Extracting Lithium from oil wastewater

Jan. 3, 2017
Results from MGX Minerals are part of an ongoing project to complete a pilot plant in support of the company's Alberta lithium project.

VANCOUVER, BC, JANUARY 3, 2017 -- MGX Minerals Inc. has successfully extracted lithium from heavy oil wastewater. Results are part of the ongoing optimization for completion and deployment of a pilot plant in support of its 487,000 hectare Alberta lithium project.

The Company owns a patent pending process (United States Provisional Patent #62/419,011) for the extraction of lithium and other valuable minerals from oil brine. This technology is the first of its kind, reducing production time of lithium from brine by 99% compared with conventional lithium brine production times that use solar evaporation. Process time is reduced from approximately 18 months to 1 day using MGX's process.

Heavy oil evaporator blowdown wastewater ("EBD") is one of the byproducts of steam assisted gravity drainage ("SAGD") during production of heavy oil. EBD was specifically targeted as the wastewater contains mid-level concentrations of lithium and has the potential to generate high environmental revenue based on current disposal costs. MGX and PurLucid Treatment Solutions ("PurLucid") are working to integrate their respective technologies and develop a pilot plant suitable for commercial use that will treat EBD to provide oil sand producers with additional environmentally-friendly disposal options as well as recover valuable minerals such as lithium.

As reported by Dr. Preston McEachern of PurLucid:
Starting EBD with Li concentration of 87 mg/L.
Final recovery of Li was 34.8 mg/L or 40%.
Li was lost in the initial softening of the EBD (18%) when approximately 20% of the fluid mass is lost due to removal of silica and other solids,
1% of the Li was lost in the NaCl removal step.
16% of the Li was lost in the magnesium removal step.
4% of Li was lost in the CaCl2 removal step.
21% of the total Li remained in the final brine. This portion of lithium has a high probability of recovery by further reaction or during a second pass.
Li was crystallized as lithium carbonate.
Other primary recoveries of minerals in total were 83% and calcium 100%.
The final brine still contained high concentrations of sodium, potassium, and boron indicating where optimization will focus on.
Additional applicable data was collected for the potential extraction of boron, bromine, magnesium and potassium.
The treatment process removed all suspended solids, 99.97% of the hydrocarbons and reduced scale forming ions such as silica to levels suitable for reuse in steam generating processes.

About MGX Minerals
MGX Minerals (CSE:XMG) is a diversified Canadian mining company engaged in the development of large-scale industrial mineral portfolios in western Canada. The Company operates lithium, magnesium and silicon projects throughout British Columbia and Alberta. MGX recently released a maiden N.I. 43-101 compliant mineral resource estimate for its Driftwood Creek magnesium project, which outlined 8 million tonnes grading 43.31% magnesium oxide. In January the Company received a 20-year Mining Lease for Driftwood Creek. Additionally, the Company is the largest lithium brine land holder in Canada, controlling nearly 487,000 hectares of land representing over one million barrels of brine production per day. For further information, please visit the Company's website at www.mgxminerals.com.

Sponsored Recommendations

NFPA 70B a Step-by-Step Guide to Compliance

NFPA 70B: A Step-by-Step Guide to Compliance

How digital twins drive more environmentally conscious medium- and low-voltage equipment design

Medium- and low voltage equipment specifiers can adopt digital twin technology to adopt a circular economy approach for sustainable, low-carbon equipment design.

MV equipment sustainability depends on environmentally conscious design values

Medium- and low voltage equipment manufacturers can prepare for environmental regulations now by using innovative MV switchgear design that eliminates SF6 use.

Social Distancing from your electrical equipment?

Using digital tools and apps for nearby monitoring and control increases safety and reduces arc flash hazards since electrical equipment can be operated from a safer distance....