Posted by AGORACOM
at 4:18 PM on Wednesday, February 10th, 2021
St-Georges Eco-Mining Corp. (CSE:SX)(OTC:SXOOF) (FSE:85G1) (CNSX:SX.CN)is pleased to announce a non-brokered private placement offering of units at a price of $0.50 and “flow-through” units at a price of $0.60 as well for total gross proceeds of up to $10,000,000.
Each Unit is comprised of one (1) common share (each, a “Share”) in the capital of the Corporation and one (1) Share purchase warrant (each, a “Unit Warrant”), entitling the holder to purchase one (1) Share at an exercise price of $0.65 until first 18 months from the issuance and $1.05 for the 18 months thereafter, together 36 months expiry period (the “Unit Warrant Expiry Date”).
Each FT Unit is comprised of one (1) common share in the capital of the Company on a “flow-through” basis (each, a “FTShare”) and one (1) FT Share purchase warrant (each, a “FT Warrant”). Each FT Warrant entitles the holder thereof to purchase one (1) Share at an exercise price of $0.75 until first 18 months from the issue and $1.25 for the 18 months thereafter, together 36 months expiry period (the “FT Warrant Expiry Date”, together with the Unite Warrant Expiry Date, the “Warrant Expiry Date”).
Posted by AGORACOM
at 8:43 AM on Tuesday, January 26th, 2021
The two companies to jointly develop a patentable industrial scale process for Electric Vehicle Lithium-ion battery (LIB) recycling.
Altair International Corp. (the “Company” or “Altair”) (OTC: ATAO) is pleased to provide an update on its previously announced partnership with St-Georges Eco-Mining Corp. (CSE: SX) (OTC: SXOOF) (FSE: 85G1) (“St-Georges”) a Canadian public company engaged in the development of new Lithium extraction technologies.
On December 1, 2020 the two companies entered into a Binding agreement that would allow Altair access to St-Georges’ patent-pending Lithium processing technology for Altair’s Nevada based Stonewall project and most importantly bring together the two companies to jointly develop a patentable industrial scale process for Electric Vehicle Lithium-ion battery (LIB) recycling.
As the global Electric Vehicle (EV) market heats up over the coming decade, the demand for battery metals is expected to outpace current production. Even with increased energy density and charge cycles, Lithium based batteries for EVs, laptops, phones and other mobile devices will create cumulative waste challenges both in the environmental footprint of production and end-of-life LIB disposal.
Altair and St-Georges recognize that new optimized recycling technologies will offer valuable solutions to both a waste-management and battery metal supply. Selective, economic and responsible metal extraction of spent LIBs will be an integral part of the multi-billion dollar green economy and play a crucial part in the future of EV dominance of the automotive sector.
Posted by AGORACOM
at 7:27 AM on Tuesday, December 1st, 2020
St-Georges Eco-Mining Corp. (CSE:SX) (CNSX:SX.CN)(OTC:SXOOF) (FSE:85G1) is pleased to announce that it has signed a Binding Letter of Intent with Altair International (US-OTC: ATAO) pursuant to which St-Georges has agreed to provide access to its patent pending lithium processing technology for lithium-in-clay mineral deposits, and also agreed to jointly develop a patentable electric vehicle battery recycling industrial process.
In return for the access to the lithium processing technology and as part of their contribution in the development of patentable intellectual property in regard to EV Battery Recycling, Altair will issue 2,000,000 common shares at signature of this Binding LOI. The company will also commit to 2 subsequent share issuance of 2 million shares each, the first at the filing of a joint patent application in regards to the battery recycling R&D effort and the second at the start of an Industrial Pilot Plant demonstrator of the battery recycling process. If all milestones are completed, a total of 6 million common shares of Altair will be issued in favor of St-Georges.
Altair will also make a total of US $300,000 cash payments to St-Georges. A first payment of US $150,000 on or before April 1st, 2021 and a second payment of US $150,000 on or before August 1st, 2021. Both companies will contribute equally to the battery recycling research & development effort and to the design and construction of a battery recycling industrial pilot-plant circuit in St-Georges contracted installations in Quebec.
Royalties
On Altair Nevada Lithium Project
The Parties will establish a 5% royalty stream on the commercial output of the Nevada Property for the whole mine life period. This royalty will be transferable at the discretion of St-Georges or its successors. It will be opposable to any successors of Altair as a lien on the mining assets. St-Georges and Altair will negotiate a right of first refusal in favor of Altair. The royalty, to be negotiated within the guidelines of the “Royalty Formula”, will take the form of a Net Revenue Interest or Net Revenue Return (“NRR“).
Based on the location of the lithium-in-clay mineral project of Altair, 20% of the established NRR will be assigned to Iconic Minerals (TSX-V: ICM) based on current active agreements between the two companies.
On the Commercial Recycling of EV Batteries
The parties will establish a mutually beneficial partnership royalty stream on the commercial implementation and output of the battery recycling technology. The proportionate ownership will be transferable at the discretion of St-Georges, Altair or its successors.
The parties agreed to enter into a long form Definitive Agreement on or before February 5, 2021. Definitive agreement will be subject to review by regulatory authorities.
The companies expect to issue additional information in the coming weeks regarding the joint battery recycling technology development effort.
Vilhjalmur Thor Vilhjalmsson, St-Georges’ President & CEO commented: “(…) With the continued work of our research and development team, it is a great pleasure to team up with Altair to take this process further. The SX team has been looking at alternative methods, including using our proprietary technology in recycling EV batteries. We can see this as an opportunity to further broaden the scope of our developments and welcome the partnership. This will also enable us to finetune the Nevada operations already in place with Iconic Minerals over the forthcoming years (…)”
Leonard Lovallo, President of Altair, commented that “We believe that the lithium extraction and purification processes which St-Georges has developed have the potential to reshape the economics of the lithium mining sector, and we are incredibly excited to have partnered with them on this endeavor. As the demand and marketplace for lithium continues to expand with the ever-increasing popularity of EV vehicles across the globe, the scope and applications of the technologies which we are partnering with St-Georges on will only increase.”
Lithium Processing Technology Update
St-Georges technical team is now ready to initiate work aimed at optimizing the purification process of its lithium process and recuperation technology. The objectives are to minimize chemical losses, optimize total process recovery and optimizing the value of the byproducts. The company also intends to validate multiple resources and assure the selectivity of lithium recovery works on different types of resources.
Multiple initiatives will be run in parallel with the company’s strategic partners and suppliers. This effort should lead to a complete metallurgical simulation to size and price equipment. St-Georges is committed to utilizing multiple laboratories in parallel in order to protect intellectual proprietary processes and to accelerate IP extension.
St-Georges contractors have completed the preparation of a spodumene concentrate sourced from a Quebec based mineral resources and the company is now ready to initial leaching tests in a pilot plant environment. The company is expecting material recently prepared from the Bonnie Claire Project in Nevada from its partner Iconic Minerals. The company expects to run a complete pilot mining processing circuit on reception of the material. This next development effort should establish the recuperation and purification parameters needed specifically for that project as well as the final tweaked chemical recipe for the resin used to coat the lithium balls used in the last recuperation and refining stage.
ON BEHALF OF THE BOARD OF DIRECTORS
“Vilhjalmur T. Vilhjalmsson”
VILHJALMUR THOR VILHJALMSSON President & CEO
About St-Georges
St-Georges is developing new technologies to solve some of the most common environmental problems in the mining industry. The Company controls all the active mineral tenures in Iceland. It also explores for nickel & PGEs on the Julie Nickel Project and the Manicougan Palladium Project on the Quebec’s North Shore.
Posted by AGORACOM
at 9:32 AM on Wednesday, November 25th, 2020
Planning to Use Hydrothermal Energy to Drill Iceland Gold Targets
St-Georges Eco-Mining Corp. plans on reviving Iceland’s long-dormant gold mining industry by using its vast abundance of renewable energy to drill for gold. St. George’s emphasis will be on making the most eco-friendly and socially responsible gold in the world.
St-Georges, is the only junior exploration company to own all the mineral rights of a western country
Controls all the active mineral tenures in Iceland
St-Georges plans to mine with robots, while the equipment and processing primarily will use electricity made from geothermal and hydro power by Landsvirkjun, the state-owned power company
Iceland is one of the countries with the highest ratio of green energy globally
Thormodsdalur Projectis the most advanced project in Iceland
Drilled a 124-meter-deep (407-foot-deep) hole in Thormodsdalur, outside Reykjavik, in September
Drilling up to 1,000 meters or up to 25 new shallow holes on the Thor Gold project
Opportunity to extract epithermal gold with geothermal power
Total area in excess of 4,600 km2 with 9 prospecting licences
Mineralization bearing outcrops were identified and sampled and brought to St-Georges’ secure facilities in Reykjavik for petrographic analysis in October
Iceland Resources ehf ( 100% St. George Eco-Mining )
Controls all the active mineral tenures
Including drill ready Thor Gold Project
One of the countries with the highest ratio of green energy
100% renewable energy and zero carbon footprint.
Mining In Iceland
St. George’s emphasis will be on making the most eco-friendly and socially responsible gold in the world
St. George’s anticipates Iceland’s gold to be sold with a premium.
St. George’s ideology is about making minimal disturbances to the ground.
Thormodsdalur have minimal visible activity when mining activity starts
St-Georges will use all the material extracted from the ground during the mining process
After the minerals are separated, the remainder would be used in building material and concrete.
FULL DISCLOSURE: St. George’s Eco-Mining is an advertising client of AGORA Internet Relations Corp.
Posted by AGORACOM
at 8:48 AM on Monday, November 23rd, 2020
Interval contained gold mineralization averaging 0.24 g/t over 80 meters with gold grades ranging from 0.01 g/t up to 6.21 g/t.
Reykjavik – TheNewswire – November 23, 2020 -St-Georges Eco-Mining Corp. (CSE:SX) (CNSX:SX.CN)(OTC:SXOOF) (FSE:85G1) is pleased to disclose the results of the reverse circulation research hole TRC 20-01 authorised prior to the acquisition of Melmis EHF earlier this fall.
The 124m hole intersected a broad zone of low grade disseminated mineralization near surface. At depth of 41.5m the team intersected and confirmed with preliminary assays the existence of a thick interval that contained gold mineralization averaging 0.24 g/t over 80 meters with gold grades ranging from 0.01 g/t up to 6.21 g/t.
Within that zone a section of 9.9 meters averaged 0.7 g/t gold starting at 55 meters depth and included 2.1 meters of 1.67 g/t gold. A separate zone assayed 6.21 g/t over 0.3 meters at a depth of 98 meters.
The company is in the process of renting new facilities that will allow a streamlined sampling process. As soon as the installation is ready, all samples on 30cm intervals will be relogged and certain samples will be reanalyzed for gold and trace elements by independent laboratories in Dublin Ireland. Duplicate samples are a necessary protocol when gold values exceed one g/t gold in a known low sulfidation vein system with historic high-grade gold values. Trace element geochemistry may further assist in vectoring in on the better parts of the system. The company expects to conduct the next hole at an angle of 85? from the same location to confirm its hypothesis.
This initial hole was drilled between two previously known mineralized and drilled areas of the project. The purpose of the hole was to provide continuity of alteration and mineralization between these two zones. Additional holes are planned along strike and at depth as a follow-up of hole TRC 20-01. This RC hole was drilled at -45 degrees and azimuth 110?. Following the acquisition of Melmis, St-Georges is less restricted on the location and depth of future drilling.
Based on geological logging to date, mineralization is disseminated over a thicker interval and not limited to quartz veining which is the preferential host for high-grade gold elsewhere in the Thor system.
Based on the results from this recent hole, St-Georges geological team believes that we are looking at a strong hydrothermal system that is mineralized with gold over apparent broad widths currently more than 700 meters of strike.
Iceland Resources, St-Georges’ Iceland wholly owned subsidiary’s CEO, Thordis Bjork Sigurbjornsdottir, commented: “(…) We are very pleased with the preliminary results from our maiden hole within the project, we feel it supports our theory in regards of the geological settings and that the system could potentially prove to be expanded on a much larger surface than what was previously expected. These results are encouraging on our path to our first maiden resource. The team is evaluating next steps and is anticipating additional positive surprises with further work(…)”.
Quality Control
Samples were collected in buckets then sealed and transported directly from the site to Iceland Resources’ secured warehouse facilities in Reykjavik by the SX geological team. The geological team sampled each bucket. The samples along with duplicate and Q/C blank samples were added to 2 shipments that traveled by plane to ALS Global Laboratories (ISO/IEC 17025 accredited) in Loughrea, Ireland. All samples were tested using four acid trace analysis (ME-ICP61).
About Thor Gold
The Thormodsdalur Gold Project is located about 20km east of the city center of Reykjavik and south-east of the Lake Hafravatn. The project was discovered in 1908. The property produced a gold concentrate from 1911 to 1925, which shipped to Germany for processing. Over 300 meters of tunnels explored and mined one or more quartz veins and wall rock below open cuts at the surface.
Studies between 1996 and 2013 identified the project mineralization as a low sulfidation system hosted by basic to intermediate flows of Pliocene to Miocene age. The host contains banded chalcedony and ginguro within a fault zone up to 5 meters in width. To date, the identified gold trend has a known strike length of 700 meters determined by drill intercepts. Petrographic analysis of the vein material identified gold occurring in its free form and as part of an assemblage with pyrite and chalcopyrite. Petrographic and XRD studies show an evolution of the vein system from the zeolite assemblage to quartz-adularia and lastly, to minor calcite.
Thirty-two holes have been drilled within the license area, for a total of 2439 meters excluding the 124 meters reverse circulation hole drilled by St-Georges in the Fall of 2020.Gold values vary from less than 0.5 g/t to a maximum of 415 g/t. (These values were obtained from selected random intervals and cannot be construed to be representative of any particular thickness or overall length.) Historically, the best intercepts from the diamond drilling are 33.5m of 8.0 g/t Au (true thickness) and 5.2m of 35.4 g/t Au (true thickness).
Gary McLearn, A professional geoscientist (Ontario APGO #2900) and an Independent Qualified Person as defined by National Instrument 43-101, has prepared, supervised the preparation or approved the scientific and technical disclosure in the news release.
The technical information in this release has been reviewed and approved by Mr. Herb Duerr, P. Geo. St-Georges’ director, a qualified person as defined by National Instrument 43-101 Standards of Disclosure for Mineral Projects.
ON BEHALF OF THE BOARD OF DIRECTORS
“Vilhjalmur T. Vilhjalmsson”
VILHJALMUR THOR VILHJALMSSON President & CEO
About St-Georges
St-Georges is developing new technologies to solve some of the most common environmental problems in the mining industry. The Company controls all the active mineral tenures in Iceland. It also explores for nickel & PGEs on the Julie Nickel Project and the Manicougan Palladium Project on the Quebec’s North Shore.
Posted by AGORACOM
at 9:05 AM on Thursday, November 12th, 2020
SPONSOR: St-Georges is developing new technologies to solve some of the most common environmental problems in the mining industry. St. George controls all of the active mineral tenures in Iceland. It also explores for nickel on the Julie Nickel Project & for industrial minerals on Quebec’s North Shore and for lithium and rare metals in Northern Quebec and in the Abitibi region
St-Georges Eco-Mining holds all exploration licenses in nation
CEO says the ‘green gold’ should command a premium price
Exploration in Tröllaskagi (Troll’s peninsula) North Iceland. Source: Iceland Resources
Canadian explorer St-Georges Eco-Mining Corp. wants to revive Iceland’s long-dormant gold mining industry by drawing on the Nordic nation’s abundance of renewable energy.
The Montreal-based miner finished drilling a 124-meter-deep (407-foot-deep) hole in Thormodsdalur, outside Reykjavik, in September and may publish the results this month. Previous drilling cores indicated gold quantities of as much as 415 grams per ton there, though more research is needed to determine the size of the deposit, Chief Executive Officer Vilhjalmur Thor Vilhjalmsson said in an interview.
If the veins are big enough, St-Georges plans to mine with robots, while the equipment and processing primarily will use electricity made from geothermal and hydro power by Landsvirkjun, the state-owned power company. The moves come after gold hit a record in August and is up more than 20% this year.
“Our emphasis will be on making the most eco-friendly and socially responsible gold in the world,” Vilhjalmsson said. “We foresee that our gold would be sold with a premium.”
In an environment as pristine as Iceland’s, the potential for gold mines to pop up may trigger alarms among the island’s 364,000 residents, given the industry’s reputation for polluting and scarring the landscape. But Vilhjalmsson says his operation will be different.
“Our ideology is about making minimal disturbances to the ground,” he said. “In Thormodsdalur, you will hardly see it when mining activity starts.”
St-Georges will use all the material extracted from the ground during the mining process, Vilhjalmsson said. After the minerals are separated, the remainder would be used in building material and concrete.
Experimental Mining
The Canadian miner holds all exploration licenses for gold in Iceland after acquiring local corporation Melmi Ehf last month. Melmi owned the majority interest in the Thor Gold Project in Thormodsdalur, about 20 kilometers (12 miles) east of the capital.
Vilhjalmsson, 45, previously worked on mining projects in Greenland and Africa. He is optimistic that experimental mining in Iceland will start this decade, and he expects to spend almost 500 million Icelandic kronur ($3.6 million) on research during the next few years.
“We anticipate that by using the green energy Iceland offers, our production will be more cost-efficient than if we’d use fossil fuels,” he said. “We are in the process of doing a proof of concept for our model, and we hope it will be applicable to mining sites around the world.”
The company holds exploration permits for gold, silver and copper in three locations in Iceland and has applied for 11 more licenses. The Thormodsdalur endeavor will be funded through debt and private placement on the Canadian Securities Exchange.
The explorer’s shares have declined 25% so far this year, for a market value of C$10.4 million ($8 million).
‘Green Gold’
Grant Sporre, a senior analyst for metals and mining at Bloomberg Intelligence, said he is skeptical about the market opportunity since there’s no universal standard for what qualifies as “green gold.”
“It will be a while before any investors see a return on the Icelandic gold explorations component of their business,” he said.
Gold digging in Iceland started at the beginning of the 20th century. The Thormodsdalur site was discovered in 1905, and four years later the poet and entrepreneur Einar Benediktsson formed a mining company with investors from Norway, Britain and Germany.
The property produced a gold concentrate from 1911 to 1925 that was shipped to Germany for processing, but then the market faded away.
Interested renewed in 1989 after two Icelandic geologists, including Hjalti Franzson, studied the presence of gold in geothermal systems in New Zealand and Japan. That triggered local research funded by the Icelandic government. “There is enough gold in the ground here,” said Thorvaldur Thordarson, a professor in volcanology and petrology at the University of Iceland. “In Iceland, it’s perhaps not as concentrated in one place.
Posted by AGORACOM
at 10:10 AM on Monday, October 26th, 2020
Completed the acquisition of Melmi EHF, the Icelandic corporation that owned the majority interest in the Thor Gold Project
Acquisition allows St-Georges to control its destiny and plan its exploration campaigns with no interference
Reykjavik – TheNewswire – October 26, 2020 – St-Georges Eco-Mining Corp. (CSE:SX) (CNSX:SX.CN)(OTC:SXOOF) (FSE:85G1) is pleased to report that it has completed the acquisition of Melmi EHF, the Icelandic corporation that owned the majority interest in the Thor Gold Project and the remainder or the Icelandic mineral licenses not already controlled by St-Georges.
This transformative acquisition gives total control over the mineral licenses of the Republic of Iceland to St-Georges, making it the only junior exploration company to own all the mineral rights of a western country. This acquisition allows St-Georges to control its destiny and plan its exploration campaigns with no interference. It also gives the Company’s geological team access to extensive libraries of geological data, a large number of historical mineral samples and a well-maintained and secured national core shack that will be useable for future development. Furthermore, all the diamond drill cores from the Thor Gold project are now in the Company’s ownership and possession. The Company expects to be able to resample these cores in the process of elaborating its maiden NI 43-101 Gold-Silver and Copper resource estimate on the Thor Gold Project.
The Melmi EHF Acquisition
As previously disclosed in a press release on July 2, the Corporation will pay up to CA$775,000 in consideration of all the Melmi EHF shares as follows:
(i)pay $65,000 upon the execution of the definitive share purchase agreement (the “Definitive Agreement”)
(ii)pay an additional $60,000 on the earlier of: (a) 90 days of execution of the Definitive Agreement; and (b) the start of drilling on the Thor Gold Project;
(iii)issue $400,000 of non-transferable debentures of the Corporation bearing a 6% annual interest, maturing 3 years from issuance (the “Maturity Date”), of $100,000 will be convertible into common shares in the capital of SX (the “SX Shares”) at a deemed price of $0.10 per SX Shares, $150,000 at a deemed price of $0.15 per SX Shares, and $150,000 at a deemed price of $0.20 per SX Shares; and
(iv) as additional consideration, subject to and upon all the Licences Application having been granted, issue $250,000 non-transferable debentures of SX bearing a 6% annual interest, maturing 3 years from issuance, and convertible into SX Shares at a deemed price of $0.20 per SX Shares.
Iceland Operational Update
In September, the Corporation drilled a reversed circulation (RC) drill hole for a total length of 124 meters.
In October, reconnaissance and follow-up fieldwork was conducted in Vopnafjordur (Vopna) and Trollaskagi (Trolla) projects. Mineralization bearing outcrops were identified and sampled and brought to St-Georges’ secure facilities in Reykjavik for petrographic analysis. Some of the
se samples were prepared to be sent for assays to ALS Laboratories in Dublin, Ireland. Management expects that the results of these essays will become available later this year, and the Company expects to report on it as soon as the information becomes available.
Picture 1, Outcrop on Trolla Gold Project
Picture 2. Outcrop on Trolla Gold Project
Picture 3. Close up of a Quartz Vein from an Outcrop on Trolla
Picture 4 & 5: Quartz Vein from Trolla Outcrop (Picture 3) Under Magnifying glass (10X)
Picture 5. Magnified Quartz vein from Trolla Outcrop gold is associated with pyrite in Iceland
Picture 6. Outcrop at Trolla Gold Project
Picture 7. Water Stream over Outcrop at Vopna Gold.
About Iceland
Iceland climate, location, access and infrastructure (Histed,R,2010)
Located in the North Atlantic, approximately midway between Greenland and Great Britain, the warm North Atlantic Current ensures that the climate in Iceland, described as subpolar, oceanic, has generally higher temperatures than locations of similar latitude throughout the world. Regions or places that have similar climate are Tierra del Fuego, the Aleutian Islands and Alaskan Peninsula. Although Iceland lies close to the Arctic, its coasts remain ice-free year-round.
As can be expected, the southern coast is generally warmer, wetter and windier than the northern coast. The lower-lying, inland areas in the north are the most arid, although snowfall in the north during the winter months is greater than in the south.
Historically, recorded temperature extremes for the country are 30.5 C and -38.0C. The high in Reykjavik was 26.2C in 2008, and the low there was -24.5C in 1918. Although the Icelandic climate can be harsh, the GI-Melmi JV completed a drilling program at Thormodsdalur (Thor Gold Project) from November 2005 through May 2006 without undue difficulty. In the north, the increased snowfall would make an effort such as this more difficult. Reconnaissance is to be limited to the summer months.
Iceland’s infrastructure is well developed and modern. Road construction was begun around the start of the 20th century and peaked during the 1980’s. The roads are well constructed and maintained asphalt, although some gravel roads are still found. The current road system connects most of the larger towns and villages and is mostly confined to the coastal areas. Currently, there are a total of 12,691 kilometers of roads in Iceland that includes 3,262 kilometers of paved surface. Inland road access diminishes to dirt roads to no roads making access to some areas difficult, requiring foot travel or helicopter support. There are no railroads in Iceland.
Geological Setting
Iceland occurs at the junction of two large physical structures; the Mid Atlantic Ridge and the Greenland-Iceland-Faeroes Ridge (Figure 9). At this intersection, the mantle is hotter and less dense than the surrounding mantle. The mantle material rises as a result of heat and chemical-related density differences resulting in a dome in the crust above. This hotspot is causing a higher rate of extrusive volcanism at this point on the Mid Atlantic Ridge, which has, in turn, caused the region to be built up to a level more than 3 kilometers above the surrounding seafloor and covers an area of more than 350,000 km2. This is known as the Iceland Basalt Plateau. The portion of the plateau above sea level is now the country of Iceland (Martin, et al., 2007).
Tectonic Setting
In the Mid Atlantic Rift environment, the central portions of Iceland have moved outwards, away from the zones of active rifting and crustal development such that oldest rocks occur towards the margins and youngest in the center. Due to the migration of the hotspot to the south-east with time, an asymmetry has been imparted to the shape of the island. Currently, the hotspot lies under the south-eastern quadrant of the island (Corbett, 2004). This area now denotes the zone of active rifting and volcanism. Figure 10 shows the geology of Iceland defined by tectonic zones that coincide with the ages of the rocks.
Principal Tectonic Zones
The significant rift systems that have focused volcanism through time are noted below.
– The Snaefellsnes-Skagi Rift Zone in western Iceland was active in the 16-6.5 m.y. period. – The Reykjanes-Langjokull Rift Zone in central western Iceland resulted in the development of the Reykjanes Peninsula from about 6 my. – The North Volcanic Rift Zone became active from 3-4 my and extends to the present time. – An Eastern Volcanic Rift Zone is developing at this time.
Significant quantities of felsic intrusive and extrusive rocks occur in the dominantly basaltic sequence, and the felsic rocks locally display gold-anomalous hydrothermal alteration (Corbett, 2004).
Structurally, NE fractures reflect the spreading centre direction and are, therefore, some of the most numerous and laterally extensive fracture patterns, commonly evident as normal faults that may be exploited by dykes. NS and ENE fractures are developed as conjugate fractures during the NW-SE extension.
Posted by AGORACOM-JC
at 2:11 PM on Friday, September 25th, 2020
The Liberal Government announced new measures towards climate, clean energy and transport in yesterday’s throne speech. This will no doubt help accelerate the transition toward electric mobility while ensuring a cleaner, healthier economy. Here are 6 small cap companies that stand to benefit from these initiatives (in alphabetical order).
Gratomic Inc. (GRAT :TSXV) is gearing up to bring its high grade, environmentally sustainable graphite to the North American EV market. In a race that started in 2012, Gratomic is the only one of several graphite companies that has successfully brought its asset through to the final construction phase.
The Company is now ready to introduce its graphite to battery producers for use in advanced anode technology. Being of such naturally high purity, Gratomic’s vein graphite is ideal for use in this application, requiring simpler, less expensive and more efficient processing methods, resulting in a final product with naturally lower contents of deleterious elements.
In addition to its high purity levels, the Company’s Aukam graphite is a much cleaner alternative to this market’s current supply options as a sustainably sourced resource as per the Company’s September 3rd Press Release. The Company intends to establish a new benchmark for recording and guaranteeing the product’s carbon footprint, based on latest generation blockchain technology.
Gratomic is preparing the high grade Aukam Graphite mine for commercial production. The company anticipates commencement of production in Q4 of 2020 while producing 20,000 tonnes of high purity vein graphite annually to support a burgeoning market.
HPQ Silicon Resources (HPQ:TSXV) is a Canadian producer of Silicon Solutions that is building a line of specialty silicon products needed for electric batteries. More than just lip service, HPQ has already announced NDA’s with 2 undisclosed companies in the space and has hinted at other NDA’s that are so tight they could not even be announced.
Over the past 5 years, HPQ has teamed up with 2 world renowned technology partners, including PyroGenesis Canada (PYR:TSXV) to manufacture high purity silicon cleaner, cheaper and better than anyone in the world – because you can’t dig it out of the ground like other battery metals such as graphite, cobalt and nickel. Now HPQ is on the verge of sending samples of its industry leading silicon to NDA and other potential partners as early as December.
However, despite providing shareholders with a great return during this period, HPQ’s silicon plan was still met by skepticism amongst investors who found it easier to understand traditional battery metal stories …. This all changed on September 23rd 2020, when this headline emerged from Tesla’s “Battery Day”
Lomiko Metals (LMR: TSXV) discovered high-grade graphite at La Loutre property in Quebec and is working toward a Pre Economic Assessment to increase current resource to 10m/t of 10% Cg.
“Initial indications are that La Loutre Graphite Property is high-quality and high-grade and thus worthy of development.” stated A. Paul Gill, CEO. “The only operating graphite mine in North America which is the Imerys Graphite & Carbon at Lac-des-Îles, is 30 miles northwest of La Loutre and has operated for 30 years.
Lomiko is in an ideal position to participate in the Electrical Vehicle market with the potential to become a North American supplier of graphite materials.
New Age Metals Inc. (NAM: TSXV) is a green metals company focused on PGM and Lithium. The company’s Lithium division is the largest mineral claim holder in the Winnipeg River Pegmatite Field, where the Company is exploring for hard rock lithium and various rare elements such as tantalum and rubidium. Manitoba is THE untapped frontier for ‘Hard Rock’ Lithium.
The Company’s philosophy is to be a project generator with the objective of optioning its Lithium projects with major and junior mining companies through to production.
St-Georges Eco-Mining (SX:CSE) is developing new technologies to solve some of the most common environmental problems in the mining industry. The company is focused on value-adding the recovery of battery-grade nickel, ferronickel for alloying in the stainless steel industry and recovery of valuable elements such as cobalt. St-Georges is working on processing nickel and minimizing tailings with solutions to energy challenges.
The company is also working on lithium extraction technologies with non-conventional resources, such as clays, and working on ways to concentrate and reduce the environmental impact while unlocking the valuable content of the material.
More than just lip service, the Company’s lithium extraction technology has already delivered its first License agreement with Iconic Minerals in exchange for:
$100,000 cash
5,000,000 shares in 3 stages
A perpetual net revenue interest royalty (NRI) of 5% on all minerals produced on sites licensed with SX technologies in the state of Nevada
Tartisan Nickel (TN:CSE) – 95 Million Pounds Of Contained Nickel
Nickel is the new gold, a critical element for the growing electric vehicle market, Tartisan just announced a re-estimation of the Mineral Resource Estimate at the Kenbridge Nickel-Copper-Cobalt Project. Kenbridge holds mineral resources of 7.5 Mt of 0.58% Ni and 0.32% Cu for a total of 95 Mlb of contained nickel. Class 1 nickel sulphide deposits are emerging as a key supplier of Nickel to the growing electric vehicle market.
CEO Mr. Mark Appleby stated, “The Updated Mineral Resource Estimate was necessary to determine if Kenbridge mineralization is potentially extractable under current metal prices and exchange rates. This is a major milestone achieved by the Company as the market conditions for Class 1 nickel sulphide deposits improve. The differences between the previous P&E Mineral Resource Estimate (2008) and the current P&E Updated Mineral Resource Estimate are attributed to changes in metal prices and recalculation of NSR values.
Posted by AGORACOM-JC
at 9:10 AM on Tuesday, September 15th, 2020
Completed its first reverse circulation drill hole at the Thor project in the vicinity of Reykjavik in Iceland
The hole was positioned to test a previous surface sample that assayed 37.4 g/t gold and 69.3 g/t silver
The hole was successfully ended at 124 meters
Reykjavik – September 15, 2020 – St-Georges Eco-Mining Corp. (CSE:SX) (CNSX:SX.CN) (OTC:SXOOF) (FSE:85G1) is pleased to disclose that it has completed its first reverse circulation drill hole at the Thor project in the vicinity of Reykjavik in Iceland. The hole was positioned to test a previous surface sample that assayed 37.4 g/t gold and 69.3 g/t silver. The hole was successfully ended at 124 meters.
The exploration team lead by Pr Helen Salmon and supported by Herb Duerr and lead field geologist Gary McLearn, had identified earlier in August a new target zone outside the historically explored area following the grab sample results from sample 008 that yielded 69.3 g/t silver, 0.216% Copper & 37.4 g/t Gold. (See Company’s Press Release from August 21, 2020).
Because of high grades in past mining and the presence of visible gold in past work, a decision to sample the hole on 30 cm intervals was made by management. Our contract geologist may have observed visible grains of gold and possible accessory silver minerals near the bottom of the hole. As such, management has decided to do a standard 50 assay ton fire assay with atomic absorption finish for both gold and silver. Any samples assaying over 0.8 g/t gold will be automatically reassayed. If the samples are inconsistent, the lab will be instructed to do metal screening for particulate gold on reject material.
The current surface exploration campaign conducted one drill hole via reverse circulation using a standard hammer drill bit of 5.5 inches (~14 cm) in size. The drilling was conducted under the constant supervision of the Company’s field geologist, and all the material of every 30cm of depth was collected in plastic buckets sealed, identified with a code, and carried to St-Georges’ secure warehousing facilities in Reykjavik. From there, the geologists will prepare a representative sample for every bucket. Based on the visual analysis conducted while logging the material so far, the Company expects to send over 400 samples to be assayed to ALS Global Laboratories (ISO/IEC 17025 accredited) in Loughrea, Ireland. The Company intends to request a rush treatment for the assay of these samples.
The hole completed went from surface to a depth of 124 meters on an azimuth of 110 degrees. The drill rig cased the hole to 2 meters depth encountering approximately 1.5 meters of overburden at the surface. The mineralization encountered is compatible with the type often favorable for gold on the Thor project consisting of quartz veining adjacent to basalt with apparent abundant pyrite and accessory sulphides. Visible gold and silver may have been identified in the field by the Company’s field geologist. These sections are still being logged and sampled and prepared to be sent to the laboratory. See Figures 1, 2 & 3.
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Figure 1. Mineralization floating on top of drilling mud
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Figure 2. Mineralization from quartz veining
Figure 3. Mineralization close up from Fig. 2
St-Georges’ President & CEO, Vilhjalmur Thor Vilhjalmsson, commented: “(…) We are encouraged by the current pace of the exploration work on the Thor Gold Project. The team has worked with the constraints of the COVID-19 quarantine and additional precautions imposed by the new government regulations, and still ended-up delivering within the aggressive target dates we had put forward (…) We are particularly pleased with the field team led by Gary. We have given the team much leeway and trusted their professional expertise. Gary took a bold decision in choosing an underexplored location for the only deeper drill hole we were authorized for to date under our agreement with Melmis. For what we know so far, it was worth the risk (…) we expect to close the transaction with Melmis this month, and we will keep the drilling contractor busy for the foreseeable future on the Thor Gold Project (…)”.
About Thor Gold
The Thormodsdalur Gold Project is located about 20km east of the city center of Reykjavik and south-east of the Lake Hafravatn. The project was discovered in 1908. The property produced a gold concentrate from 1911 to 1925, which shipped to Germany for processing. Over 300 meters of tunnels explored and mined one or more quartz veins and wall rock below open cuts at the surface.
Studies between 1996 and 2013 identified the project mineralization as a low sulfidation system hosted by basic to intermediate flows of Pliocene to Miocene age. The host contains banded chalcedony and ginguro within a fault zone up to 5 meters in width. To date, the identified gold trend has a known strike length of 700 meters determined by drill intercepts. Petrographic analysis of the vein material identified gold occurring in its free form and as part of an assemblage with pyrite and chalcopyrite. Petrographic and XRD studies show an evolution of the vein system from the zeolite assemblage to quartz-adularia and lastly, to minor calcite.
Thirty-two holes have been drilled within the license area, for a total of 2439 meters. Gold values vary from less than 0.5 g/t to a maximum of 415 g/t. (These values were obtained from selected random intervals and cannot be construed to be representative of any particular thickness or overall length.) Historically, the best intercepts from the diamond drilling are 33.5m of 8.0 g/t Au (true thickness) and 5.2m of 35.4 g/t Au (true thickness).
Gary McLearn, A professional geoscientist (Ontario APGO #2900) and an Independent Qualified Person as defined by National Instrument 43-101, has prepared, supervised the preparation or approved the scientific and technical disclosure in the news release.
ON BEHALF OF THE BOARD OF DIRECTORS
“Vilhjalmur Thor Vilhjalmsson”
Vilhjalmur Thor Vilhjalmsson
President and CEO
About St-Georges
St-Georges is developing new technologies to solve some of the most common environmental problems in the mining industry.
The Company controls directly or indirectly, through rights of first refusal, all of the active mineral tenures in Iceland. It also explores for nickel on the Julie Nickel Project & for industrial minerals on Quebec’s North Shore and for lithium and rare metals in Northern Quebec and in the Abitibi region. Headquartered in Montreal, St-Georges’ stock is listed on the CSE under the symbol SX, on the US OTC under the Symbol SXOOF and on the Frankfurt Stock Exchange under the symbol 85G1
The Canadian Securities Exchange (CSE) has not reviewed and does not accept responsibility for the adequacy or the accuracy of the contents of this release.
Posted by AGORACOM
at 12:48 PM on Friday, September 11th, 2020
EC reports highlighted an overlap between the location battery raw materials resources in the EU and “regions that are heavily dependent on coal or carbon-intensive industries and where battery factories are planned”. Image: EC Joint Centre for Research.
Lithium has been added to a list of raw materials deemed essential to secure supply in Europe, for the first time ever, by the European Commission.
Earlier this month the Commission presented its Action Plan on Critical Raw Materials and a “foresight study” on critical raw materials looking ahead to 2030 and 2050, as well as its updated 2020 list of materials. This list is updated every three years and identifies the raw materials that the Commission said are “most important economically and have a high supply risk”.
A statement from the EC also talked about the importance of access to certain resources to deliver the European Green Deal while preventing the shift to carbon neutrality from becoming also a shift from dependency on fossil fuels to a dependency on raw materials. This week, Members of European Parliament spoke at a webinar hosted by European energy storage industry group EASE about the vital importance of energy storage for decarbonising the continent while also ensuring security of energy supply.
The EC’s documents likewise firmly emphasised the importance of battery raw materials. While cobalt is already on that list, and lithium was added this year, the EC said it will “monitor nickel closely,” given the metal’s importance in battery production. Vanadium, used in flow batteries – as well as in steel production – is also on the 2020 list.
“A secure and sustainable supply of raw materials is a prerequisite for a resilient economy. For e-car batteries and energy storage alone, Europe will for instance need up to 18 times more lithium by 2030 and up to 60 times more by 2050,” said European Commission politician Maroš Šefčovič, who has championed the need to create battery supply chains and manufacturing capabilities in the continent.
“As our foresight shows, we cannot allow to replace current reliance on fossil fuels with dependency on critical raw materials. This has been magnified by the coronavirus disruptions in our strategic value chains.”
Šefčovič, the EC’s Vice-President for Interinstitutional Relations and Foresight, was instrumental in the creation of the European Battery Alliance, which has committed to investing billions of Euros into the manufacturing value chain on the continent over the next few years.
One of the projects to benefit from that Alliance, start-up Northvolt’s first gigafactory in Sweden, received its first processing equipment a few days ago, the company said. Now, the European Commission is set to formulate a similar Alliance for Critical Raw Materials.
