Intelligent integrated sewage treatment equipment is a comprehensive facility that integrates sewage collection, treatment and discharge functions. It is usually composed of multiple treatment units, including grids, grit chambers, regulation tanks, biochemical reaction tanks, Sedimentation tanks, filters, etc., can complete almost all sewage treatment processes from inlet to outlet. This equipment is designed with a modular structure and can be flexibly assembled according to specific water quality and treatment capacity needs, greatly improving its applicability.
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The equipment adopts contact oxidation method and has an average residence time of more than 6 hours. It can effectively cope with fluctuations in water quality and sudden increases in water volume and ensure stable treatment effects.
By adjusting the equipment structure and operating parameters, it is possible to flexibly treat industrial wastewater and domestic sewage, optimize the microbial growth environment, and achieve deep removal of nutrients such as ammonia and phosphorus.
The equipment integrates pretreatment, biochemical treatment, disinfection and other processes, and covers a small area and is especially suitable for areas with tight land resources.
Prefab production is adopted, with small on-site installation workload and short construction period. It supports buried or above-ground installation without affecting environmental greening.
Equipped with a fully automatic electrical control system and fault alarm system, it supports remote monitoring and automated operation, and reduces manual operation costs.
The equipment has a clear structure, easy daily inspection and maintenance, and low sludge production and easy disposal, further reducing operation and maintenance costs.
The operating noise of the equipment is less than 50 decibels, and there is no odor generated during the processing process, and there is little impact on the surrounding environment.
Some models support turning sewage into fertile water. The treated water is rich in nutrients such as ammonia and phosphorus, and can be directly used for farmland irrigation, achieving a closed loop of resources.
Engineers conduct the structural design of the equipment, including size, shape and material selection.
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The design team designed a suitable treatment process based on the results of demand analysis.
Purchase appropriate materials according to design requirements, such as stainless steel, glass fiber reinforced plastic, plastic, etc.
Pretreatments such as cutting, polishing, and polishing are carried out on the material to facilitate subsequent processing.
According to the design drawings, manufacture various components, such as reactors, sedimentation tanks, filters, etc.
Metal components are welded, and plastic components are thermally melted or mechanically connected.
Metal components are treated with anti-corrosion coating, and plastic components are surface polished and cleaned.
Functional testing of the assembled equipment to ensure that each component and system is working properly.
Conduct simulated wastewater treatment tests to verify the treatment effect and performance indicators of the equipment.
Assemble each manufactured component according to design requirements.
Integrate mechanical components with electrical control systems, automation systems, etc.
Conduct safety performance tests to ensure that the equipment is safe and reliable during operation.
Equipment that passes the test is packaged to protect the equipment from damage during transportation.
Arrange appropriate transportation methods to safely deliver equipment to customer sites.
Carry out equipment installation work on customer site, including foundation construction, equipment positioning and fixing.
Conduct system debugging work to ensure that the equipment adapts to site conditions and achieves optimal operating conditions.
Train customers on equipment operation and maintenance to ensure that customers can use equipment correctly.
After all work is completed, the final delivery of the equipment is carried out and necessary documentation and warranty services are provided.
The application of integrated equipment in slaughtering and breeding is mainly reflected in improving efficiency, reducing costs, and improving product quality and safety.
In light industry such as food processing, electronics factories, and textile mills, intelligent integrated sewage treatment equipment can be used as a pretreatment or partial treatment unit to effectively remove harmful substances in wastewater.
In residential areas and office buildings of government agencies and institutions, intelligent integrated sewage treatment equipment can centrally treat all domestic sewage, improve sewage treatment efficiency, and reduce the impact on the surrounding environment.
In rural areas and tourist attractions and other places, intelligent integrated sewage treatment equipment can adapt well to these scenarios due to relatively small sewage discharges. It can directly reuse domestic sewage after treatment, saving water and reducing environmental pollution.
In temporary places such as disaster areas, temporary construction sites, and large-scale event sites, intelligent integrated sewage treatment equipment can quickly build sewage treatment facilities. It is easy to install, operate, and move, and can be quickly put into use to meet the urgent needs of on-site sewage treatment.
In remote areas or areas with low population concentrations, the cost of building large sewage treatment plants is high, and intelligent integrated sewage treatment equipment is a cost-effective option. It can combine sewage treatment and reuse to provide local residents with convenient and efficient domestic sewage treatment services.
Project background:The water purification treatment equipment selection and system design suggestions for the rural market town water supply project in Maguan County combine the characteristics of Yunnan mountainous water sources (high turbidity rainy season, low turbidity dry season, may contain iron and manganese, etc.) and rural operation and maintenance needs to provide a solution that is economical, practical, resistant to impact loads, and easy to maintain.
Project Value:
Project background:The teaching laboratory (School of Chemistry, Biology, Medicine, and Materials) and scientific research center of Shantou University cover wastewater types: organic solvent wastewater, heavy metal wastewater, pathogenic microbial wastewater, and radioisotope wastewater (a small amount).
Project background:Yadong County Waterworks Project is a typical case of building livelihood infrastructure in high altitudes, border areas, and environmentally sensitive areas. Such projects need to pay special attention to the reliability of water sources, water quality characteristics, alpine adaptation, earthquake fortification, convenience of operation and maintenance, and the uniqueness of border areas.
Project background:In response to the "Battery Industry Pollutant Emission Standards"(GB 30484-2013), strictly control nickel, cobalt, manganese, fluoride and other pollutants
Project background:The professional design plan of Zhejiang Zhoushan Water Purification Reverse Osmosis Treatment Project combines the characteristics of high salinity, high corrosiveness, energy sensitivity, etc. in the island area, and focuses on the three core needs of system reliability, low energy consumption, and intelligent operation and maintenance. Provide a full-process technical solution from water source to water production.
