Stable treatment effect: Through coordinated operations of precipitation, filtration and
disinfection, it can efficiently remove impurities, microorganisms
and harmful substances in raw water, and can adapt to different
water quality. Even if the water quality of the raw water fluctuates, it can
stably ensure that the water quality meets the national drinking
water standards.
High degree of automation: equipped with advanced control system, real-time monitoring of
water quality, water level, flow and other parameters, and
automatically controls equipment start-stop, dosing, backflushing
and other operations, reduces manual intervention, improves
operating efficiency and management level, and reduces human error.
Low operating cost: adopt energy-saving processes and high-efficiency materials to
optimize flocculation and filtration processes, reduce agents and
energy consumption; the equipment is simple to maintain and has a long life, and
through scientific management, it effectively compresses production
costs under the premise of water retention.
Safety and reliability: Strong disinfection equipment kills pathogenic microorganisms,
equipment design strictly adheres to electrical and mechanical
safety standards, strengthens corrosion resistance; equips backup equipment and emergency solutions to ensure safe and
continuous water supply.
Wide scope of application: Treatment processes and equipment can be flexibly configured based
on water sources and water quality. Whether it is a large urban water plant or a small township water
supply station, it can be optimized and designed to meet
differentiated water supply needs.
Tap water treatment equipment is a series of equipment used to
treat raw water (such as rivers, lakes, groundwater, etc.) into tap
water that meets the national drinking water sanitation standards.
Tap water treatment usually includes sedimentation, filtration,
disinfection and other major process links. The raw water first
enters the sedimentation tank, and through natural sedimentation or
the addition of flocculants, the suspended particles in the water
are precipitated to the bottom of the tank to remove larger
particles of impurities. Then, the precipitated water enters the
filtration tank, and through sand filtration, activated carbon
filtration, etc., fine particles, organic matter, residual chlorine
and other impurities are further removed to improve the clarity of
the water. Finally, the filtered water is disinfected. Commonly
used disinfection methods include chlorine disinfection, chlorine
dioxide disinfection, ultraviolet disinfection, etc., to kill
bacteria, viruses and other microorganisms in the water to ensure
the safety and hygiene of drinking water.
