Battery X Metals Announces Amended Agreement With Global Top 20 Ranked University to Accelerate Eco-Friendly Battery-Grade Material Recovery Technology
Battery X Metals Announces Amended Agreement With Global Top 20 Ranked University to Accelerate Eco-Friendly Battery-Grade Material Recovery Technology
News Release Highlights:
新聞發佈要點:
Extended Research Partnership with Global Top 20 Ranked University: Battery X Metals has amended and extended its collaboration with a global Top 20 ranked university to advance the development of its proprietary eco-friendly battery-grade material recovery technology.
與全球排名前20的大學進行合作延長:Battery X Metals已修訂並延長與一所全球排名前20的大學的合作,以推動其專有的環保電池級材料回收技術的發展。
Proprietary Eco-Friendly Battery-Grade Material Recovery Technology: The collaboration focuses on optimizing Battery X Metals' proprietary eco-friendly froth flotation process, a sustainable and energy-efficient method for recovering critical battery-grade materials such as graphite, lithium, nickel, and cobalt from black mass. This technology aims to enhance battery-grade material recovery while reducing environmental impact and energy consumption.
專有環保電池級材料回收技術:合作重點是優化Battery X Metals的專有環保起泡浮選工藝,這是一種可持續且節能的方法,用於從黑色原料中回收關鍵的電池級材料,如石墨、鋰、鎳和鈷。該技術旨在提高電池級材料的回收率,同時降低環境影響和能源消耗。
Commitment to Clean Energy Transition & Sustainability: Battery X Metals' innovative lithium-ion battery recycling technology aligns with global efforts for cleaner energy by ensuring a steady supply of critical battery materials essential for electric vehicle (EV) battery production. This eco-friendly process supports both sustainability and economic growth in the clean energy transition.
致力於清潔能源轉型與可持續發展:Battery X Metals的創新鋰離子電池回收技術符合全球爲了更清潔能源而進行的努力,確保爲電動汽車(EV)電池生產提供關鍵的電池材料供應。這種環保過程既支持可持續發展,又促進清潔能源轉型中的經濟增長。
VANCOUVER, BC / ACCESSWIRE / September 24, 2024 / Battery X Metals Inc. (CSE:BATX)(OTCQB:BATX)(FSE:R0W, WKN:A3EMJB) ("Battery X Metals" or the "Company") is pleased to announce that its wholly-owned subsidiary, Battery X Recycling Technologies Inc., has entered into an amended research collaboration agreement (the "Agreement") with a global Top 20 ranked university (the "University"). As one of North America's largest and most advanced centers for mining engineering education and research, the University's Institute of Mining Engineering will collaborate to further advance the company's proprietary battery-grade material recovery technology. This Agreement, effective August 1, 2024, extends the partnership through June 30, 2025.
溫哥華,卑詩省/ACCESSWIRE/2024年9月24日/Battery X Metals Inc.(CSE:BATX)(OTCQB:BATX)(FSE:R0W,WKN:A3EMJB)("Battery X Metals"或"公司")很高興宣佈,其全資子公司Battery X Recycling Technologies Inc.已與一所全球排名前20的大學("大學")簽訂了修訂後的研究合作協議("協議")。作爲北美最大和最先進的礦業工程教育和研究中心之一,該大學的礦業工程學院將合作推動公司的專有電池級材料回收技術的進一步發展。此項協議自2024年8月1日生效,將合作伙伴關係延長至2025年6月30日。
The Problem
問題
The global shift toward electrification is driving the clean energy transition, with lithium-ion batteries playing a central role in reducing reliance on fossil fuels1. Lithium-ion battery demand is projected to surge by 670% by 20302, with energy storage requirements rising from 700 GWh in 2022 to 4.7 TWh2, primarily due to EVs2. Regulatory initiatives, such as the US Inflation Reduction Act and Europe's "Fit for 55" program, along with the EU's 2035 ban on internal combustion engine vehicles1, are accelerating this growth. Yet, less than 5% of lithium-ion batteries are currently recycled3. EVs and battery storage will make up about half of the mineral demand growth from clean energy technologies over the next 20 years, spurred by the surging demand for battery materials4 like graphite, lithium, nickel, cobalt, manganese, and copper.
全球向電氣化的轉變推動了清潔能源轉型,其中鋰離子電池在減少對化石燃料依賴方面發揮着核心作用。到2030年,鋰離子電池的需求預計將增長670%,能源儲存需求從2022年的700 GWh增加到2032年的4.7 TWh,主要是由於電動汽車。法規倡議,如美國通脹減少法案和歐洲的「適用於55」計劃,以及歐盟2035年禁止內燃發動機車輛的計劃,正加速這一增長。然而,目前僅有不到5%的鋰離子電池被回收利用。未來20年,EV和電池存儲將佔來自清潔能源技術的礦物需求增長的大約一半,其中包括石墨、鋰、鎳、鈷、錳和銅等電池材料的需求增長。
The Solution
解決方案
Battery X Metals aims to address this critical need with its proprietary froth flotation technology, which is being developed to recover essential battery-grade materials, such as graphite, lithium, nickel, cobalt, manganese, and copper, from the residual material of end-of-life lithium-ion batteries, known as "black mass," a highly sought-after resource. The Company, in collaboration with the University, is working to validate this technology for the efficient recovery of graphite and oxides from black mass, with the intent to commercialize it upon successful validation.
Battery X Metals旨在利用其專有的泡沫浮選技術來解決這一關鍵需求,該技術正在開發中,旨在從終端壽命週期鋰離子電池的殘留材料中回收關鍵的電池級材料,如石墨、鋰、鎳、鈷、錳和銅,這些殘留材料被稱爲"黑質",是一種備受追捧的資源。公司正在與大學合作,致力於驗證這一技術以有效從黑質中回收石墨和氧化物,並打算在成功驗證後進行商業化。
Whereas, traditional battery recycling methods, such as hydrometallurgy and pyrometallurgy, affect graphite and metals differently. In hydrometallurgical processes, leaching agents dissolve metals like cobalt, nickel, and lithium for recovery. However, graphite, being non-metallic, is often left behind or degraded during the process, making its recovery both challenging and costly5,6. Additionally, hydrometallurgy can break down metal oxides into ionic forms, meaning an extra step is required to reconstitute the oxides for reuse if needed6,7. In pyrometallurgical processes, high-temperature smelting is employed, where graphite is burned off entirely, which makes its recovery impossible5,8. Moreover, pyrometallurgy reduces metal oxides to pure metal, necessitating a further oxidation step if oxide recovery is required7,9. While these methods efficiently recover metals such as cobalt and nickel, other valuable materials, including lithium and aluminum, are often lost in the slag, limiting their recoverability7,8.
然而,傳統的電池回收方法(如水冶法和熱冶法)對石墨和金屬的影響有所不同。在水冶過程中,浸出劑溶解鈷、鎳和鋰等金屬以進行回收。然而,作爲非金屬的石墨通常被遺留或在過程中被降解,使其回收變得具有挑戰性和成本高昂。此外,水冶法可以將金屬氧化物分解爲離子形式,這意味着如果需要,必須進行額外的步驟重新構建氧化物以供再利用。在熱冶過程中,採用高溫熔鍊,石墨完全燃燒,從而使其回收變得不可能。此外,熱冶法可以將金屬氧化物還原爲純金屬,如果需要氧化物回收,則需要進一步的氧化步驟。雖然這些方法可以有效回收鈷和鎳等金屬,但其他有價值的材料,包括鋰和鋁,通常會在爐渣中丟失,從而限制了它們的可回收性。
Battery X Metals is focused on recovering critical battery materials in a sustainable way, avoiding the use of leaching agents, smelting, or breaking down metal oxides. This approach aims to ensure the preservation and availability of essential materials, such as graphite, lithium, lithium, nickel, cobalt, manganese, and copper, for electric vehicle (EV) battery production and other clean energy applications. By bypassing the environmentally harmful impacts associated with traditional recycling methods, Battery X Metals aims to address the growing demand for lithium-ion battery materials while significantly reducing the environmental footprint and energy consumption of the recycling process.
Battery X Metals專注於以可持續的方式回收關鍵的電池材料,避免使用浸出劑、熔鍊或分解金屬氧化物。這種方法旨在確保關鍵材料(如石墨、鋰、鋰、鎳、鈷、錳和銅)的保存和可用性,供電動汽車(EV)電池生產和其他清潔能源應用之需。通過避開傳統回收方法帶來的環境影響,Battery X Metals旨在應對鋰離子電池材料日益增長的需求,同時顯著減少回收過程的環境足跡和能源消耗。
Battery X Metals' Commitment to a Clean Energy Future
電池X金屬致力於清潔能源未來
"Our ongoing collaboration with the University, one of North America's largest and most advanced centers for mining engineering education and research, remains a cornerstone of our strategy to develop sustainable, innovative solutions for the lithium-ion battery recycling industry," said Massimo Bellini Bressi, CEO of Battery X Metals. "This amended agreement brings us closer to validating our proprietary eco-friendly technology for recovering critical battery-grade materials, contributing to the EV revolution and clean energy transition."
「我們與大學的持續合作,該大學是北美最大、最先進的礦業工程教育和研究中心之一,仍然是我們制定可持續創新解決方案的策略基石,用於鋰離子電池回收行業,」 電池X金屬的CEO Massimo Bellini Bressi表示。 「這項修訂協議使我們更接近驗證我們的專有環保技術,用於回收關鍵的電池級材料,有助於電動汽車革命和清潔能源轉型。」
Collaboration Objectives & Approach
合作目標與方式
The collaboration between Battery X Metals and the University aims to develop, optimize, and validate the proprietary froth flotation process. This eco-friendly technology is designed to recover critical battery-grade materials, including graphite, lithium, nickel, cobalt, manganese, and copper, from black mass. The process aims to recover spherical graphite and preserve metals in their oxide forms, enabling their seamless reintegration into the battery manufacturing supply chain. Currently in the research and development phase at lab scale, the Company plans to provide updates on projected recovery rates and other relevant details as the research progresses. With the timing of this Agreement coinciding with the start of the school season, the Company anticipates imminent progress and will share updates accordingly.
電池X金屬與大學之間的合作旨在開發、優化和驗證專有的起泡浮選工藝。這種環保技術旨在從黑色物質中回收關鍵的電池級材料,包括石墨、鋰、鎳、鈷、錳和銅。該工藝旨在回收球形石墨並以氧化形式保存金屬,使它們能夠無縫重新融入電池製造供應鏈。目前處於實驗室規模的研發階段,公司計劃隨着研究的進展提供有關預期回收率和其他相關細節的更新。由於該協議的簽署時間與開學季開始時間重合,公司預計即將取得進展,並將及時分享更新。
At present, progress has been made in the research of black mass recycling. Key methodologies, such as particle size distribution (PSD), Zeta potential, and flotation tests, have been conducted on multiple black mass samples provided by Battery X Metals throughout the duration of the study and revealed distinct behaviors, with one sample exhibiting favorable characteristics for larger-scale processing. The research underscores the importance of particle behavior and surface chemistry in optimizing recycling processes, with ongoing refinement of flotation techniques using different collectors.
目前,黑色物質回收的研究取得了進展。關鍵方法,如粒徑分佈(PSD)、Zeta電位和浮選試驗,已在電池X金屬提供的多個黑色物質樣本上進行,並揭示了明顯的行爲差異,其中一個樣本表現出有利於大規模處理的特徵。研究強調了優化回收過程中顆粒行爲和表面化學在重要性上的重要性,通過使用不同的收集劑不斷優化浮選技術。
The University's research team aims to further enhance the technology development by conducting individual flotation tests on each component to further refine the separation process, leveraging the insights from Zeta potential measurements.
大學的研究團隊旨在通過對每個組件進行單獨的浮選試驗,進一步優化分離過程,利用Zeta電位測量的見解。
This partnership underscores the potential for continuous innovation in sustainable battery material recovery processes, contributing to both environmental sustainability and the broader clean energy transition.
這一合作突顯了在可持續電池材料回收過程中持續創新的潛力,有助於環境可持續性和更廣泛的清潔能源轉型。
Payment and Intellectual Property Terms
支付和知識產權條款
As part of the Agreement, Battery X Metals will provide a total of CAD $56,350 in payments, distributed in three installments to support the continued research:
作爲協議的一部分,Battery X Metals將提供總計56,350加元的付款,分三期分配,以支持持續研究:
CAD $20,000 upon signing the amendment (already paid)
CAD $20,000 by September 1, 2024 (already paid)
CAD $16,350 by October 1, 2024
在簽署修正案時付款20,000加元(已付款)
2024年9月1日前支付20,000加元(已付款)
2024年10月1日前支付16,350加元
Under the Agreement, and upon receipt of payments above, Battery X Metals retains a non-exclusive, non-transferable, royalty-free license to use any joint intellectual property developed during the collaboration. In addition, Battery X and the University grant the other a reciprocal non-exclusive, non-transferable, royalty-free license to use and exploit the intellectual property developed by the other party during the contract period in the performance of the project for any commercial or non-commercial purposes.
根據協議,在收到上述付款後,Battery X Metals保留使用在合作中開發的任何聯合知識產權的非排他性、不可轉讓、免費許可。此外,Battery X和大學互相授予對方在合同期間在項目執行中使用和利用雙方在合同期間開發的知識產權的非排他性、不可轉讓、免費許可,用於任何商業或非商業目的。
1 EnergyX
2 McKinsey & Company
3 CAS
4 Mining Review Africa
5 MDPI (1)
6 MDPI (2)
7 MDPI (3)
8 MDPI (4)
9 MDPI (5)
1 能源X
2 麥肯錫與公司
3 cse
4 《礦業評論非洲》
5 金屬期貨 MDPI (1)
6 金屬期貨 MDPI (2)
7 金屬期貨 MDPI (3)
8 金屬期貨 MDPI (4)
9 MDPI(5)
About Battery X Metals Inc.
有關電池X金屬公司
Battery X Metals Inc. (CSE:BATX)(OTCQB:BATXF)(FSE:R0W, WKN:A3EMJB) is committed to advancing North America's clean energy transition through the development of proprietary technologies and domestic battery and critical metal resource exploration. The Company focuses on extending the lifespan of electric vehicle (EV) batteries, through its portfolio company, LIBRT1, recovering battery grade metals from end-of-life lithium-ion batteries, and exploring domestic battery and critical metals resources. For more information, visit batteryxmetals.com.
電池X金屬公司(cse:BATX)(OTCQB:BATXF)(FSE:R0W,WKN:A3EMJB)致力於通過開發專有技術和國內電池技術等金屬資源勘查推動北美的清潔能源過渡。該公司專注於通過其投資組合公司LIBRT1延長電動車(EV)電池的使用壽命,從報廢的鋰離子電池中回收電池級金屬,並探索國內電池和關鍵金屬資源。欲了解更多信息,請訪問batteryxmetals.com。
149% owned Portfolio Company
持股149%的投資組合公司
On Behalf of the Board of Directors
董事會代表
Massimo Bellini Bressi, Director
馬西莫·貝利尼·佈雷西,董事
For further information, please contact:
如需更多信息,請聯繫:
Massimo Bellini Bressi
Chief Executive Officer
Email: mbellini@batteryxmetals.com
Tel: (604) 741-0444
馬西莫·貝利尼·佈雷西
首席執行官
郵箱:mbellini@batteryxmetals.com
電話:(604) 741-0444
Disclaimer for Forward-Looking Information
關於前瞻性信息的免責聲明本新聞稿可能含有前瞻性聲明。這些聲明包括涉及公司的管理團隊和董事會,Sanoukou Gold Project,Tilemi磷酸鹽項目以及公司未來計劃和目標的影響。這些聲明基於目前的預期和假設,面臨着風險和不確定性。實際結果可能因爲在我們的中期和最近的年度財務報告的管理討論和分析部分或其他報告和文件及TSX Venture Exchange和適用的加拿大證券法規中所討論的因素而有所不同。我們不承擔任何更新前瞻性聲明的義務,除非法律規定。
This news release includes certain statements and information that may constitute forward-looking information within the meaning of applicable Canadian securities laws. Forward-looking statements relate to future events or future performance and reflect the expectations or beliefs of management of the Company regarding future events. Generally, forward-looking statements and information can be identified by the use of forward-looking terminology such as "intends," "anticipates," or "believes," or variations of such words and phrases, or statements that certain actions, events, or results "may," "could," "should," "would," or "occur." These statements and information are not historical facts but reflect the Company's current beliefs, expectations, or intentions regarding future events. Forward-looking information in this news release includes, among other things, statements regarding the development and commercialization of Battery X Metals' proprietary froth flotation technology, the potential of the technology in the lithium-ion battery and mining industries, and the expected benefits of the extended research collaboration. In making the forward-looking statements in this release, the Company has applied several material assumptions, including but not limited to, the assumption that the Company will meet its development and commercialization goals, the continued support from research and industry partners, and the ability of the Company to finance its operations. Although management believes that the expectations and assumptions on which such forward-looking statements are based are reasonable, undue reliance should not be placed on these forward-looking statements and information as there can be no assurance that they will prove to be accurate. Actual results may differ materially from those expressed or implied in such statements. The Company does not undertake any obligation to update forward-looking information, except as required by applicable securities laws.
此新聞發佈包括可能構成根據適用的加拿大證券法的前瞻性信息的特定陳述和信息。前瞻性陳述涉及未來事件或未來業績,並反映了公司管理層對未來事件的期望或信念。一般來說,前瞻性陳述和信息可以通過使用諸如"意圖"、"預期"或"相信"之類的前瞻性術語,或陳述某些行動、事件或結果"可能"、"可能"、"應該"、"將"或"發生"等詞語和短語變體來識別。這些陳述和信息並非歷史事實,而是反映了公司關於未來事件的當前信念、期望或意圖。此新聞發佈中的前瞻性信息包括但不限於對Battery X Metals專有的泡沫浮選技術的開發和商業化、該技術在鋰離子電池和採礦行業中的潛力以及擴展研究合作的預期收益等方面的陳述。在作出本新聞發佈中的前瞻性陳述時,公司已應用了若干重要假設,包括但不限於公司將實現其開發和商業化目標、繼續得到來自研究和行業夥伴的支持以及公司能夠爲其業務提供融資的假設。儘管管理層認爲此類前瞻性陳述的期望和假設是合理的,但不應過度依賴這些前瞻性陳述和信息,因爲不能保證它們將被證明是準確的。實際結果可能與此類陳述中表達或暗示的不同。除非適用證券法要求,否則公司不承擔更新前瞻性信息的任何義務。
SOURCE: Battery X Metals
資訊:電池 X 金屬
譯文內容由第三人軟體翻譯。