Home » Sponsored Content » The 3D printed electrode effectively solves the bubble problem in the electrolysis process

The 3D printed electrode effectively solves the bubble problem in the electrolysis process

Posted by: chinaeye 2022-06-25 Comments Off on The 3D printed electrode effectively solves the bubble problem in the electrolysis process

The picture shows the designed 3D electrode: it manages the bubble migration in the gas escape reaction at high current density.

Alkaline water electrolysis is touted as a way to build a hydrogen economy by converting intermittent renewable energy into clean hydrogen-based chemical energy.

However, the current technology only achieves low current density and low voltage efficiency.

In order to make the electrolysis technology more valuable, a team from Lawrence Livermore National Laboratory (LLNL), in cooperation with the University of California, Santa Cruz and two other institutions, developed a fdm 3D printing electrode that can reduce the number of electrolysis processes. The problem caused by the bubbles generated in the.

One of the keys to achieving higher current density in electrolysis is the bubbles generated during the electrolysis process. Air bubbles often mix together, causing blockages and getting trapped, making it difficult for them to escape.

The lead author of a paper published by LLNL in “Advanced Energy Materials”, LLNL materials scientist Cheng Zhu (Cheng Zhu) said: “This new electrode can eliminate air bubbles faster. You don’t want air bubbles to be trapped in the material. ; You have to take them out as fuel as quickly as possible.”

The new electrode with a unique 3D printing structure inhibits the coalescence, interference and capture of bubbles, and causes the bubbles to be released quickly. The research team found that the current density in the structure was 50 times the laboratory standard.

The team also used simulations to figure out how the gas formed, how it escaped, and how quickly it escaped. Because you cannot see this process inside the electrode, simulation is crucial in the design.

Rongpei Shi, a materials scientist at LLNL who performed the simulation, said: “This model helped us figure out the basic science of what we are seeing. The electrode is not transparent, so you can’t see what’s going on inside. This controlled platform And the model is unprecedentedly important for understanding the physical phenomena inside the electrode.”

This work demonstrates a new method for designing 3D electrodes that can achieve rapid bubble transport and release, thereby enhancing the overall catalytic activity of the electrode at commercially relevant current densities.

Brandon Wood, Deputy Project Leader of Hydrogen and Computational Energy Materials of the LLNL Materials Science Department and co-author of this paper, said: “A lot of work has been done on the material side of electrolysis, including finding electrodes. Catalyst materials. Our research team found that the actual structure of the components is equally important, especially at high productivity.”

Link to this article: The 3D printed electrode effectively solves the bubble problem in the electrolysis process

Reprint Statement: If there are no special instructions, all articles on this site are original. Please indicate the source for reprinting:https://www.cncmachiningptj.com


PTJ® provides a full range of Custom Precision cnc machining china services.ISO 9001:2015 &AS-9100 certified.
Machining shop specializing in fabrication services for construction and transportation industries. Capabilities include plasma and oxy-fuel cutting, Tailored machining, MIG and Custom Aluminum Cnc Precision Milling Welding Jig Fixture, roll forming, assembly, Lathe machining stainless steel cnc machine shaft, shearing, and CNC Swiss Machining services. Materials handled include carbon and Passivation Stainless Steel Machining Cover Plate Parts.
Tell us a little about your project’s budget and expected delivery time. We will strategize with you to provide the most cost-effective services to help you reach your target,You are welcome to contact us directly ( [email protected] ) .

Link to this article:The 3D printed electrode effectively solves the bubble problem in the electrolysis process

Reprint Statement: If there are no special instructions, all articles on this site are original. Please indicate the source for reprinting:Mold Wiki,Thanks!^^