Because of their excellent mechanical properties, light weight and biodegradability, cellulose nanofibers (CNF) are attractive materials for next-generation reinforced biomaterials and bioplastics. However, the method for separating cellulose to make CNF, known as fibrillation, is energy-intensive, which limits applications for…
The destruction of per- and polyfluoroalkyl substances (PFAS) presents unique issues in wastewater treatment, as these substances are persistent in many treatment environments, and PFAS-laden purification media is challenging to dispose of. Now, InEnTec Inc. (Richland, Wash.; www.inentec.com) says that…
The solvent N-methylpyrrolidone (NMP) has been used to coat anodes and cathodes in lithium-ion batteries, but it has been shown to be a reproductive toxin, necessitating controlled handling and recycling within a closed system, which adds complexity and cost to…
Facility monitoring, LED lighting and low-impact cleaners help reduce carbon footprint at chemical process industries (CPI) facilities It is not always possible to refine a process to help reduce a facility’s carbon footprint; however, embracing some newer trends in more…
Plant Watch SK Energy to start commercial production of SAF September 16, 2024 — SK Energy, a subsidiary of SK Innovation Co. (Seoul, South Korea; www.skinnovation.com), announced the completion of South Korea’s first dedicated production line for sustainable aviation fuel…
Tire recycling The Mitsubishi Chemical Group (MCG; Tokyo, Japan; www.mcgc.com) has demonstrated chemical recycling of end-of-life tires (ELTs) using the coke ovens at its Kagawa Plant (Sakaide City, Kagawa Prefecture). The company is able to feed crushed ELTs as raw…
A significant contributor to the cost, energy consumption and carbon footprint of silver production is in the refining steps to remove, recover and recycle zinc from Parkes Crust silver-zinc intermetallic compounds. A fundamental redesign of the silver process to improve…
A significant portion of the energy and cost requirements in the production of lithium-ion batteries stems from the cost of converting lithium sulfate or lithium chloride into lithium hydroxide monohydrate (LHM) of sufficient purity for battery use. Noram Electrolysis Systems,…
Seemingly small component changes can make a large impact on the productivity of electrochemistry systems, such as electrolyzers used for producing “green” hydrogen. For example, a new coating technology developed by Oxford nanoSystems Ltd. (OnS; Abingdon, U.K.; www.oxfordnanosystems.com), when applied…
As wind energy takes a prominent role in the energy transition, researchers at the U.S. Department of Energy’s National Renewable Energy Laboratory (NREL: www.nrel.gov) have focused on manufacturing sustainable turbine blades that can be made from bio-derivable resources and then…