QIMC Announces Landmark Discovery of Hydrogen Soil Samples Over 1000ppm on Recently Completed 9.7km North-South Line, Outlining Highly Charged 70km2 Hydrogen Area
QIMC Announces Landmark Discovery of Hydrogen Soil Samples Over 1000ppm on Recently Completed 9.7km North-South Line, Outlining Highly Charged 70km2 Hydrogen Area
Quebec City, Quebec--(Newsfile Corp. - September 4, 2024) - Quebec Innovative Materials Corp. (CSE: QIMC) (FSE: 7FJ) ("QI Materials", "QIMC" or the "Company"), is proud to announce a landmark discovery made in collaboration with our Quebec partner, the Institut National de la Recherche Scientifique (INRS). The findings from the recently completed 9.7km north-south line 7 have uncovered hydrogen soil samples with concentrations exceeding 1000 parts per million (ppm). Significantly, we observed 8 readings exceeding 600 ppm, with 2 of those surpassing 1000 ppm. Additionally, the average measured 531.9 ppm over a 450 ms interval between the readings above 1000 ppm (Fig. 1). Professor Marc Richer-Laflèche, Scientific Head of Applied Geoscience Laboratory comments, "These highly anomalous values can be considered first-class given the absolute values that, locally, exceed the instrumental detection limit of 1000 ppm. The results from Line 7 validate the geological hydrogen model interpretations we outlined in previous announcements."
魁北克市,魁北克-(Newsfile corp,2024年9月4日)-魁北克創新材料公司(CSE: QIMC)(FSE: 7FJ)(「QI材料」,「QIMC」或「公司」)很自豪地宣佈,與我們的魁北克合作伙伴魁北克國家研究科學研究所(INRS)合作取得了一個具有里程碑意義的發現。最近完成的南北向9.7公里第7線發現了氫土壤樣本,濃度超過每百萬1000部分(ppm)。顯著的是,我們觀察到8個讀數超過了600 ppm,其中有2個超過了1000 ppm。此外,測得的平均值爲531.9 ppm,在1000 ppm以上的讀數之間的450毫秒間隔內(圖1)。 應用地球科學實驗室的科學負責人Marc Richer-Laflèche教授評論說:「鑑於這些異常高的數值可以被視爲一流,因爲在局部地區超過了每百萬1000 ppm的儀器檢測限度。第7線的結果證實了我們在之前公告中概述的地質氫模型解讀。」
The data distribution is illustrated in Figure 2, which maps the anomalies against a backdrop of satellite imagery.
數據分佈在圖2中,該圖將異常映射到衛星圖像的背景上。
Figure 1. Section showing the variability of H2 concentrations measured in the soils of line 7 at St-Bruno-de-Guigues. Data are given as a function of distance in meters
圖1. 顯示聖布魯諾德吉格斯第7線土壤中H2濃度的變異性部分。 數據按米的距離函數給出
Figure 2: Map of the distribution of hydrogen anomalies in the soils of the St-Bruno-de-Guigues area. Data projected onto satellite image background.
圖2:聖布魯諾德吉格斯地區土壤中氫異常分佈地圖。 數據投影到衛星圖像背景上。
Exceptional natural hydrogen levels
異常的天然氫水平
"We are thrilled to announce this transformative discovery outlining a highly charged 70km2 hydrogen area within our 250km2 Ville Marie property," said John Karagiannidis, CEO of QIMC. "The hydrogen concentrations identified by INRS mark a significant advancement in our pursuit of clean, renewable energy solutions. This breakthrough highlights our leadership in the hydrogen sector and strengthens our commitment to advancing sustainable technologies that support Quebec's clean emission goals. We eagerly anticipate the next steps in developing and commercializing this remarkable hydrogen resource."
「我們很高興地宣佈,我們在250km2 Ville Marie地區內發現了一個高濃度的70km2氫區域,」 QIMC的首席執行官John Karagiannidis說。「INRS確定的氫濃度標誌着我們在追求清潔可再生能源解決方案方面取得的重大進展。這一突破突顯了我們在氫能源領域的領導地位,並加強了我們致力於發展可支持魁北克清潔排放目標的可持續技術。我們急切期待着發展和商業化這一顯著的氫源的下一步。」
Strategic Impact
戰略影響
To delineate the area of high hydrogen values observed along line 1 of the July 2024 soil gas survey, the INRS field crew extended line 1 westward during the first week of August 2024. This extension begins at the boundary between forest and agricultural land and ends near the chemin des secondes et troisième rangs of St-Bruno-de-Guigues (line 7). "As initially predicted in our hydrogen model, the intensity of the soil hydrogen anomalies gradually decreased towards the west (Figure 3)", notes Professor Marc Richer-Lafleche. "This decrease in concentration emphasizes a westward closure of the hydrogen anomaly domain. This spatial variability may reflect, among other things, the presence of contrasting geological units (arkosic sandstones, Cobalt Group conglomerates, Ordovician dolomitic limestones) and also the probable presence of the Rivière-Blanche fault, which may be present in the St-Bruno-de-Guigues area beneath the thick glacial-lacustrine sediments", states Professor Marc Richer-Lafleche.
爲了劃定在2024年7月土壤氣調查的第一條線路上觀察到的高氫值區域,INRS野外工作隊在2024年8月的第一週向西延伸了第一條線路。 這個延伸從森林和農業土地的邊界開始,結束在聖布魯諾德吉格的第二和第三排的路附近(第7條線)。 「正如我們關於氫模型最初的預測,土壤氫異常的強度逐漸朝西方減弱(圖3)」,馬克裏謝-拉弗列什教授指出。「這種濃度的降低強調了氫異常領域向西方的封閉。這種空間變異性可能反映了諸多因素,包括對比地質單元(長石砂岩,鈷礦團集,奧陶紀白雲岩)的存在,還可能有River-Blanche斷層的存在,這可能存在於聖布魯諾德吉克區域,在厚厚的冰磧湖相沉積物下方」,馬克裏謝-拉弗列什教授說。
Fig. 3: Location map of the soil gas survey for Line 7 (North-South) and East-West Lines 1, 2, 3, 4 and 5.
圖3:第7條線(南北)和東西1、2、3、4和5條線的土壤氣調查的位置圖。
"We believe that this fault is partly responsible for the emplacement of hydrogen in the St-Bruno-de-Guigues area," said John Karagiannidis, CEO of QIMC. The location of this fault is a priority for QIMC and INRS and will be the subject of a high spatial resolution audiomagnetotelluric survey to be carried out in the fall of 2024.
「我們相信這個斷層在一定程度上對聖布魯諾德吉克地區的氫儲存負有責任,」 QIMC首席執行官John Karagiannidis說。 這個斷層的位置是QIMC和INRS的優先事項,將是2024年秋季進行的高空間分辨率聲電磁測深勘測的主題。
"In the area of the sampling stations containing the hydrogen anomalies, there is no evidence in the field (or in the MRNF databases) of the presence of wells (former mining or oil wells), which could explain, among other things, the presence of H2 anomalies from anthropogenic sources. What's more, unlike the false H2 anomalies regularly reported in the scientific literature, the H2 anomalous zones at St-Bruno-de-Guigues extend for more than one kilometer (along north-south or east-west axes), which cannot be explained by anthropogenic sources.
「在含有氫異常的採樣站區域,現場(或MRNF數據庫)沒有關於井的存在的證據(舊礦井或油井),這可以解釋在聖布魯諾德吉格存在H2異常的存在。 此外,與科學文獻中定期報告的假H2異常不同,聖布魯諾德吉克的H2異常區域延伸超過一公里(沿着南北或東西軸),這不能由人爲來源解釋。」
It is also unlikely that the gas anomalies are the result of subsurface biogenic processes, as the glaciolacustrine sediments hosting the H2 anomalies and also the H2-depleted zones (background) are very similar from one sampling site to another. These Quaternary sediments are essentially dominated by a mineral matrix with little potential to generate significant amounts of hydrogen through fermentation reactions with organic matter. In contrast to the study by Etiope et al. (2024), which was carried out on soils from the Pusteria Valley region (northern Italy), the H2 concentrations observed in soils from the Lake Témiscamingue graben are not associated with very high CH4 and CO2 concentrations. Therefore, it is likely that the source of hydrogen in St-Bruno-de-Guigues soils is geological rather than biogenic," details Professor Marc Richer-Lafleche.
而且,從一個採樣點到另一個採樣點,寄生湖沉積物中的H2異常和H2耗盡區(背景)非常相似,這表明氣體異常應該不是地下生物發酵過程的結果。這些第四紀沉積物主要由礦物質基質主導,幾乎沒有通過與有機物的發酵反應產生大量氫氣的潛力。與Etiope等人(2024年)在意大利北部Pusteria山谷地區的土壤研究相反,St-Bruno-de-Guigues土壤中觀察到的H2濃度與非常高的CH4和CO2濃度無關。因此,可以推斷St-Bruno-de-Guigues土壤中的氫源是地質性的,而不是生物性的。詳細情況請參閱Marc Richer-Lafleche教授的說明。
Next Steps:
下一步:
Soil sampling is scheduled in the fall of 2024 to further analyze the granulometric and elemental characteristics of glaciolacustrine sediments in the St-Bruno-de-Guigues area.
計劃在2024年秋季對St-Bruno-de-Guigues地區的寄生湖沉積物的顆粒度和元素特徵進行進一步分析。
Gravimetry and audiomagnetotellurism (AMT) geophysics are also planned for the fall of 2024 to assess variations in the thickness of local sedimentary rock deposits (gravity troughs) over the Archean basement. These data will allow us to locate the areas most likely to contain reservoir rocks. AMT data will allow us to locate graben-related faults in the St-Bruno-de-Guigue area that are covered by Quaternary sediments.
計劃在2024年秋季通過重力測量和聲磁電 tellurism(AMT)地球物理學評估太古時代基座岩石下的局部沉積岩層厚度的變化(重力槽)。這些數據將使我們能夠確定最有可能含有儲層岩石的區域。AMT數據將使我們能夠確定St-Bruno-de-Guigue地區的寄生湖斷層,這些斷層被第四紀沉積物覆蓋。
"The high levels of hydrogen discovered by INRS underscore our commitment to leading the transition to sustainable, clean energy solutions," said John Karagiannidis. "We are excited about the upcoming phases of commercial development and the opportunity to advance our renewable energy initiatives."
「INRS發現的高水平氫氣凸顯了我們領先可持續、清潔能源解決方案的承諾,」John Karagiannidis說。「我們對商業發展的下一階段和推進可再生能源計劃的機會感到興奮。」
REF: Etiope, G., Ciotoli, G., , Bena, E., Mazzoli, C., Rockmann, T., Sivan, M., Squartini, A., Laemmel, A., Szidat, S., Haghipour, N. and Sassi, R., 2024. Surprising concentrations of hydrogen and non-geological methane and carbon dioxide in the soil . Science of the Total Environment, 948.
REF:Etiope,G.,Ciotoli,G.,Bena,E.,Mazzoli,C.,Rockmann,萬億.,Sivan萬.,Squartini,A.,Laemmel,A.,Szidat,S.,Haghipour,N.和Sassi,R.,2024年。意外的高濃度氫、非地質甲烷和二氧化碳存在於土壤中。《全球環境科學》,第948期。
About the INRS and Pr. Marc Richer-LaFlèche, P.Geo.
關於INRS和Marc Richer-LaFlèche教授,地質專業工程師
The Institut National de la Recherche Scientifique ("INRS") is a high-level research and training institute. Pr. Richer-LaFlèche's team has exceptional geological, geochemical and geophysical experience specifically in the regions of QIMC's newly acquired claims. They have carried out over six years of geophysical and geochemical work and collected thousands of C1-C4 Soil-Gas analyses.
國家科學研究所(「INRS」)是一家高水平的研究和培訓機構。Pr. Richer-LaFlèche團隊在QIMC新收購的權利範圍內,具有特殊的地質、地球化學和地球物理經驗。他們進行了超過6年的地球物理和地球化學工作並收集了數千個C1-C4土壤氣體分析。
M. Richer-LaFlèche also holds an FRQNT grant, in partnership with Quebec MRN and the mining industry, to develop and optimize a Soil-Gas method for the direct detection of mineralized bodies and faults under Quaternary cover. In addition to sulphide gases, hydrogen was systematically analyzed in the numerous surveys carried out in 2023 in Abitibi, Témiscamingue and also in the Quebec Appachian. M. Richer-LaFlèche is the Qualified Person responsible for the technical information contained in this news release and has read the information contained herein.
Richer-LaFlèche教授還持有FRQNt撥款,與魁北克MRN和礦業行業合作,開發和優化一個土壤氣體方法,用於直接檢測第四紀覆蓋下的礦化體和斷層。除硫化氣體外,氫也在2023年在阿比提比、特米斯卡明和魁北克應用山脈的許多調查中進行了系統分析。Richer-LaFlèche教授是負責本新聞發佈所包含技術信息的合格人員,並已閱讀此處所包含信息。
In addition, the INRS team has several portable gas spectrometers and the sampling equipment and logistics necessary for taking gas samples and geophysical measurements on the ground or in the aquatic environment. He is a professional geologist registered with the Ordre des géologues du Québec and is the Qualified Person responsible for the technical information contained in this news release and has read the information contained herein and approves the press release.
此外,INRS團隊還擁有多款便攜式氣體光譜儀和採樣設備以及進行地面或水環境中氣體樣本和地球物理測量所需的物流。他是一名在魁北克地質師協會註冊的專業地質學家,也是負責技術信息的合格人員,負責此新聞稿中包含的技術信息,並閱讀了這裏的信息並批准了新聞發佈。
For more information about Quebec Innovative Materials Corp. and its products, please visit .
有關魁北克創新材料公司及其產品的更多信息,請訪問。
About Québec Innovative Materials Corp.
魁北克創新材料公司是一家專注於勘探和開發加拿大豐富資源潛力的礦產勘探和開發公司。在安大略省和魁北克省擁有的物業中,QIMC專注於白色(天然)氫氣和高品位硅石礦牀的勘探。QIMC致力於可持續經營和創新。同時,QIMC專注於環境保護和尖端提取技術,旨在發掘這些材料的全部潛力,推動清潔能源解決方案以驅動人工智能和碳中和經濟,併爲實現更加可持續的未來做出貢獻。
Québec Innovative Materials Corp. is a mineral exploration, and development company dedicated to exploring and harnessing the potential of Canada's abundant resources. With properties in Ontario and Québec, QIMC is focused on specializing in the exploration of white (natural) hydrogen and high-grade silica deposits, QIMC is committed to sustainable practices and innovation. With a focus on environmental stewardship and cutting-edge extraction technology, we aim to unlock the full potential of these materials to drive forward clean energy solutions to power the AI and carbon-neutral economy and contribute to a more sustainable future.
魁北克創新材料公司是一家礦業勘探和開發公司,致力於探索和利用加拿大豐富的資源潛力。 QIMC在魁北克和安大略擁有物業,專注於白色(天然)氫和高品位硅石礦牀的勘探,致力於可持續發展和創新。我們專注於環境管理和尖端提取工藝,旨在釋放這些材料的全部潛力,以推動AI和碳中和經濟的清潔能源解決方案,併爲更可持續的未來做出貢獻。
QUÉBEC INNOVATIVE MATERIALS CORP.
John Karagiannidis
Chief Executive Officer
Tel: +1 438-401-8271
魁北克創新材料公司。
約翰·卡拉吉亞尼迪斯。
首席執行官
電話:+1 438-401-8271。
For further information, please contact:
Email: info@qimaterials.com
如需更多信息,請聯繫:
郵箱:info@qimaterials.com
Neither the Canadian Securities Exchange nor its Regulation Services Provider (as that term is defined in the CSE policies) accepts responsibility for the adequacy or accuracy of this news release and has neither approved nor disapproved the contents of this news release.
加拿大證券交易所及其規則制定機構(如此項術語在CSE政策中定義)不承擔對此新聞發佈的充分性或準確性的責任,並且既未批准也未駁回此新聞發佈的內容。
Forward-Looking Statements
前瞻性聲明
This news release contains statements that constitute "forward-looking statements". Such forward-looking statements involve known and unknown risks, uncertainties and other factors that may cause Québec Innovative Materials' actual results, performance or achievements, or developments in the industry to differ materially from the anticipated results, performance or achievements expressed or implied by such forward-looking statements. Forward-Looking statements are statements that are not historical facts and are generally, but not always, identified by the words "expects," "plans," "anticipates," "believes," "intends," "estimates," "projects," "potential" and similar expressions, or that events or conditions "will," "would," "may," "could" or "should" occur.
本新聞發佈包含構成「前瞻性陳述」的陳述。此類前瞻性陳述涉及已知和未知的風險、不確定性和其他因素,可能導致魁北克創新材料的實際結果、績效或成就或行業發展與預期的結果、績效或成就不符。前瞻性陳述是指那些並非歷史事實的陳述,通常但不總是以「預計」、「計劃」、「預測」、「相信」、「打算」、「估計」、「項目」、「潛力」及類似表達方式,或者事件或條件「將」、「應該」、「可能」、「可能」或「應該」發生。
Although Québec Innovative Materials believes the forward-looking information contained in this news release is reasonable based on information available on the date hereof, by their nature, forward-looking statements involve assumptions, known and unknown risks, uncertainties and other factors which may cause our actual results, performance or achievements, or other future events, to be materially different from any future results, performance or achievements expressed or implied by such forward-looking statements.
儘管魁北克創新材料相信本新聞稿中所包含的前瞻性信息在今天的基礎上是合理的,但由於它們的性質,前瞻性聲明涉及假設、已知和未知的風險、不確定性和其他因素,可能導致我們的實際結果、業績或成就,或其他未來事件,與任何未來結果、業績或成就有所不同,這些可能由這些前瞻性聲明所表達或隱含的前瞻性聲明造成。
Examples of such assumptions, risks and uncertainties include, without limitation, assumptions, risks and uncertainties associated with general economic conditions; adverse industry events; future legislative and regulatory developments in the mining sector; the Company's ability to access sufficient capital from internal and external sources, and/or inability to access sufficient capital on favorable terms; mining industry and markets in Canada and generally; the ability of Québec Innovative Materials Corp. to implement its business strategies; competition; and other assumptions, risks and uncertainties.
此類假設、風險和不確定性的例子包括但不限於與一般經濟條件有關的假設、風險和不確定性;不利的行業事件;採礦業未來的立法和監管發展;魁北克創新材料公司從內部和外部來源獲得足夠資金的能力和 / 或無法以有利的條件獲得足夠的資金的能力;加拿大和整個加拿大的採礦業和市場;魁北克創新材料公司實施其業務策略的能力;競爭;以及其他假設、風險和不確定性。
The forward-looking information contained in this news release represents the expectations of the Company as of the date of this news release and, accordingly, is subject to change after such date. Readers should not place undue importance on forward-looking information and should not rely upon this information as of any other date. While the Company may elect to, it does not undertake to update this information at any particular time except as required in accordance with applicable laws.
本新聞發佈中包含的前瞻性信息代表了公司在本新聞發佈日的預期,因此,這些信息隨後可能會發生變化。讀者不應過分重視前瞻性信息,並不依賴於其他任何日期的信息。雖然公司可能選擇這樣做,但除了符合適用法律規定的要求,公司不承擔更新此信息的任何特別義務。
譯文內容由第三人軟體翻譯。