| About this Abstract |
| Meeting |
MS&T23: Materials Science & Technology
|
| Symposium
|
15th Symposium on Green and Sustainable Technologies for Materials Manufacturing and Processing
|
| Presentation Title |
A Sustainable and Energy-efficient Electrochemical Technology for Dewatering of Cellulosic Nanomaterials |
| Author(s) |
Santosh Vijapur, Santosh More, Timothy Hall, EJ Taylor, Maria Inman, Stephen Snyder, Kim Nelson |
| On-Site Speaker (Planned) |
Santosh More |
| Abstract Scope |
Cellulose has a variety of industrial applications. Although cost-effective to produce, a need has been identified by manufacturers to develop energy-efficient dewatering of cellulosic nanomaterials, as cellulosic nanomaterials are not economical to ship long distances while containing significant water content (>95 wt.%). An electrochemically-assisted sustainable and energy-efficient dewatering technology is developed by Faraday. Innovative reactor designs are utilized to demonstrate the feasibility of a cost-effective, industrially viable, and energy efficient ElectroDewatering approach capable of generating >50 wt.% final solid content for both cellulose nanocrystals (CNC) and cellulose nanofibers (CNF). The material properties (structure, particle size) were maintained through dewatering, and materials with ~25wt.% final solids were successfully rehydrated and redispersed via vortexing. The current continuous alpha scale system is capable of drying up to 2 tpy of dried cellulosic materials continuously with at least a 50% reduction in energy compared to thermal drying at a similar dewatering performance. |