The HRYTH Integrated Wastewater Treatment Equipment utilizes the world's most advanced biological treatment process, integrating the removal of BOD5, COD, and NH3N into one system, making it the most effective wastewater treatment equipment available. It is widely used for comprehensive wastewater treatment in high-end hotels, villa communities, industrial wastewater treatment plants, and residential areas. The HRYTH series integrated wastewater treatment equipment offers ideal treatment results and easy management, suitable for above-ground installation. The technical principle involves wastewater first entering the ABR anaerobic pool, where anaerobic microorganisms degrade solid, macromolecular, and non-biodegradable organic matter into easily biodegradable small molecules, significantly enhancing the biodegradability of the wastewater. The effluent from the ABR anaerobic pool is transferred to the contact oxidation zone. In the contact oxidation zone, aerobic microorganisms proliferate rapidly, efficiently degrading organic pollutants in the wastewater, greatly reducing COD and ammonia nitrogen, and achieving the required water quality standards. The effluent from the contact oxidation zone flows into multiple quality filters, where suspended solids are retained. The clear liquid at the bottom flows into the clean water zone, which, once the storage capacity is met, discharges automatically. The discharged clear water undergoes disinfection treatment by adding disinfectant chemicals. After disinfection, the wastewater meets the standard for discharge.

1. Application Field 1: Centralized Treatment of Rural Living Wastewater in New Villages 2. Treatment of Hotel, School, and Urban Living Wastewater 3. Comprehensive Wastewater Management in Scenic Spots and Tourist Areas 4. Treatment of Factory and Barracks Living Wastewater 5. Laboratory and Medical Wastewater Treatment and Reuse

Introduction to Solar Micro-Power Automatic Sewage 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. With a fully charged battery, the system can operate the sewage treatment process continuously for 7 consecutive days of rain or overcast. After undergoing multiple processes including pipeline collection, anaerobic biological treatment, contact oxidation, sedimentation, and meeting discharge 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 recycling.

This system was developed by our company and is at a very high level domestically. Its main features include a small land footprint, using eco-friendly and green solar energy as the primary power source, and implementing micro-computerized remote full-automatic control for management. Compared to conventional treatment processes, it has lower operational costs, is easy to manage, and ensures 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, no electricity is required, with minimal operating costs. Additionally, the system operates stably over the long term, effectively balancing peak and off-peak loads by integrating with the power grid. This approach aligns with national policy guidance while achieving minimal operational costs.

3. Enhanced with recirculation and aeration, featuring denitrification 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 system and remote online monitoring system enables online communication, remote fault alarm, and remote troubleshooting, eliminating the need for human management. This solves the real issue of a lack of operational management personnel in towns and rural areas, making the entire system feasible.

6. No noise or secondary pollution such as ozone.

7. The system features a compact structure and minimal land footprint, significantly conserving land resources and allowing for ground-level landscaping.