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Air velocity sensor

I have found results from10000+products and4000+suppliers aboutAir velocity sensor

Commonly Used:
US$
Customization Available
Sample Available
Manufacturer First
Product Attributes:
Resonant Pressure Sensor
Micro - Differential Pressure Transmitter
Wall-Mounted Current Type
Laser Gas Analyzer
Component: SemiConductor Type
Strain Gauge Pressure Transmitter
Output Signal Type: Digital Type
Production Process: Normal Wirewound
Material: Metal
Thread Type: ZG
Wiring Type: Two-Wire
Measuring Medium: Liquid
IP Rating: IP56
Customized: Customized
Application: Anemometer
Display: Digital
Detection Method: Non-contact
Connection Type: Wire
With Pressure Resistance
Anti-jamming: Anti-jamming
Shakeproof: Shakeproof
Noctilucence: With Noctilucence
Waterproof: Waterproof
Function Type: Mixing System
Detection Type: Heat Detectors
Certification: RoHS
Installation Type: Duct Type
Sensing Type: Resistive
Contact: Contact
Max Diameter of Workpiece: >3200mm
Mass Scope of Workpiece: >20000kg
Maxcapacity: <1000KN
Accuracy Grade: 0.5
Load Way: Electronic Load
Loading Method: Dynamic Load
Control: Computer Control
Weight: 100-500Kg
Power Source: AC110V
Oil Cylinder Position: Under
Feature: Analog
Display Type: LCD
Site Display: Site Display
Accuracy: 1.0
Portable: Portable
Production Process: SemiConductor Integrated
Production Process: Integration
Measuring Medium: Humidity
Measuring Medium: Gas
IP Rating: IP20
IP Rating: IP65
IP Rating: IP55
IP Rating: IP22
Customized: Non-Customized
Application: Vehicle
Application: Ultrasonic Speed
Display: Needle
Detection Method: Contact
Connection Type: Wireless
Infrared Range and Communication System
Thermal Imaging System
Search and Tracking System
Function Type: Radiometer
Certification: CE
Certification: FCC
Accuracy Grade: 0.5G
Weight: >100g

Sourcing guidance for Air Velocity Sensor

How to choose the right Air Velocity Sensor for industrial applications?

Selecting an air velocity sensor requires matching the measurement technology to your specific environment. For cleanrooms and HVAC, Thermal (Hot-wire) Anemometers are ideal due to their high sensitivity to low-speed flows. For harsh industrial exhausts or high-temperature environments, Pitot Tubes or Differential Pressure Sensors are preferred as they lack moving parts and resist contamination. Always verify the measurement range (m/s) and accuracy tolerance (typically ±2-5%) to ensure it meets your process requirements.

What are the key technical specifications and compliance standards for these sensors?

Buyers must prioritize sensors with industrial-grade output signals such as 4-20mA, 0-10V, or RS485 (Modbus RTU) for seamless PLC integration. Ensure the device carries CE and RoHS certification for international market entry. For hazardous environments (e.g., chemical plants), look for ATEX or IECEx explosion-proof ratings. Additionally, check the Ingress Protection (IP) rating, where IP65 or higher is recommended for dusty or humid conditions.

How can I ensure the long-term reliability and accuracy of the sensors?

Accuracy is maintained through temperature compensation technology, which prevents readings from drifting as air temperature fluctuates. Request a Calibration Certificate (traceable to NIST or equivalent) from the supplier before shipping. For high-dust environments, choose sensors with self-cleaning designs or protective filters. It is also critical to evaluate the response time; for safety-critical ventilation, a response time of <1 second is often necessary.

What are the common usage scenarios for Air Velocity Sensors in B2B procurement?

These sensors are essential in HVAC system monitoring, Cleanroom environmental control, Laboratory fume hood safety, and Data center cooling optimization. They are also widely used in Wind power generation and Automotive wind tunnel testing. Understanding the specific medium (e.g., dry air, flue gas, or corrosive vapors) is vital for selecting the correct probe material, such as 316L Stainless Steel or Teflon coating.

Cross-Border Procurement Considerations for Air Velocity Sensors

What are the primary risks when sourcing high-precision sensors internationally?

The biggest risks include calibration drift during transit and technical incompatibility. To mitigate this, use Made-in-China.com's Secured Trading services to ensure payment is only released after quality verification. Always request a pre-shipment inspection (PSI) to verify that the sensors are calibrated and packed in anti-static, shock-absorbent packaging to prevent damage to delicate sensing elements.

How should I negotiate with suppliers to get the best value?

Focus on the Total Cost of Ownership (TCO) rather than just the unit price. Negotiate for extended warranties (24 months instead of 12) and ask for volume-based discounts (typically 10-20% for orders over 100 units). Inquire if the supplier can provide OEM/White-labeling services if you are a distributor, and request free technical support/remote commissioning as part of the purchase agreement.

What logistics and customs precautions should be taken for electronic sensors?

Ensure the supplier provides the correct HS Code (typically 9026.80) to avoid customs delays or incorrect duty applications. Since these are precision instruments, choose Air Freight (DHL/FedEx/UPS) over sea freight to minimize exposure to humidity and prolonged vibration. Ensure all battery-operated handheld models comply with UN38.3 lithium battery shipping regulations to prevent shipment rejection at the airport.

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