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.
Colorful series
Blue background + black background + yellow edge + yellow advertising
Green background + yellow edge + yellow advertising
Blue background + yellow edge + yellow advertising
White background + green edge + green advertising
White background + blue edge + customized advertising
White background + blue edge + green advertising
Product Functional Advantages
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.
Product Technical Advantages
The design team designed a suitable treatment process based on the results of demand analysis.
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Engineers conduct the structural design of the equipment, including size, shape and material selection.
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.
Assemble each manufactured component according to design requirements.
Conduct simulated wastewater treatment tests to verify the treatment effect and performance indicators of the equipment.
Functional testing of the assembled equipment to ensure that each component and system is working properly.
Integrate mechanical components with electrical control systems, automation systems, etc.
Conduct safety performance testing 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.
Product Process Flow
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.
Customer Case
Project Background:As an important part of water conservancy projects, medium and large sluices undertake multiple functions such as water level regulation, water flow control, flood control and drainage, and play a huge role in flood control and disaster reduction, water resources allocation, and ecological environment improvement. However, due to historical reasons, many sluices have problems such as low construction standards, poor quality, and imperfect supporting facilities. In addition, due to the influence of the idea of "rebuilding light pipes", most sluices lack effective management and maintenance after completion, and there are many safety hazards and prominent risks to safe operation. In order to ensure the safe and stable operation of sluices and detect and deal with potential safety hazards in a timely manner, the development and application of sluices safety monitoring systems have emerged. The system realizes real-time collection and transmission of sluice operation data by deploying a series of environmental quantity monitoring sensors in the surrounding areas of the sluice and arranging various safety monitoring sensors inside the sluice body. The data collection content includes key information such as water level, flow rate, and gate opening. These data are collected through sensors and transmitted to the digital twin model through the network, so that staff can understand the operating status of the gate in real time, detect and deal with abnormalities in time. With the advancement of science and technology and the rapid development of technologies such as the Internet of Things, big data, and satellite remote sensing, the functions and performance of the sluice safety monitoring system have been significantly improved. The modern sluice safety monitoring system can not only realize real-time monitoring, data analysis, early warning and other functions, but also realize intuitive display of sluice operating status, water flow conditions, water level changes and other data through three-dimensional visualization technology, providing more scientific and accurate basis for management decisions.
Project Value:The significance of medium and large sluice safety monitoring systems is to ensure the safe operation of sluices, optimize water resource allocation, improve flood control and disaster reduction capabilities, and promote the modernization of water conservancy project management. The application of this system is of great significance for improving the safety and efficiency of water conservancy projects. By monitoring the structural status, hydrological data and environmental changes of the sluice in real time, potential risks and problems can be discovered in a timely manner, and corresponding preventive measures can be taken to ensure the stability and durability of the sluice. In addition, through data analysis and model prediction, water resources can be dispatched more scientifically, water resources can be rationally allocated, waste can be reduced, and water resource utilization efficiency can be improved. In terms of flood control, the monitoring system can provide accurate information such as water level and flow, provide scientific basis for flood control decisions and effectively reduce losses caused by flood disasters. In the end, this system will promote the development of water conservancy project management in an intelligent and information-based direction, and improve the management level of the entire water conservancy industry and its ability to respond to emergencies.
Project Background: With the rapid development of my country's economy and the acceleration of urbanization, the development and utilization of groundwater resources are increasing day by day. However, groundwater pollution has become increasingly prominent, seriously threatening human health and the ecological environment. The quality of groundwater in some areas has deteriorated, and pollution sources are complex and diverse, including industrial wastewater, agricultural non-point source pollution, domestic sewage, etc. Traditional groundwater monitoring methods mainly rely on manual sampling and laboratory analysis, which have problems such as long monitoring cycles, untimely data acquisition, and limited monitoring scope. Our government attaches great importance to the prevention and control of groundwater pollution and has issued a series of policies and regulations, such as the "Groundwater Pollution Prevention Law","Groundwater Quality Standards", etc., provide policy guarantees for online groundwater monitoring. In order to effectively prevent groundwater pollution and ensure groundwater safety, online groundwater monitoring technology emerged. Online groundwater monitoring refers to the real-time and continuous monitoring of groundwater quality, water volume, water temperature and other parameters through monitoring equipment placed in groundwater, providing a scientific basis for groundwater pollution prevention and control. The demand for groundwater quality safety is growing, and groundwater online monitoring technology plays an important role in ensuring groundwater safety and improving the ecological environment.
Project Value:Online monitoring of groundwater plays a vital role in many fields such as water resources management, environmental protection, and disaster warning. By monitoring groundwater level and water quality changes in real time, it can provide scientific decision-making basis for relevant departments to better manage and protect this valuable natural resource. Promote the rational development and utilization of water resources and improve the utilization efficiency of water resources. Online monitoring of groundwater can help us better understand the distribution and reserves of groundwater resources, so as to formulate more scientific and reasonable development plans to avoid over-exploitation and resource waste. Groundwater is closely related to surface water, soil and ecosystems. By monitoring changes in groundwater, environmental conditions can be better assessed and scientific basis for ecological restoration and environmental protection can be provided, thereby achieving harmonious coexistence between man and nature.
Project Background:During the peak precipitation season, water conservancy facilities such as rivers and reservoirs are facing huge challenges. It is necessary to improve the monitoring of river hydrological information and improve the automation and intelligence of water management. Real-time monitoring and evaluation of river water quality conditions can help promote water environment management and sustainable development.
Project Value:It plays a key role in water resources protection. Changes in water quality can be tracked and abnormalities, such as water pollution and water quality deterioration, can be discovered in a timely manner. Accurate data and real-time alerts help regulators take timely measures to reduce the risk of water pollution. In addition, it helps assess pollution sources and monitor the effects of treatment, and provides a basis for water environment management. The role of the river water quality online monitoring system is to monitor water quality, assist in water quality improvement, locate pollution sources, and improve water quality control efficiency. Real-time monitoring ensures water source safety, promotes scientific management and governance of water quality, and creates a clean and healthy water environment.
Project Background:Since my country's water source-related facilities were built in the last century, judging from the current application technology, there are serious flaws and deficiencies, low utilization rate, and low management efficiency. Based on this, it is imperative to build a water source monitoring system and realize digitalization of water management. Using FyhoneOS-Smart Water Source Management System, we can automatically monitor water quality conditions of water sources, remotely control gates/pumping stations, and collect energy consumption details of pumping stations online to effectively control the operation of various equipment in the water source area and improve the management efficiency of the water source area.
Project Value:Monitor water quality, assist in water quality improvement, locate pollution sources, improve water quality control efficiency, etc. Real-time monitoring ensures water source safety and promotes scientific management and governance of water quality. Real-time data from monitoring systems helps assess ecosystem health and biodiversity. Based on the monitoring results, decision makers can take corresponding measures to protect and restore affected ecosystems and create a clean and healthy water environment.
Project Background:In modern environmental monitoring, real-time and accurate monitoring of water environment quality is of great significance to environmental protection, water resources management, public health, etc. In recent years, with the development of science and technology, real-time monitoring of water environment quality has become an increasingly important research topic.
Project Value:The water quality online monitoring system consists of data collection, communication network, management cloud platform, etc. It uses a series of sensors and monitoring devices to convert the values of various indicators into electrical signals, which are then collected and transmitted by a data collector, and processed and analyzed through a management cloud platform to achieve real-time monitoring of physical, chemical, biological and other indicators in water. and form a water quality monitoring report. It can continuously monitor the pollution status of wastewater and other places 24 hours a day, laying a solid foundation for the next step of prevention and control work, thereby achieving the goal of ensuring water resources security.
