Manufacturer of Solar Powered Sewage Treatment Plant

Manufacturer of Solar Powered Sewage Treatment Plant

Mainly using solar power generation, supplemented by municipal power grid, it can supply power to the grid when there is sufficient sunlight, and in rainy days, it can draw electricity from the grid to meet the power requirements of the system. Utilizing solar photovoltaic conversion technology to provide power for oxygenation, aeration, stirring, and reflux in rural domestic sewage treatment, achieving deep and reliable treatment of wastewater. At the same time, intelligent equipment operation management, remote control, remote monitoring, and unmanned operation will be implemented to adapt to the actual situation of rural grassroots lacking professional technical management personnel.

Manufacturer of Solar Powered Sewage Treatment Plant

The sewage treatment process adopted by the equipment is membrane bioreactor (MBR), with the process flow as follows: sewage → grid → regulating tank → sewage lift pump → MBR biochemical tank → clean water tank → effluent.

The hydraulic retention time of the regulating pool should not be less than 8 hours.

Hollow fiber membranes or flat membranes can be used for membrane modules. The average pore size of membrane components should not exceed 0.4 μ m. When using hollow fiber membranes, the membrane elements (membrane fibers) should have good mechanical strength, and the tensile strength should not be less than 10kg.

The soaking chemical cleaning cycle for membrane components should not be less than 6 months.

Anhui Baolv sewage treatment equipment is often used in chemical enterprises, and the discharged sewage has complex composition, high concentration of organic matter, and many biologically recalcitrant substances. Although it meets the discharge standards after secondary treatment, its potential harm to the environment is still significant. Therefore, it is necessary to carry out deep treatment and recycling of the effluent from mixed chemical wastewater treatment plants. At present, traditional deep treatment processes have problems such as high investment, high treatment costs, and high management requirements. In response to the effluent quality of a mixed chemical wastewater treatment plant in an industrial park, an artificial fast infiltration/composite artificial wetland deep treatment process has been proposed.