Y616-B Online Oil in Water detector Sensor
Yosemitech Y616-B Online Oil in Water Sensor adopts the principle of ultraviolet fluorescence method, which is more efficient, quick and repeatable than other methods, and can be monitored online in real-time. The digital oil in water detector analyzer provides better repeatability and stability to detect dissolved and emulsifying oils. The oil in water detector is made of titanium alloy and can measure seawater and high salt content samples with low maintenance.
Features
Digital sensor, RS485 output, standard MODBUS protocol
Online oil-in-water analyzer using ultraviolet fluorescence method with high sensitivity
No reagents required, strong anti-interference, no need for frequent calibration
Made of titanium alloy, measuring seawater and high-salinity samples with low maintenance
Built-in calibration parameters for easy on-site use and secondary calibration
Specification
Model | Y616-B |
Measurement principle | Ultraviolet fluorescence method |
Range | 0-50ppm(optional 0-150ppm) |
Linearity | R²>0.999 |
Resolution | 0.01ppm |
Temperature range | 0-50℃ |
Maximum pressure | 6bar |
IP range | IP68 |
Sensor interface | Supports RS-485, MODBUS protocol |
Power | 0.2W(Suggested power supply:DC 9-24V,current>50mA) |
Sensor size | Φ22mm*175.5mm |
Cable length | 10m (default), customizable |
Calibration | Zero-point,one-point or two-points calibration |
Body material | Titanium alloy |
Applications
Oil Field Monitoring: Ensures oil contamination in water used or produced in oil extraction processes is detected and managed.
Industrial Circulating Water Systems: Monitors oil levels in water used in industrial processes, keeping it within safe limits.
Condensate Water Systems: Detects oil in water condensed from steam in power plants and other industrial facilities.
Wastewater Treatment Facilities: Ensures treated water meets regulatory standards for oil content before discharge or reuse.
Surface Water Monitoring Stations: Monitors natural bodies of water for oil contamination, crucial for environmental protection.
FAQs
Why is Oil Detection Important in Various Industries?
1. Environmental Protection:
Oil spills are a pressing concern, with just one ton capable of spreading across roughly 10,000 square meters. Such spills can severely harm aquatic ecosystems and contaminate drinking water sources. Industries need reliable oil detection methods to avert these ecological disasters, ensuring clean waterways and aquifers.
2. Industrial Safety and Compliance:
In many industrial settings, oils and hydrocarbons are integral to products like fuels, solvents, and processing chemicals. During production, spills or leaks can occur, potentially leading to hazardous conditions and regulatory breaches. Early detection helps industries promptly address these issues, maintaining a safe working environment and compliance with environmental standards.
3. Diverse Applications and Solutions:
Industries ranging from airports to power plants require precise oil monitoring solutions. For instance, monitoring equipment is essential for detecting oil slicks in surface water, like those found in airport runoff or boiler condensate. This technology also guards drinking water inlets against contamination.
4. Preventing Domestic and Agricultural Spills:
Beyond large-scale industrial applications, domestic and agricultural sectors also face risks of fuel storage leaks. These accidental spills can seep into water systems, necessitating vigilant monitoring to protect both human health and wildlife.
Methods for Detecting Oil in Water
Detecting oil in water is a crucial task for environmental monitoring and industrial processes. There are several techniques used to achieve accurate measurements:
1. Suspension Method: This method is effective when the particle diameter is less than or equal to the wavelength of light used (D/λ ≤ 1). It involves analyzing how suspended particles scatter light, enabling the detection of oil droplets.
2. Infrared Spectrophotometry: This approach measures the absorption of infrared light by oil molecules. While it is a reliable method, it's not ideal for detecting low concentrations of oil due to its sensitivity thresholds.
3. Ultraviolet Spectrophotometry: Utilizing UV light to detect oil compounds, this method is particularly suitable for environments with moderate levels of oil contamination. However, it struggles with high concentration levels, limiting its application in such scenarios.
Each technique offers unique advantages and limitations, making it essential to choose the right method based on the specific range and conditions of the water sample being analyzed.
