BPM water treatment system is a revolutionary transformation of the traditional water treatment system, which connects the components of the water treatment system with the internet through the information sensing equipment, according to the agreement, the exchange and communication of operational information, processing information and data information in the water treatment process through an information media, it realizes the functions of remote intelligent recognition, location, tracking and monitoring of water treatment system.
BPM water treatment system supervision program, not only provides systematic water treatment component program, Operation Program and Maintenance Program and program debugging, in addition, it can monitor all operation indexes and system faults of water treatment throughout the service period of the system, automatically identify abnormal data and operations, accurately locate problem points, and automatically send alarm signals to the management center in a timely manner, after-sales technical personnel hear the alarm signal, can remote operating system, real-time implementation of water treatment system operation and maintenance. And after the remote processing, the system automatically tracking indicators, real-time feedback, effectively monitor the effectiveness of processing and system stability.
In the daily operation of the water treatment system, the water treatment system will be automatically updated and optimized in real time, which is equivalent to the operator in the whole life cycle of the water treatment system, without manual intervention, can realize the system self-renewal, reduce the operator's labor costs and time costs, improve the overall efficiency of the system, make the operation life cycle cost optimization.
The BPM water treatment system is a modular, integrated system with independent units. This modular, replaceable, and decomposable component unit has
When a system unit fails and needs to be replaced or serviced, a modular system makes it easier to find the source of the problem, lock down the failure unit, and disassemble it, thus making it easier to maintain and repair, at the same time also facilitate the system upgrade iteration.
When the system unit failure, the whole system will not stop working and running, units parallel, can be used at any time to replace the standby components, system stability greatly improved.
Modular components facilitate system capacity expansion and reduction, component interfaces are unified, reserved, when the need to run at full load, the system can achieve maximum productivity, when the need to run at reduced volume, the system automatically matches the appropriate output to save energy and cost and avoid waste.