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Bio-mining lithium with microbes for greener extraction
CategoriesSustainable News

Bio-mining lithium with microbes for greener extraction

By Zarkon Group,

Spotted: Lithium is an essential mineral with a variety of applications, including in the production of electric vehicle batteries. However, mining the element is carbon intensive – generating 15 tonnes of CO2 for every tonne of mined lithium. So, even though lithium is playing a key role in the green energy transition, the sizeable impact of its production raises questions about its sustainability over the longer term. This is where startup BioMetallum comes in.

The Argentinian company hopes to meet the increasing demand for lithium, without the accompanying environmental cost. Instead of using a highly chemical-intensive process, BioMetallum’s system, called Lithium BioX, relies on biotechnology and microorganisms to extract useful metals like lithium from brine, even when the brine has low concentrations of such metals.

The bacteria act as a kind of biomagnet in the brine, absorbing the lithium into a biofilm that retains the minerals ready for extraction. After testing hundreds of bacteria, the team carefully selected those that had desirable qualities, such as brine resistance, and manipulated them to enhance their lithium-absorbing abilities. Because the method doesn’t use harsh chemicals, it means other elements in the brine, like potassium, can also be retrieved.

Unlike current methods, which can take a year and a half to extract the desired elements from evaporation ponds, BioMetallum’s technique takes a matter of weeks. Needing only five per cent of the land currently required, and achieving a lithium recovery rate over 90 per cent, Lithium BioX helps to make lithium production much more efficient and economically viable. And, the method of extraction also allows the brine to be returned after use, without producing any toxic chemicals or waste.

BioMetallum has also turned its attention to used Li-ion batteries, with its circular Lithium BioR biotechnological process that uses the same principles to enable the complete recovery of lithium from spent batteries.

Sourcing and retrieving precious minerals is crucial for the transition to green technologies. Springwise has also spotted this AI that aids in the locating of minerals like lithium as well as this lower-impact and cheaper lithium extraction method.

Written By: Archie Cox and Matilda Cox

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Lower-impact lithium extraction cuts process costs
CategoriesSustainable News

Lower-impact lithium extraction cuts process costs

By Zarkon Group,

Spotted: Lithium is a vital component in rechargeable batteries, including the batteries used in electric vehicles (EVs). However, the conventional process for extracting the element from its ore involves high levels of dangerous chemicals such as sulphuric acid. These are not only environmentally harmful, but also expensive.

As a more sustainable alternative, Novalith Technologies has developed a process that uses carbonic acid in carbonated water to extract lithium from rocks and clays in the form of lithium carbonate, leaving inert, CO2-infused rock as a by-product. This method, called LiCAL, cuts process costs by 65 per cent and plant costs by 50 per cent, while using 90 per cent less water than conventional processes.

If the energy for Novalith’s extraction process is taken from renewable sources, the overall production can even be made carbon-negative. The company also claims the process can achieve higher recovery rates and can operate at a much faster rate than other extraction methods.

Following seed funding in August 2021, Novalith built an R&D facility in Sydney, Australia, to demonstrate the process across several different ore resources. In April 2023, the company raised AU$23 million (around €13.9 million) in a series A funding round led by Lowercarbon Capital, with participation from the Clean Energy Finance Corporation and others. The funding will go towards a new pilot facility in Sydney, and help the company scale and commercialise LiCAL.

With the world’s demand for lithium batteries rising, more and more innovations in the Springwise Library are working to make their production greener. These include a cleaner way to recycle lithium batteries and a lithium extraction technique that uses far less land than conventional methods.

Written By: Lisa Magloff

Reference

Extracting lithium for batteries in a more sustainable way
CategoriesSustainable News

Extracting lithium for batteries in a more sustainable way

By Zarkon Group,

Spotted: Lithium is a vital component in the high-energy batteries that power electric vehicles (EVs). But lithium is in increasingly short supply — threatening the conversion to EVs. According to estimations, by 2025 lithium demand is likely to marginally outstrip supply, with this gap widening dramatically by 2030.

Most of the world’s lithium reserves are found in brines – natural salt-water deposits. The conventional process for extracting lithium from brines requires evaporation in large ponds. This process is environmentally damaging, slow, and vulnerable to weather. However, startup Lilac Solutions has developed a new technology to extract lithium from brines without the need for evaporation ponds.

Lilac’s process uses specially developed, nano-coated ion exchange beads to absorb the lithium from the brine. Once saturated with lithium, hydrochloric acid is used to flush the lithium from the beads, yielding lithium chloride. This is then processed on-site using conventional equipment to create the finished product.

According to Lilac, this process offers a seamless scale-up and an 80 per cent recovery rate for lithium, as opposed to 40 per cent using conventional evaporation techniques. Lilac’s solution is seen as a potential game-changer.

Optimising mineral extraction is not limited to lithium ponds. Springwise has also spotted innovations in the archive that include the use of artificial intelligence (AI) to discover minerals important for green energy and environmentally friendly processes for mineral extraction.

Written By: Lisa Magloff

Reference

A modular lithium extraction plant recycles water and brine
CategoriesSustainable News

A modular lithium extraction plant recycles water and brine

By Zarkon Group,

Spotted: As demand for lithium-ion batteries rises, the extraction and production processes must be scaled up, often stressing the environment in ways that are not sustainable. Researchers forecast global growth in consumption of lithium will be 33 per cent from 2020 to 2021 and that demand is likely to continue to increase. With water resources already scarce (or polluted) in many locations around the world, improving the health of lithium production is a necessity to ensure the future health of the environment. 

Canada’s International Battery Metals company recently concluded successful tests of its first mobile, commercial-scale lithium extraction plant. Integral to the success of the new approach is the swiftness of set-up and modular design. The company points to the current five-to-twelve-year lead time to build and activate an industrial plant as one of the main reasons such flexibility and speed are needed. The modular unit was set up in 10 days by a crew of nine.

This allows the global market to expand the number of viable extraction locations, as the modularity makes it possible to assemble and work in terrains previously considered too difficult to reach. Even more importantly, the new International Battery Metals process prioritises water and brine recycling to avoid creating the many thousands of kilogrammes of salty water waste that results from most extraction methods. In fact, the new process recycles slightly more than 98 per cent of the water used in the system.

As electric vehicle demand continues to grow, creating less waste and causing less environmental damage is a priority at all stages of the battery life cycle, with innovators creating new uses for used EV batteries as well as a chemical-free process for producing the metal from granite.  

Written by: Keely Khoury

18th May 2022

Email: info@ibatterymetals.com

Website: ibatterymetals.com

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