Techno-Economic Assessment for Integrating Biosorption into Rare Earth Recovery Process GTO_data_deposit_092017_TEA.xlsx

The current uncertainty in the global supply of rare earth elements (REEs) necessitates the development of novel extraction technologies that utilize a variety of REE source materials. Herein, we examined the techno-economic performance of integrating a biosorption approach into a large-scale process for producing salable total rare earth oxides (TREOs) from various feedstocks. An airlift bioractor is proposed to carry out a biosorption process mediated by bioengineered rare earth-adsorbing bacteria. Techno-econmic asssements were compared for three distinctive categories of REE feedstocks requiring different pre-processing steps. Key parameters identified that affect profitability include REE concentration, composition of the feedstock, and costs of feedstock pretreatment and waste management. Among the 11 specific feedstocks investigated, coal ash from the Appalachian Basin was projected to be the most profitable, largely due to its high-value REE content. Its cost breakdown includes pre-processing (primarily leaching) (8077.71%), biosorption (1619.04%), and oxalic acid precipitation and TREO roasting (3.35%). Surprisingly, biosorption from the high-grade Bull Hill REE ore is less profitable due to high material cost and low production revenue. Overall, our results confirmed that the application of biosorption to low-grade feedstocks for REE recovery is economically viable. Excel spreadsheets including synopsis, potential growth media, mass balance sheet, geothermal brine REE concentrations, estimated profits, REE price data, costs, cost comparisons, cash flow, graphs of results, and additional information pertaining to the techno-economic analysis.

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Field Value
Citation Date 2017-07-01T00:00:00-06:00

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Original ID f0000000-58cc-4372-a567-000000000964
Index Date 2018-06-14T10:17:29-06:00
Original Format ISO-USGIN
Original Version 1.2

Author

Name Yongqin Jiao
Position primary contact
Organization Lawrence Livermore National Laboratory
Email jiao1@llnl.gov

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South Bound 35.048214882344
East Bound -118.34331875
West Bound -122.19941875