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2024 Paradigm Disking

Invitation to Bid (ITB) TH24-071 Housing and Residence Life Summer Janitorial Services Trevor Hall 4 PM MST, April 25th, 2024

TECHNOLOGY LICENSING OPPORTUNITY Revolutionizing Lithium-Ion Battery Recycling: Dimethyl Ether-Driven Extraction Technology A groundbreaking extraction process utilizing dimethyl ether (DME) for the efficient and sustainable recovery of electrolyte and rejuvenation of electrodes from end-of-life lithium-ion batteries. Overview: Traditional methods for recycling lithium-ion batteries have been hampered by complex hydrometallurgical based processes that are energy-intensive and costly from an operational standpoint. Currently, the industry struggles with economic viability due to these processing expenses, and immature supply chains for end of life batteries. The demand for a more efficient recycling process is growing, as lithium-ion batteri...

TECHNOLOGY LICENSING OPPORTUNITYNext-Generation Sustainable Water Treatment: Pressure Enhanced DME-Driven Fractional CrystallizationAn innovative water treatment technology that uses pressure-enhanced fractional crystallization to recover salts and achieve zero liquid discharge, providing a sustainable and cost-effective alternative to traditional methods.Overview: Conventional methods used for water treatment and mineral recovery, specifically in achieving zero liquid discharge (ZLD), are often expensive and require a significant amount of energy. These methods primarily rely on evaporative crystallization. Researchers at INL have demonstrated a new technology called pressure-enhanced DME-driven fractional crystallization (DME-FC) that sho...

TECHNOLOGY LICENSING OPPORTUNITY Next-Generation Sustainable Water Treatment: Acid Recovery Through DME-Driven Water Extraction (DME-WE) An innovative water treatment technology that uses pressure-enhanced fractional crystallization to recover salts and achieve zero liquid discharge, providing a sustainable and cost-effective alternative to traditional methods. Overview: Industrial processes often use hydrochloric or sulfuric acid, which can result in high costs for purchasing reagents and treating wastewater. Traditional hydrometallurgical processes involve expensive and reagent-intensive neutralization steps. This new, solvent based water treatment method developed at INL has minimizes waste generation and provides a cost-effective soluti...

River Road over Dixie Creek Bridge Replacement 28915-18 Washington April 4, 2024 April 25, 2024

Attachment 1 Offeror Questions w/ Answers_TH24-071 Housing and Residence Life Summer Janitorial Services Trevor Hall 4 PM MST, April 25th, 2024