Proactive’s Post

In a significant development, Surefire Resources NL (ASX:SRN) has achieved a breakthrough process in extracting vanadium directly from magnetite concentrate from its flagship Victory Bore Vanadium Project in Western Australia. The pre-treatment and leach process demonstrated a ‘remarkable’ extraction of 91% vanadium and 88% titanium directly from Victory Bore magnetite concentrate. This new metallurgical application alleviates the requirement for standard pre-treatment processes currently used in the vanadium extraction industry. Furthermore, the process is expected to be more environmentally acceptable with low emissions and a reduced carbon footprint. Investors have given a thumbs up to the news with SRN shares as much as 44.5% higher this morning to $0.013. More at http://ow.ly/I8Z8105b0HI #ASX #SRN #Proactive #ProactiveInvestors #Vanadium #MiningAustralia #WesternAustralia

Electrolysis vs. Electrowinning ⚡🔧 Dive into the fascinating world of electrometallurgy with Proses Makina as we unravel the nuances between electrolysis and electrowinning! ⚡ Electrolysis: Triggering non-spontaneous chemical reactions, electrolysis breaks down compounds into their elements. Widely applied in refining precious metals, chlorine production, and water purification. 🔄 Electrowinning: Focused on extracting metals from solutions, electrowinning facilitates high-purity metal deposition. It's a game-changer in the mining industry for copper, gold, and silver extraction, contributing to environmental sustainability. 🌍 🤝 Proses Makina Expertise: As Proses Makina Co., we bring awareness to the disparities in these processes. Our expertise lies in providing energy-efficient solutions, high output efficiency, and customizable systems, revolutionizing your metal production processes. Ready to elevate your business's competitiveness? Contact us for cutting-edge solutions! 🚀📈 #Electrolysis #Electrowinning #MetalProduction #Sustainable #Copper #GreenWorld 🌐💬 https://lnkd.in/dEWZKsjf

via Stockhead Spheronising and purification test work confirm that Lithium Energy Limited (ASX Code: LEL)’s Burke project can provide exceptional feedstock to the battery anode materials market. Metallurgical test work carried out by #LEL resulted in the production of graphite flake concentrate with 95% TGC, setting the stage for the next stage in the purified spherical graphite (PSG) development test work program. The test work carried out on the #graphite flake concentrate in Germany resulted in the production of PSG with >99.97% TGC using potentially low-cost, environmentally safer, non-hydrofluoric acid processes. Learn more: https://loom.ly/bY8_u3o #LithiumEnergy #ASX

🔋 The rapid growth of the battery industry has driven an increase in the demand for #battery materials such as cobalt sulfate, nickel sulfate, manganese sulfate, and #lithium #carbonate. In this context, #evaporation and #crystallization technology play a crucial role in the production process. The advancement, stability, and reliability of evaporation and crystallization technology directly impact the quality of battery materials, thus influencing battery performance.   In the production of lithium carbonate and lithium hydroxide, lithium sulfate extracted from lithium spodumene and lithium mica needs to undergo evaporation concentration to a certain degree before being used to precipitate lithium carbonate. Similarly, both crude and refined lithium hydroxide require evaporation and crystallization. The final stage of nickel sulfate, cobalt sulfate, and manganese sulfate production also involves evaporation and crystallization.   Among evaporation technologies, Mechanical Vapor Recompression (MVR) stands out for its low energy consumption and significant advantages in evaporative crystallization of various salts. Proper design and application of MVR evaporation technology can effectively complete the evaporation and crystallization of salt-containing solutions for various battery materials. Compared to traditional multiple-effect evaporation, MVR evaporation offers substantial energy-saving advantages, alongside higher stability and automation.   In recent years, Myande's MVR evaporation and crystallization equipment has been widely used in the production of battery raw materials such as nickel, cobalt, lithium, and manganese. Its energy-saving and operational advantages have significantly enhanced the competitiveness of our customers. Currently, #Myande has completed over 200 engineering cases in the new energy materials and #recycling industries. Explore more: https://lnkd.in/gfnZgY7n

Longhua Technology successfully developed an efficient composite cooling (condenser) in 2006 and achieved its first operation in the coal chemical industry, obtaining the key to opening the door to a new market. Because the cooling (condenser) belongs to non-standard equipment, in order to expand its market in more fields, it is necessary to conduct targeted design according to different user environments. Longhua Technology's efficient composite cooling (condenser) products have quickly opened the door to industries such as metallurgy and petrochemicals, and have received praise from users and design institutes, becoming industry leaders. Subsequently, Longhua Technology gradually formed a product system with 5 major systems and more than 270 specifications tailored to the needs of different application fields and production sections. #longhua #hybridcooler #refinery #coalchemical #coolingtower #petrochemical #watercooling #aircooler

🚀 𝐓𝐫𝐚𝐧𝐬𝐟𝐨𝐫𝐦𝐢𝐧𝐠 𝐂𝐡𝐞𝐦𝐢𝐜𝐚𝐥 𝐃𝐨𝐬𝐢𝐧𝐠: 𝐓𝐡𝐞 𝐕𝐞𝐫𝐝𝐞𝐫𝐟𝐥𝐞𝐱 𝐃𝐒𝟓𝟎𝟎 𝐑𝐞𝐯𝐨𝐥𝐮𝐭𝐢𝐨𝐧 🚀 In chemical processing, precision and safety are not just goals; they are imperatives. That's where the 𝐕𝐞𝐫𝐝𝐞𝐫𝐟𝐥𝐞𝐱 𝐃𝐒𝟓𝟎𝟎 steps in, redefining efficiency and reliability in chemical dosing applications. Embrace the future of chemical processing with us. Discover how the Verderflex DS500 can elevate your operations. Let's innovate together for a safer, more efficient world. Want to learn more? Read the case study from Global Pumps https://lnkd.in/eMBX3ScV #verder #verderliquids #verderflex #chemicaldosing

The Metals Company will be critical in building a North American Battery Materials and Energy Transition supply chain. With some of the largest undeveloped supplies of Nickel, Copper, Manganese, and Cobalt in the world, it can not only meet all of North America's electrification needs but also save millennia-old carbon sinks and rainforests, being a much more environmentally friendly way of getting the metals we need. That is a big part of what drives the team and those of us who support them. It is simply better for the planet than other ways of getting these materials such as surface strip mining of Indonesian jungles or forced child labor in Congo.

Results of the PreFeasibility Study on #greenroc graphite anode material processing plant is out today! Very pleased with the results and eager to get going with developing #amitsoq graphite mine and our down-stream processing plant! The PFS is conducted by #slrconsulting, #benchmarkmineralintelligence, #prographite and #decisionriskanalytics and supported by a £250,000 grant from #innovateuk Automotive Transformation Fund, thanks! Highlights: ·       Pre-Tax Net Present Value at 8% discount rate (NPV8) of US$837M with Internal Rate of Return (IRR) of 33.8%. ·       After-tax NPV8 of US$545M with IRR of 25.3%. ·       Total gross revenue of US$6.5Bn over the 22-year period, with total gross profit totalling US$2.7Bn. ·       Years of operation set at 22 to match that planned for the Amitsoq graphite mine. ·       4-year payback period on capital from start of production. ·       Initial capital cost (Capex) of US$321M inclusive of a 25% contingency. ·       Average operating cost (Opex) of US$2,211 per tonne of CSPG. ·       Average annual processing of 80,000t of graphite concentrate at 95% graphitic carbon (C(g)) with production of 39,700t of active anode material in the form of coated spherical purified graphite (CSPG).

🔋 The rapid growth of the battery industry has driven an increase in the demand for #battery materials such as cobalt sulfate, nickel sulfate, manganese sulfate, and #lithium #carbonate. In this context, #evaporation and #crystallization technology play a crucial role in the production process. The advancement, stability, and reliability of evaporation and crystallization technology directly impact the quality of battery materials, thus influencing battery performance.   In the production of lithium carbonate and lithium hydroxide, lithium sulfate extracted from lithium spodumene and lithium mica needs to undergo evaporation concentration to a certain degree before being used to precipitate lithium carbonate. Similarly, both crude and refined lithium hydroxide require evaporation and crystallization. The final stage of nickel sulfate, cobalt sulfate, and manganese sulfate production also involves evaporation and crystallization.   Among evaporation technologies, Mechanical Vapor Recompression (MVR) stands out for its low energy consumption and significant advantages in evaporative crystallization of various salts. Proper design and application of MVR evaporation technology can effectively complete the evaporation and crystallization of salt-containing solutions for various battery materials. Compared to traditional multiple-effect evaporation, MVR evaporation offers substantial energy-saving advantages, alongside higher stability and automation.   In recent years, Myande's MVR evaporation and crystallization equipment has been widely used in the production of battery raw materials such as nickel, cobalt, lithium, and manganese. Its energy-saving and operational advantages have significantly enhanced the competitiveness of our customers. Currently, #Myande has completed over 200 engineering cases in the new energy materials and #recycling industries. Explore more: https://lnkd.in/gfnZgY7n

Foundries require reliable power, and if the main grid is unreliable, generators are crucial. The environment in foundries is challenging, with small abrasive particles coating everything, similar to a coal mining site. However, the biggest risk for advanced modern generators is bonded/suspended water. iCerMax protects this foundry through: 1. Verifying all bulk fuel deliveries in real time during delivery. 2. Multi-stage bulk tank kidney circulation filtration. 3. Last defense on the suction side of the generator. See specification of each in comments below ⬇️ As a result, the foundry has no fuel-related issues. Diesel Contamination Solutions | Removing Suspended and Bonded Water from Diesel, Biofuels, and HVO Learn more in this video: [Diesel Contamination](https://lnkd.in/dfiTjkXc).