Place of Origin:
China
Brand Name:
RPS-SONIC
Certification:
CE
Model Number:
RPS-WH-100
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Ultrasonic thin film solar cell spray coating machine
What is the ultrasonic spray nozzle?
Ultrasonic thin film solar cell spray coating is an innovative technique used to apply thin layers of photovoltaic materials onto substrates. This method leverages ultrasonic technology to create fine droplets of coating material, which are then sprayed onto surfaces to form a uniform film. Here’s an overview of the process and its advantages:
Overview of Ultrasonic Thin Film Spray Coating
Ultrasonic Atomization:
Ultrasonic spray coating utilizes high-frequency ultrasonic waves to atomize a liquid solution containing the photovoltaic material. This process results in the formation of tiny droplets.
Coating Process:
The atomized droplets are directed onto a substrate, which can be flexible or rigid. The substrate is often pre-treated to enhance adhesion and ensure uniform coverage.
Material Application:
Common materials used in this process include organic photovoltaics, perovskite materials, and other semiconductor compounds. The choice of material impacts the efficiency and properties of the solar cells.
Drying and Curing:
After application, the coated film is dried and cured, which may involve heating or exposure to UV light, depending on the material used.
What is the parameter of the spray nozzle?
Item | Wide type | Diffuse type | Bunching type | long nozzle | External fluid supply |
Diameter of atomized particle | 15-40 | 15-41 | 15-42 | 15-20 | 15-20 |
Spray width (um) | 40-120 | 40-80 | 2-20 | 1-3 | 0.5-2 |
spray height (um) | 50-150 | 30-80 | 10-30 | 10-20 | 10-20 |
Flow (ml/min) | 0.5-20 | 0.5-20 | 0.5-10 | 0.5-10 | 0.01-1 |
Suitable viscossity (cps) | <30 | <30 | <30 | <15 | <15 |
Particle size in liquid (um) | <20 | <15 | <10 | <8 | <8 |
Diversion pressure (mpa) | <0.05 | <0.05 | <0.05 | / | / |
Do you have the spray nozzle pictures?
Advantages
Uniform Coating: The ultrasonic process allows for even distribution of the coating material, reducing defects and improving efficiency.
Scalability: This method can be scaled for mass production, making it suitable for large-scale manufacturing.
Flexibility: The technique can be adapted for various substrates, including flexible materials, which is crucial for innovative solar applications.
Material Efficiency: Minimal waste of coating material due to precise droplet formation.
Applications
Flexible Solar Panels: Useful for applications where traditional rigid panels are not feasible.
Building-Integrated Photovoltaics (BIPV): Can be applied to building materials, integrating solar technology into architecture.
Wearable Technology: Potential for lightweight solar cells in portable and wearable devices.
Challenges
Material Compatibility: Ensuring that the sprayed materials adhere well to different substrate types.
Process Optimization: Fine-tuning parameters like droplet size and spray distance for optimal performance.
Long-term Stability: Addressing the durability and lifespan of the coated films under varying environmental conditions.
How do ultrasonic spray nozzles compare to traditional spray nozzles in terms of efficiency?
Ultrasonic spray nozzles offer several advantages over traditional spray nozzles in terms of efficiency. Here are some key points of comparison:
Atomization Efficiency: Ultrasonic spray nozzles are highly efficient in atomizing liquids into fine droplets.
Reduced Overspray: Traditional spray nozzles often generate a significant amount of overspray, which refers to the loss of liquid that doesn't reach the intended target.
Coating Quality: Ultrasonic spray nozzles are particularly advantageous in applications where a high-quality coating is required.
Material Savings: Due to their efficient atomization and reduced overspray, ultrasonic spray nozzles can help save on material costs.
Versatility: Ultrasonic spray nozzles can handle a wide range of liquids, including water-based solutions, solvents, suspensions, and viscous fluids.
It's worth noting that traditional spray nozzles have their own advantages in certain scenarios, such as high-flow applications or situations where larger droplets are desired. The choice between ultrasonic spray nozzles and traditional spray nozzles depends on the specific requirements of the application and the desired outcome in terms of efficiency, coating quality, and material savings.
Can you provide examples of industries or applications where ultrasonic spray nozzles are commonly used?
Ultrasonic spraying system
The ultrasonic spraying equipment has self-cleaning, which can avoid pollution of the inner wall of the blood collection tube during the spraying process, and can also avoid the contamination of its own nozzle, and can be sprayed and used in cycles. The ultrasonic spraying system can program the number, distance, thickness and other parameters of spraying, so as to ensure the accuracy of the spraying effect. Ultrasonic spraying equipment can save raw materials, and the utilization rate of raw materials is as high as 85%. Industrial ultrasonic atomizers can be easily retrofitted into existing production lines for efficient spraying with consistent quality output.
As an industrially proven technology, ultrasonic spraying has been successfully applied to high-performance thin film coating lines in the manufacturing of precision electronics such as semiconductors, precision devices, nanotechnology applications, fuel cells and solar cells. During ultrasonic spraying, the size and distribution of droplets can be precisely controlled, resulting in particles with a high surface area.
Can you provide the working video of the spray nozzle?
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