+86-13906688563
Company Profile

 

Ningbo Volyford Import & Export Co., Ltd. is an export-oriented company mainly engaged in production and sales, now focusing on water pumps, inverters, variable frequency pumps, permanent magnet variable frequency pumps, variable frequency fishery machinery, pump controllers, pressure transmitters, garden tools, sanitary ware, massage and fitness appliances, pet products, electronic components and other industries. The factory is located in Ningbo, China. Our factory has passed ISO9001 quality system certification, and many products have passed TUV,CE, ROHS, etc. Welcome new and old customers to contact us, thanks!

 
pWhy choose us?
 
01/

Expertise and experience
We have a team of professionals who have many years of experience and are experts in their respective fields.

02/

Quality products and services
We offer high-quality products and services that meet our clients' needs.

03/

Competitive pricing
We offer our products and services at affordable and competitive prices.

04/

Personalized service
We provide personalized services tailored to meet our clients' unique needs, ensuring a positive experience.

05/

Timely delivery
We understand the importance of meeting deadlines and ensure that our products and services are delivered on time.

06/

Excellent customer support
We have a friendly and knowledgeable customer support team that is available to answer any questions or concerns.

07/

Innovative solutions
We continually innovate and develop new solutions to meet our clients' changing needs.

08/

Trust and reliability
We have a proven track record of delivering high-quality products and services, building trust and reliability with our client base.

Water Cart Type Oxygenator

 

What is Waterwheel Type Variable Frequency Aerator?

A Waterwheel Type Variable Frequency Aerator is a type of aerator used in aquaculture for providing oxygen to the water. It consists of a waterwheel that rotates and creates a circulation of water, causing turbulence and mixing of the water to increase oxygenation. The variable frequency feature allows the aerator to adjust the speed of the waterwheel to suit the specific oxygen demands of the aquatic creatures. This type of aerator is efficient, cost-effective, and can be used in various aquaculture systems.

Benefits of Waterwheel Type Variable Frequency Aerator

 

 

1
productcate-1-1

Energy efficiency

A waterwheel-type variable frequency aerator is energy-efficient and can save up to 50% of electrical energy when compared to traditional aerators. The variable frequency technology ensures that energy is only used when required, reducing energy consumption.

2
productcate-1-1

High oxygen transfer rate

These aerators have a high oxygen transfer rate, allowing for efficient aeration and improving the dissolved oxygen level in the water. This is beneficial for aquatic life and can help during fish farming.

3
productcate-1-1

Easy maintenance

Waterwheel-type variable frequency aerators require minimal maintenance due to their simple design. The main components are easy to access and replace in case of any damage.

4
productcate-1-1

Effective mixing

These aerators provide effective mixing, which is essential for limiting stratification and maintaining a uniform water temperature throughout the water body.

5
productcate-1-1

Noiseless operations

Waterwheel-type variable frequency aerators generate minimal noise during operations, making them suitable for use in residential areas.

6
productcate-1-1

Cost-effective

The energy-efficient and low maintenance design of these aerators helps reduce the cost of running and maintaining an aquaculture pond or wastewater treatment plant.

7
productcate-1-1

Environment-friendly

As these aerators consume less energy, they also reduce the carbon footprint. Additionally, the efficient aeration process supports the growth of natural bacterial population in water bodies, thus promoting a healthy and sustainable aquatic environment

8
productcate-1-1

Easy installation

These aerators are easy to install and can be customized as per the specific requirements of the application, making them suitable for use in various industries.

Impeller Type Oxygenator

Types of Waterwheel Type Variable Frequency Aerator

 

 

Horizontal waterwheel aerator

This type of aerator is designed to rotate horizontally through the water, creating a large wake and high oxygen transfer efficiency.

Vertical waterwheel aerator

This type of aerator is similar to the horizontal waterwheel aerator, but rotates vertically. It is used in applications where the depth of the water is shallow.

Self-propelled waterwheel aerator

This type of aerator is designed to move around the water body on its own, using a motor or solar-powered mechanism. It is used in larger ponds and lakes where a fixed aerator would not cover the entire area.

Submerged waterwheel aerator

This type of aerator is submerged in the water, and uses a dual-disk design to create a strong water flow that can aerate water at a greater depth.

Modular waterwheel aerator

This type of aerator is composed of multiple units that can be connected within a single system, allowing for more precise placement and coverage of larger water bodies.

Application of Waterwheel Type Variable Frequency Aerator
Impeller Type Variable Frequency Aerator
Submersible Sewage Pump
Waterwheel Type Variable Frequency Aerator
Vertical Water Pump

Waterwheel type variable frequency aerators are commonly used in aquaculture to provide oxygen to the water, improving fish health and promoting growth. These aerators can also be used in wastewater treatment plants to improve the quality of the effluent.
In aquaculture, waterwheel type variable frequency aerators can be used in different water bodies such as fish ponds, shrimp ponds and crab ponds. The aerators can be powered by electricity or by using paddle wheels turned by the wind or a water current. The variable frequency control system allows for precise control of the speed of the aerator, allowing for optimal oxygen transfer to the water according to the specific needs of the aquatic animals. This helps to prevent oxygen depletion in the water, which can harm fish and other aquatic organisms.
In wastewater treatment plants, waterwheel type variable frequency aerators can be used to improve the quality of the effluent by adding dissolved oxygen to the wastewater. The aerators help to break down organic matter in the wastewater and increase the efficiency of other biological and chemical treatment processes. The variable frequency control system allows for precise control of the oxygen transfer rate, helping to optimize wastewater treatment performance.
Overall, waterwheel type variable frequency aerators are a versatile and efficient tool for improving oxygen levels in water bodies, whether in aquaculture or wastewater treatment applications.

Components of Waterwheel Type Variable Frequency Aerator

 

Water wheel

It is the main component of the aerator which is driven by the power of the water flow and converts it into mechanical energy.

Motor

The motor is used to control the rotation speed of the water wheel and to increase the efficiency of the aerator. It is also used to control the frequency of the electrical power supply.

Inlet and outlet pipes

These pipes are used to allow water in and out of the aerator. The inlet pipe is connected to the source of water, and the outlet pipe is used to discharge the treated water.

Gearbox

The gearbox is used to transmit the mechanical energy produced by the water wheel to the motor.

Control panel

The control panel is used to operate the aerator, adjust the speed of the motor and monitor the power supply.

Impeller

The impeller is used to agitate the water inside the tank, to mix the air and water and to increase the oxygen transfer rate.

Drive shaft

The drive shaft is connected to the water wheel and is used to transmit the motion of the water wheel to the impeller.

Bearings

Bearings are used to support the water wheel, drive shaft and impeller. They also minimize friction, reduce wear and prolong the life of the aerator.

Frame and support structure

The frame and support structure are used to support the components of the aerator and to ensure that they are stable and secure.

How to Maintain Waterwheel Type Variable Frequency Aerator?

 

 

Regular Cleaning
Regular cleaning of the waterwheel type variable frequency aerator is essential to ensure optimal performance. Clean the impellers, housing, and diffusers periodically to remove any dirt or debris that may have accumulated.

 

Lubrication
The bearings of the aerator should be lubricated periodically to ensure smooth functioning. Use high-quality lubricant to ensure the long life of the bearings.

 

Motor Maintenance
Regular maintenance of the motor is essential to ensure optimal performance. Keep the motor clean and free of dirt and debris. Check for any loose connections and tighten them if necessary.

 

Check for Leaks
Check for any leaks in the system. Leaks can cause a decrease in the efficiency of the aerator and can also cause damage to the motor and other parts of the system. If any leaks are detected, fix them immediately.

 

Check for Damage
Periodically check for any damage to the impellers, housing, and diffusers. If any damage is detected, replace the damaged part immediately to ensure optimal performance.

 

Check Electrical Connections
Check the electrical connections periodically to ensure they are tight and secure. Loose connections can cause damage to the motor and decrease efficiency.

 

Follow Manufacturer’s Recommendations
Follow the manufacturer’s recommendations for maintenance of the waterwheel type variable frequency aerator. This will ensure the optimal performance of the system and prevent any potential damage or hazards.

 

Impeller Type Oxygenator

 

Process of Waterwheel Type Variable Frequency Aerator

The manufacturing process of Waterwheel Type Variable Frequency Aerator begins with the design of the product. The design is made by engineers who use computer-aided design software to create a 3D model of the product. Once the design is finalized, the manufacturing process starts.
The first step is the preparation of raw materials. The materials used are high-quality steel, aluminum alloy, and plastic. These materials are carefully selected based on their strength and durability.
After the materials are prepared, the metal parts of the Waterwheel Type Variable Frequency Aerator are cut and shaped according to the design. This is done using special machines, such as CNC machines and laser cutters, that ensure high precision and accuracy.
Next, the metal parts are welded together to form the main structure of the Aerator. The welding is done using advanced welding techniques, such as TIG and MIG welding, to ensure a strong and durable bond.
Once the main structure is complete, the plastic parts are added. These parts include the Waterwheel and the cover, which are made using injection molding. The plastic parts are carefully molded to ensure they fit perfectly with the metal structure.
After the plastic parts are added, the motor and electrical components are installed. This includes the variable frequency drive, which controls the speed of the Waterwheel. All the electrical connections are carefully wired to ensure proper functioning of the Aerator.
Finally, the finished Waterwheel Type Variable Frequency Aerator is tested to ensure it meets the high-quality standards. It is tested for its performance, efficiency, and durability. Once the test is complete, the Aerator is packed and shipped to the customer.
The manufacture of Waterwheel Type Variable Frequency Aerator involves various processes, including designing, cutting, welding, molding, and testing. Each of these processes requires skilled technicians, advanced machines, and high-quality materials to ensure the production of a top-quality Aerator.

How to Choose Waterwheel Type Variable Frequency Aerator
 

Determine the water volume

The amount of water in your fishpond or wastewater treatment facility should be measured to determine the type of waterwheel you need. A smaller pond may require a smaller VFA, while larger ponds will require more powerful waterwheels to achieve good circulatory currents and oxygen levels.

Consider the power source

VFA waterwheels can be powered by electricity or by solar panels, wind turbines, or water turbines. It is important to evaluate the availability and reliability of the power source to sustain the continuous operation of the VFA.

Check the motor size

The motor size of the VFA should be proportional to the waterwheel size and the required power output. The motor's horsepower (HP) will affect the speed and rotation of the VFA blades, which in turn affects the water flow and oxygenation performance.

Look for a user-friendly control system

An intuitive control system will help operators adjust the frequency and speed of the VFA according to the changing environmental conditions. A control system that can monitor and optimize the oxygen and CO2 levels can maximize fish health and growth.

Choose a durable VFA

The VFA will be exposed to harsh aquatic environments, so it is important to select a manufacturer with a reputation for using high-quality materials and construction techniques. A durable VFA can last longer, require less maintenance, and prove to be more cost-effective in the long run.

Seek advice from expert

Consult with experienced fish farmers, wastewater professionals, or technical experts to help choose the best waterwheel type VFA for your specific needs. They can provide valuable insights, best practices, and referrals to reputable suppliers.

How the Waterwheel Type Variable Frequency Aerator Works

The waterwheel type variable frequency aerator is an innovative tool used in aquaculture to improve water quality and oxygen levels. This aerator works by using a high-speed motor that rotates a waterwheel, which in turn creates a water flow that introduces more oxygen into the water. This process increases the dissolved oxygen level in the water and helps to maintain healthy aquatic life.
The waterwheel type variable frequency aerator is designed to be energy-efficient, allowing it to operate for extended periods with minimal power consumption. The speed of the waterwheel can be adjusted to control the flow rate of water and the amount of oxygen introduced into the water. This feature allows users to fine-tune the aeration process to meet the specific needs of their aquaculture operation.
The waterwheel type variable frequency aerator typically uses a durable stainless steel housing that is resistant to corrosion and can withstand harsh aquatic environments. The aerator is easy to install and maintain, and it can be used in a variety of aquaculture settings, including small ponds, large lakes, and fish farms.
One of the primary benefits of using the waterwheel type variable frequency aerator is that it can help to prevent water quality problems and improve overall aquatic health. By providing a continuous flow of oxygen, the aerator can help to prevent fish kills and other issues that can arise from low oxygen levels. Additionally, the aerator can help to reduce the need for chemical treatments and other interventions that can be harmful to fish and other aquatic life.
The waterwheel type variable frequency aerator is an effective and practical tool for improving the oxygen levels and overall water quality in aquaculture settings. With its energy-efficient design and adjustable speed settings, this innovative aerator provides a reliable and cost-effective solution for maintaining healthy aquatic environments.

FAQ

Q: What is the purpose of the aerator?

A: Aerators screw into kitchen and bathroom faucets. Holes in the screens add air to the water as it streams out of the faucet. Faucet aerators are screens at the end of a faucet. The devices reduce the amount of water that comes out of a faucet and control the stream.

Q: What is the purpose of aeration?

A: Aeration provides oxygen to bacteria for treating and stabilizing the wastewater. Oxygen is needed by the bacteria to allow biodegradation to occur. The supplied oxygen is utilised by bacteria in the wastewater to break down the organic matter containing carbon to form carbon dioxide and water.

Q: What are the advantages of aeration in aquaculture?

A: Aerators help to mix pond water which can reduce thermal stratification and improve other water chemistry factors, most notably DO content.

Q: Does aeration improve water quality?

A: Most commonly, the primary benefits of aeration installations include water quality improvements in dissolved oxygen content, ammonium concentration, pH, and trace metal concentrations (iron and manganese). There are some cases in which aeration can lower phosphorus concentrations.

Q: Does aeration purify water?

A: Aeration is an in-line point-of-entry process that reduces the concentration of volatile organic compounds. Aeration also removes dissolved gases such as hydrogen sulfide, methane, and radon. Aeration oxidizes dissolved iron, although the resulting iron particles can foul the packing material in some aeration devices.

Q: Are aerators worth it?

A: It depends: if you have a sandy soil which allows water percolation and doesn't compact, then no, you probably will never need to aerate. If you have a heavy clay soil, then aeration is of huge benefit. It allows water and nutrients to move through the soil more readily, it alleviates compaction, all positive stuff.

Q: How long do aerators last?

A: Depending on the environment, usage, and maintenance, a pond or lake aeration system should last over 10 years. Of course, sometimes there are outside forces that may shorten its life, like power surges and lightning strikes or flooding. But the average lifespan has been seen to be 9-13 years.

Q: Can aerator increase water pressure?

A: Several factors can affect the pressure of your water. To increase water pressure, you can do the following: Inspect and clean the aerator: The aerator is the small screen at the end of each faucet that mixes air and water, which helps regulate water pressure.

Q: What pollutants get removed in an aerator?

A: Aeration brings water and air in close contact in order to remove dissolved gases (such as carbon dioxide) and oxidizes dissolved metals such as iron, hydrogen sulfide, and volatile organic chemicals (VOCs).

Q: How do I know if my aerator is working?

A: The surest sign your aerator has failed is an overwhelming unpleasant odor coming from where your system discharges, whether into a secondary treatment system or directly into the environment.

Q: Does aerator produce oxygen?

A: Aerators. Water is pumped to the surface and mixed with air by propeller blades. These aerators can supply 2.1-3.1 lb O2/hp-hr.

Q: What is a waterwheel type variable frequency aerator?

A: A waterwheel type variable frequency aerator is a machine that uses an electric motor to turn a wheel or rotor that pushes water through a series of blades, creating aeration and mixing in a water body such as a pond or lake. The frequency of the motor can be adjusted to control the speed of the rotor and the level of aeration.

Q: How does a waterwheel type variable frequency aerator work?

A: A waterwheel type variable frequency aerator works by creating a flow of water that moves through the blades of the rotor, causing turbulence and mixing the water. This mixing increases the amount of oxygen in the water, which is essential for fish and other aquatic life to thrive.

Q: What are the benefits of using a waterwheel type variable frequency aerator?

A: The benefits of using a waterwheel type variable frequency aerator include improving the water quality in a pond or lake, increasing the amount of oxygen available for aquatic life, reducing the level of nutrients that can contribute to algae growth, and improving the overall health of the ecosystem.

Q: What are the advantages of using a Waterwheel Type Variable Frequency Aerator?

A: The advantages of using a Waterwheel Type Variable Frequency Aerator include improved water quality in the pond, increased fish growth and improved fish health, and higher levels of dissolved oxygen in the water.

Q: Can a Waterwheel Type Variable Frequency Aerator be used in all types of pond?

A: Yes, a Waterwheel Type Variable Frequency Aerator can be used in all types of ponds, including fish ponds, shrimp ponds, and all other kinds of aquaculture ponds.

Q: What is the maintenance required for a Waterwheel Type Variable Frequency Aerator?

A: The maintenance required for a Waterwheel Type Variable Frequency Aerator is very minimal. However, regular cleaning of the waterwheel is recommended to prevent clogging and blockages that can affect its performance.

Q: What size of water body is suitable for a waterwheel type variable frequency aerator?

A: Waterwheel type variable frequency aerators are suitable for ponds and lakes of all sizes, from small backyard koi ponds to large commercial fish farms and recreational lakes.

Q: Is a waterwheel type variable frequency aerator easy to install?

A: Installing a waterwheel type variable frequency aerator can be relatively simple, especially if you have experience with electrical and mechanical systems. However, it is important to read the manufacturer's instructions carefully and follow all safety precautions to avoid injury or damage to the machine.

Q: Can a waterwheel type variable frequency aerator be used year-round?

A: Yes, a waterwheel type variable frequency aerator can be used year-round in most climates. In colder climates, it may be necessary to remove the machine during the winter months to prevent damage from ice.

As one of the most professional fishery machinery manufacturers and suppliers in China, we're featured by cheap products and good service. Please rest assured to wholesale custom made fishery machinery at competitive price from our factory.

Fishery Machinery, Inverter Deep Well Pump, Waterwheel Type Variable Frequency Aerator

(0/10)

clearall