Comments on: 模拟电渗流和双电层 //www.denkrieger.com/blogs/modeling-electroosmotic-flow-electrical-double-layer 发布博客 Tue, 09 Sep 2025 05:12:24 +0000 hourly 1 https://wordpress.org/?v=6.7.2 By: R T //www.denkrieger.com/blogs/modeling-electroosmotic-flow-electrical-double-layer/#comment-45003 R T Tue, 09 Sep 2025 05:12:24 +0000 http://cn.staging.comsol.com/blogs?p=342421#comment-45003 In reply to <a href="//www.denkrieger.com/blogs/modeling-electroosmotic-flow-electrical-double-layer/#comment-44973">chong shi</a>. 那么对于双电层那个节点而言,没有发生化学反应,只有充放电过程,所以就不用加化学计量系数对吧

In reply to chong shi.

那么对于双电层那个节点而言,没有发生化学反应,只有充放电过程,所以就不用加化学计量系数对吧

 By: chong shi //www.denkrieger.com/blogs/modeling-electroosmotic-flow-electrical-double-layer/#comment-44973 chong shi Mon, 08 Sep 2025 09:17:35 +0000 http://cn.staging.comsol.com/blogs?p=342421#comment-44973 In reply to <a href="//www.denkrieger.com/blogs/modeling-electroosmotic-flow-electrical-double-layer/#comment-44643">R T</a>. 化学计量系数与界面发生的电化学反应有关,举例阴极发生还原反应,由一价正离子得到一个电子变成原子或者分子,那么对于这个一价正离子而言,化学计量系数是-1,而对于生成物而言,化学计量系数是+1.

In reply to R T.

化学计量系数与界面发生的电化学反应有关,举例阴极发生还原反应,由一价正离子得到一个电子变成原子或者分子,那么对于这个一价正离子而言,化学计量系数是-1,而对于生成物而言,化学计量系数是+1.

 By: R T //www.denkrieger.com/blogs/modeling-electroosmotic-flow-electrical-double-layer/#comment-44643 R T Sat, 23 Aug 2025 02:21:01 +0000 http://cn.staging.comsol.com/blogs?p=342421#comment-44643 请问如果我使用三次电流分布接口模拟电解槽中的离子输运过程,我在阴极处添加了多孔基体双电层电容。那么这个节点中的物质化学计量系数如何设置呢?我的电解液是KHCO3

请问如果我使用三次电流分布接口模拟电解槽中的离子输运过程,我在阴极处添加了多孔基体双电层电容。那么这个节点中的物质化学计量系数如何设置呢?我的电解液是KHCO3

 By: Zhaoze Lu //www.denkrieger.com/blogs/modeling-electroosmotic-flow-electrical-double-layer/#comment-36033 Zhaoze Lu Fri, 18 Oct 2024 05:51:41 +0000 http://cn.staging.comsol.com/blogs?p=342421#comment-36033 In reply to <a href="//www.denkrieger.com/blogs/modeling-electroosmotic-flow-electrical-double-layer/#comment-26553">晨杰 王</a>. 非常感谢老师您的帮助!非常有用!

In reply to 晨杰 王.

非常感谢老师您的帮助!非常有用!

 By: 晨杰 王 //www.denkrieger.com/blogs/modeling-electroosmotic-flow-electrical-double-layer/#comment-35553 晨杰 王 Thu, 26 Sep 2024 04:09:36 +0000 http://cn.staging.comsol.com/blogs?p=342421#comment-35553 In reply to <a href="//www.denkrieger.com/blogs/modeling-electroosmotic-flow-electrical-double-layer/#comment-24133">静雯 张</a>. Okay Jingwen, I'm glad that you're interested in simulation of the Electrokinetics in microfluidics and EDL. I also hope to have the opportunity to discuss and exchange ideas with you. I wish you a smooth learning and research journey, and look forward to making progress together!

In reply to 静雯 张.

Okay Jingwen, I’m glad that you’re interested in simulation of the Electrokinetics in microfluidics and EDL. I also hope to have the opportunity to discuss and exchange ideas with you. I wish you a smooth learning and research journey, and look forward to making progress together!

 By: 晨杰 王 //www.denkrieger.com/blogs/modeling-electroosmotic-flow-electrical-double-layer/#comment-26553 晨杰 王 Thu, 30 Nov 2023 11:15:50 +0000 http://cn.staging.comsol.com/blogs?p=342421#comment-26553 In reply to <a href="//www.denkrieger.com/blogs/modeling-electroosmotic-flow-electrical-double-layer/#comment-24093">文文 许</a>. 我这儿有相关的案例,咱们有机会可以交流一下,可以加我联系方式17536077934

In reply to 文文 许.

我这儿有相关的案例,咱们有机会可以交流一下,可以加我联系方式17536077934

 By: hao huang //www.denkrieger.com/blogs/modeling-electroosmotic-flow-electrical-double-layer/#comment-24243 hao huang Thu, 14 Sep 2023 01:18:11 +0000 http://cn.staging.comsol.com/blogs?p=342421#comment-24243 In reply to <a href="//www.denkrieger.com/blogs/modeling-electroosmotic-flow-electrical-double-layer/#comment-24133">静雯 张</a>. 您好,目前作者暂未提供原始案例,您可以尝试使用静电+稀物质传递+层流接口来设置,并且需要自己定义电渗的体积力来使流体流动。如果还有其他问题可以联系 COMSOL 的技术支持团队。 在线支持中心:www.denkrieger.com/support Email: support@comsol.com 谢谢!

In reply to 静雯 张.

您好,目前作者暂未提供原始案例,您可以尝试使用静电+稀物质传递+层流接口来设置,并且需要自己定义电渗的体积力来使流体流动。如果还有其他问题可以联系 COMSOL 的技术支持团队。
在线支持中心:www.denkrieger.com/support
Email: support@comsol.com
谢谢!

 By: 越 赵 //www.denkrieger.com/blogs/modeling-electroosmotic-flow-electrical-double-layer/#comment-24193 越 赵 Tue, 12 Sep 2023 09:11:40 +0000 http://cn.staging.comsol.com/blogs?p=342421#comment-24193 In reply to <a href="//www.denkrieger.com/blogs/modeling-electroosmotic-flow-electrical-double-layer/#comment-24093">文文 许</a>. 您好,目前没有原始案例可以提供给您,您可以尝试使用静电+稀物质传递+层流接口来设置,并且需要自己定义电渗的体积力来使流体流动。

In reply to 文文 许.

您好,目前没有原始案例可以提供给您,您可以尝试使用静电+稀物质传递+层流接口来设置,并且需要自己定义电渗的体积力来使流体流动。

 By: 静雯 张 //www.denkrieger.com/blogs/modeling-electroosmotic-flow-electrical-double-layer/#comment-24133 静雯 张 Mon, 11 Sep 2023 06:44:33 +0000 http://cn.staging.comsol.com/blogs?p=342421#comment-24133 I'm really thankful to read the impressive blog which miraculously initiated me into the study of EDL. Besides, I show great interest in the first model named micro pump, but it's a pity for me that I am not able to get access to it. I would be grateful if you could send me the original model. My email account is bestrong1314@163.com

I’m really thankful to read the impressive blog which miraculously initiated me into the study of EDL. Besides, I show great interest in the first model named micro pump, but it’s a pity for me that I am not able to get access to it. I would be grateful if you could send me the original model. My email account is bestrong1314@163.com

 By: 文文 许 //www.denkrieger.com/blogs/modeling-electroosmotic-flow-electrical-double-layer/#comment-24093 文文 许 Fri, 08 Sep 2023 03:40:07 +0000 http://cn.staging.comsol.com/blogs?p=342421#comment-24093 Hello, I am very interested in the first "micro pump" model, could you send me the original model, if so I would be very grateful, here is my email:1211887178@qq.com

Hello, I am very interested in the first “micro pump” model, could you send me the original model, if so I would be very grateful, here is my email:1211887178@qq.com
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