block model was limited to the CleanTech concessions and potential of the proposed CEOL area. Laboratory results for lithium concentrations from depth specific brine and pumping test samples collected from the wells were incorporated directly into the model. Ordinary Kriging was used for the interpolation of lithium concentrations within the block model.
Figure 10: Shallow Lithium Concentration Distribution and Proposed CEOL Outline
The resource block model was subsequently validated by visual inspection and comparison of the measured and block model concentrations. Swath plots were also utilized, which compare the average measured and interpolated values along distinct profiles of the block model.
Competent Persons Statement
The following professionals act as competent persons, as defined in the AIM Note for Mining, Oil and Gas Companies (June 2009) and JORC Code (2012):
Mr. Michael Rosko is a Registered Member of the Society for Mining, Metallurgy and Exploration, member #4064687. He graduated from the University of Illinois with a bachelor's degree in geosciences in 1983, and from the University of Arizona with a master's degree in geosciences in 1986. Mr. Rosko is a registered professional geologist in the states of Arizona (#25065), California (#5236), and Texas (#6359). Mr. Rosko has practiced his profession for 38 years and has been directly involved in design of numerous exploration and production well programs in salar basins in support of lithium exploration, and estimation of the lithium resources and reserves for many other lithium projects in Argentina and Chile.
Mr. Brandon Schneider is employed as a Senior Hydrogeologist at M&A. He graduated from California Lutheran University in 2011 with a Bachelor of Science degree in Geology (with Honors) and obtained a Master of Science in Geological Sciences (Hydrogeology focus) from the University of Notre Dame in 2013. He is a professional in the discipline of Hydrogeology and a Registered Professional Geologist in Arizona (#61267) and SME Registered Member (#4306449). He has practiced his profession continuously since 2013. His relevant experience includes: (i) from 2013 to 2016, consulting hydrogeologist specializing in hydrogeological characterizations, aquifer test analyses, groundwater modeling, and pumping well optimization for mining projects and sedimentary basins in Arizona, United States; (ii) since 2017, consulting hydrogeologist in Chile specializing in lithium brine projects in Argentina and Chile with experience in brine exploration, lithium brine resource and reserve estimates, resource and reserve reporting, variable density flow and transport modeling, and optimization of pumping.
For further information contact: | |
CleanTech Lithium PLC | |
Steve Kesler/Gordon Stein/Nick Baxter | Jersey office: +44 (0) 1534 668 321 Chile office: +56 9 312 00081 |
Or via Celicourt | |
Celicourt Communications Felicity Winkles/Philip Dennis/Ali AlQahtani | +44 (0) 20 7770 6424 |
Beaumont Cornish Limited (Nominated Adviser) Roland Cornish/Asia Szusciak | +44 (0) 20 7628 3396 |
Fox-Davies Capital Limited (Joint Broker) Daniel Fox-Davies | +44 (0) 20 3884 8450 |
Canaccord Genuity (Joint Broker) James Asensio | +44 (0) 20 7523 4680 |
Beaumont Cornish Limited ("Beaumont Cornish") is the Company's Nominated Adviser and is authorised and regulated by the FCA. Beaumont Cornish's responsibilities as the Company's Nominated Adviser, including a responsibility to advise and guide the Company on its responsibilities under the AIM Rules for Companies and AIM Rules for Nominated Advisers, are owed solely to the London Stock Exchange. Beaumont Cornish is not acting for and will not be responsible to any other persons for providing protections afforded to customers of Beaumont Cornish nor for advising them in relation to the proposed arrangements described in this announcement or any matter referred to in it.
Notes
CleanTech Lithium (AIM:CTL, Frankfurt:T2N, OTCQX:CTLHF) is an exploration and development company advancing lithium projects in Chile for the clean energy transition. Committed to net-zero, CleanTech Lithium's mission is to become a new supplier of battery grade lithium using Direct Lithium Extraction technology powered by renewable energy.
CleanTech Lithium has two key lithium projects in Chile, Laguna Verde and Viento Andino, and exploration stage projects in Llamara and Arenas Blancas (Salar de Atacama), located in the lithium triangle, a leading centre for battery grade lithium production. The two most advanced projects: Laguna Verde and Viento Andino are situated within basins controlled by the Company, which affords significant potential development and operational advantages. All four projects have good access to existing infrastructure.
CleanTech Lithium is committed to utilising Direct Lithium Extraction with reinjection of spent brine resulting in no aquifer depletion. Direct Lithium Extraction is a transformative technology which removes lithium from brine with higher recoveries, short development lead times and no extensive evaporation pond construction. www.ctlithium.com
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This article includes content from Cleantech Lithium PLC, licensed for the purpose of publishing on Investing News Australia. This article does not constitute financial product advice. It is your responsibility to perform proper due diligence before acting upon any information provided here. Please refer to our full disclaimer here.
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