Product features include a high removal rate of pollutants, strong resistance to sludge expansion, stable and reliable effluent water quality, and absence of suspended solids. The MBR membrane bioreactor achieves a complete separation of sludge retention time (STR) and hydraulic retention time (HRT), simplifying design and operation. The mechanical crossflow of the membrane prevents microbial loss, allowing for high sludge concentration within the bioreactor, thereby increasing volumetric loading and reducing sludge loading. The MBR process eliminates the secondary settling tank, reducing land area. The active sludge in the MBR aeration tank does not lose due to water, and during operation, the active sludge changes with the concentration of organic matter, reaching a dynamic equilibrium. This results in stable effluent quality and high resistance to shock loads. The large hydraulic circulation causes uniform mixing of wastewater, leading to excellent dispersion of active sludge and significantly increasing the specific surface area. Integrated equipment with PLC automatic control, simple installation and construction, convenient operation and management, and minimal land area.

Introduction to Solar Micro-Power Automatic Wastewater Treatment Equipment

The Haorun Solar Micro-Power Automatic Sewage Treatment Equipment utilizes solar photovoltaic panels to convert solar energy into electrical power for sewage treatment. Once the battery is fully charged, the system can continue to operate the sewage treatment process even during consecutive 7 days of rain and clouds. After undergoing multiple processes including pipeline collection, anaerobic biological treatment, contact oxidation, sedimentation, and meeting emission standards, the originally turbid sewage becomes crystal clear. The treated wastewater is suitable for reuse in irrigation. The organic sludge at the sedimentation pond can be composted and, after maturation, can be used as organic fertilizer for further application.

This system was developed by our company and is at a very high level domestically. Its main features include a small land footprint, the use of eco-friendly solar energy as the primary power source, and microcomputer remote full-automatic control for management. Compared to conventional treatment processes, it has lower operating costs, is easy to manage, and maintains stable water quality output.

Product Features

1. Utilizes solar green energy, in compliance with national industrial policies.

2. Utilizing integrated optoelectronic technology, powered by solar energy, it operates without electricity, with minimal running costs. Additionally, the system operates stably over the long term, effectively integrating with the power grid to flatten peak loads and fill valleys.

3. Enhanced with recirculation and aeration, it features nitrogen and phosphorus removal capabilities, resulting in excellent effluent water quality.

4. Utilizes A2/O process. Eligible for inclusion in the national energy conservation and emission reduction plan.

5. The application of microcomputer automatic control systems and remote online monitoring systems achieves real-time communication, remote fault alarms, and remote troubleshooting, all without the need for human management. This solves the practical problem of a lack of operation and management personnel in rural and township areas, and the entire system can be implemented.

6. No noise or secondary pollution such as ozone.

7. The system boasts a compact structure and small land footprint, significantly saving land resources and allowing for greenery on the surface.

The HRYTH Integrated Sewage Treatment Equipment employs the world's most advanced biological treatment process, integrating the removal of BOD5, COD, and NH3N into one unit, making it the most effective sewage treatment equipment currently available. It is widely used in high-end hotels, villa communities, and comprehensive sewage treatment for waste water and residential complexes. The HRYTH series integrated sewage treatment equipment is a highly effective and conveniently managed unit, suitable for above-ground installation. The technical principle involves the sewage first entering the ABR anaerobic pond, where anaerobic microorganisms degrade solid, macromolecular, and non-biodegradable organic matter in the sewage into easily biodegradable small-molecule organic matter, enhancing the biochemical properties of the sewage. The effluent from the ABR anaerobic pond is transferred to the contact oxidation zone. In the contact oxidation zone, aerobic microorganisms proliferate extensively, and the aerobic microorganisms rapidly and efficiently degrade organic pollutants in the sewage, removing COD and ammonia nitrogen, achieving the required water quality standards. The effluent from the contact oxidation zone is then flowed into multiple quality filters, where suspended solids are retained. The bottom clear liquid is self-inflowed into the clear water zone, which discharges automatically after water storage is sufficient. The discharged clear water undergoes disinfection treatment by adding disinfectant chemicals. After disinfection, the treated sewage meets the standards for discharge.