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NASF/AESF Foundation Research Project #122: Electrochemical Approaches to Treatment of PFAS in Plating Wastewater - 10th Quarterly Report
The NASF-AESF Foundation Research Board selected a project addressing the problem of PFAS and related chemicals in plating wastewater streams. This report covers the 10th quarter of work (April-June 2023). Here, we examine the effect of surface fluorination of Ti4O7 anodes on PFAS degradation performance in terms of energy performance as well as formation of chlorate and perchlorate when chloride is present in the solution. The full paper on this work can be accessed and printed at short.pfonline.com/NASF24Feb2.
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The AES Monthly Review: Volume 1, Number 1 (June 1914) Back to the Beginning
The American Electroplaters’ Society with Introduction by James H. Lindsay, NASF Technical Editor, Fenton, Michigan, USA.
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Examining Metallic Fastener Finishes: Performance Factors and Future Trends
A paper* based on a presentation given at NASF SUR/FIN 2023 (Cleveland, Ohio)
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NASF/AESF Foundation Research Project #121: Development of a Sustainability Metrics System and a Technical Solution Method for Sustainable Metal Finishing - 14th Quarterly Report
This NASF-AESF Foundation research project report covers the 14th quarter of project work (July-September 2023) at Wayne State University in Detroit.
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NASF Palmetto Chapter Hosts Fall Conference
15th annual NASF chapter event puts focus on business topics and leadership.
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NASF/AESF Foundation Research Project #123: Electrochemical Manufacturing for Energy Applications – 4th and 5th Quarter Report
The NASF-AESF Foundation Research Board selected a project on electrodeposition toward developing low-cost and scalable manufacturing processes for hydrogen fuel cells and electrolysis cells for clean transportation and distributed power applications. During the reporting period, efforts were focused on planning the overall project work, with the eventual goal of manufacturing an improved design for a Solid oxide fuel cell anode supported flat tube (SOFC).
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NASF/AESF Foundation Research Project #123: Electrochemical Manufacturing for Energy Applications - 6th Quarter Report
The NASF-AESF Foundation Research Board selected a project on electrodeposition toward developing low-cost and scalable manufacturing processes for hydrogen fuel cells and electrolysis cells for clean transportation and distributed power applications. In this period, work focused on 3D printing anode support for solid oxide fuel cells, SOFC (or cathode for solid oxide electrolyzers, SOEC) based on our designed optimization outlined in the previous report.
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NASF/AESF Foundation Research Project #122: Electrochemical Approaches to Treatment of PFAS in Plating Wastewater - 9th Quarterly Report
The NASF-AESF Foundation Research Board selected a project addressing the problem of PFAS and related chemicals in plating wastewater streams. This report covers the ninth quarter of work (January-March 2023). In this report, we describe our work on evaluating the performance of PFAS degradation by electrooxidation using surface fluorinated Ti4O7 anodes in batch mode.
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SUR/FIN 2023: Capsules from the Technical Sessions I: Emerging Technologies
SUR/FIN 2023 in Cleveland this past June was a resounding success. Due to the efforts of the Technical Activities Committee, ably led by Bill Nebiolo this year, an outstanding program of technical presentations was offered. What follows are summaries of selected presentations from the Emerging Technologies sessions. Additional coverage will be provided in this space in the coming months. The full report can be accessed and printed at short.pfonline.com/NASF23Aug1.
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NASF/AESF Foundation Research Project #120: Electrochemical Destruction of Perfluorooctanesulfonate in Electroplating Wastewaters - April 2022-March 2023
This NASF-AESF Foundation research project report covers project work from April 2022 to March 2023 at the University of Illinois at Chicago. The overall objective of this work is to utilize a cost-effective reactive electrochemical membrane (REM) for the removal of PFAS from synthetic electroplating wastewater. Initial results for the oxidation of PFOA with three different catalysts are discussed.
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