(401bj) Multi-stage Electrodialysis for Coal Chemical Industry Wastewater Treatment

During
coal mining, about 0.5 tonnes of water are consumed
to produce 1-2 tonnes of coal,
the coal chemical industry in China is facing a severe water shortage problem.
Zero liquid discharge is required with the stricter regulations for wastewater
discharge. Comparing with the other membrane concentrating techniques such as
forward osmosis, disc tube reverse osmosis, membrane distilliation,
electrodialysis (ED) with ion exchange membranes are
considered as a promising technology for salt concentrating for a moderate
salinity concentration. Matching between cation and anion exchange membrane is
especially important in ED for salt concentrating. Results in this study
indicate that cation exchange membrane has a greater significance
for the ED concentrating performance compared with anion exchange membrane. A
three-stage ED is also developed for salt concentrating (Figure 1). It is
estimated that Na+ and Cl- ions carry about 9 hydrated water ions at high salt
concentration, comparing with about 15-18 molecules at low salt concentration.
It is feasible to concentrate the salt to a concentration higher than 20wt%
with a three-stage ED. The energy consumption can be as low as 4.9-12.1 kWh/m3.
It is concluded that ED is a very effective technology to minimize the
wastewater capacity for evaporation in the zero liquid process.

Keywords:
Ion
exchange membrane; electrodialysis, zero liquid
discharge, coal chemical wastewater

Acknowledgements:
This research is supported by the National
Natural Science Foundation of China (21676259) and National High Technology
Research and Development Program 863 (No. 2015AA021001).

Figure
1. A three-stage electrodialysis for salt
concentrating