Market background: The treatment of fine-grained solid-containing wastewater has always been a difficult problem in the environmental protection industry, especially the treatment of high-temperature solid-containing wastewater. Existing wastewater treatment systems often have unsatisfactory aspects such as large floor space, high equipment energy consumption, low processing capacity, and high maintenance costs.
Working principle: Borrowing the advanced laminar flow filtration concept from abroad and changing the porous ceramic tube to a single-hole ceramic tube, the key element of 'flow rate in the tube' can be improved, greatly extending the service life of the ceramic tube. It integrates advanced concepts such as rod ultrasonic cleaning system and polyurea sealing system to fully utilize the filtration performance of ceramics without increasing energy consumption and extending the maintenance cycle.
1. A single tube section can accommodate 152 ceramic tubes, which greatly increases the effective filtration area compared to porous tubes.
2. The system integrates advanced control concepts such as wastewater feed volume monitoring, water production rate monitoring, energy consumption monitoring, data statistics, and fault prediction systems.
3. The integration of the rod ultrasonic cleaning system greatly improves the productivity of the system and keeps the ceramic tubes in a highly efficient filtration state.
4. The variable-period oscillation recoil system can restore the filtration performance of ceramic tubes online without shutting down.
5. The flow superposition of the circulation pump and the feed pump can maximize the 'in-pipe flow rate' indicator.
6. Changing parallel tubes to series tubes can maximize the 'in-pipe flow rate' without increasing energy consumption.
