Introduction
Reducing the gap between anode and cathode. In zero gap technology, both anode and cathode surfaces are in contact with the membrane, i.e. electrode gap equals to membrane thickness. Achieving uniform current distribution the original anode and cathode mesh are not fully flat; this is creating some non-uniformity in the current distribution. The elastic element can adjust its thickness following meshes profile, so the gap between anode and cathode is kept uniform.
Concept
Zero...
[More]
dc733d93-3161-49c2-9c6c-e5adcb8266ad|0|.0|27604f05-86ad-47ef-9e05-950bb762570c
Zero-Gap MGC - Characteristics
Compensates for Fatigue of Cathode Springs
Flat Cathode Profile – No “Pinch” Points
Improved IR Drop (Anode-Cu Voltage)
Cathode “Recoating” done by replacing Flynet at Site
Coatings for Polarized and Non-Polarized Cell Rooms
For more information, please feel free to contact us chloralkali@tiaano.com or visit our webpage www.tianode.com
Will share our credentials (client list, performance ce...
[More]
1fc96d21-0a21-4455-94fa-6417682a6e71|0|.0|27604f05-86ad-47ef-9e05-950bb762570c
Objective
Elastic element fills the gap between cathode & membrane.
Better current density distribution.
Elasticity can long last & durable performances in the life.
Longer membrane life and
lower cell voltage with more or less the same caustic faraday efficiency
Components
Nickel Mattress: assuring a perfect “zero-gap” condition between cathode mesh and membrane.
Activated Nickel Flynet: fine woven mesh, activated with a MMO coating specific for “zero-gap” ...
[More]
04da2500-de28-4067-823a-be03d5c5e82f|0|.0|27604f05-86ad-47ef-9e05-950bb762570c