The HY-LWQ turbine type hydrogen flowmeter (24V power supply, 4-20mA output) is a new generation of high-precision and high reliability gas precision measuring instrument that has been independently developed and optimized based on advanced flow instrument technologies at home and abroad, integrating theories of gas mechanics, fluid mechanics, electromagnetics, etc. It has excellent low-pressure and high-pressure measurement performance, multiple signal output modes, and low sensitivity to fluid disturbances

The HY-LWQ series turbine type hydrogen flowmeter is a new generation of high-precision and highly reliable gas precision measuring instrument that integrates temperature, pressure, flow sensors, and intelligent flow integrators. It has absorbed advanced flow instrument technology from both domestic and foreign sources, optimized design, and integrated theories of gas mechanics, fluid mechanics, electromagnetics, etc. It has excellent low-pressure and high-pressure measuring performance, multiple signal output modes, and low sensitivity to fluid disturbances

This product has been inspected and approved by the national explosion-proof product quality inspection department in accordance with the standards of GB3836.2000 "Electrical Equipment for Explosive Gas Environments Part 1: General Requirements", GB3836.2-2000 "Electrical Equipment for Explosive Gas Environments Part 2: Explosion proof Type" d "", and GB3836.4-2000 "Electrical Equipment for Explosive Gas Environments Part 4: Intrinsic Safety Type" i ". The explosion-proof marks are Exd Ⅱ BT6 (Explosion proof Type) and Exia Ⅱ CT6 (Honan Type). Applicable to Zone 1 and Zone 2 hazardous areas containing explosive gas mixtures of Class IIA, IIB, and IIC temperature groups T1 to T6 (only intrinsic safety type).

When the fluid flows into the flowmeter, it is rectified and accelerated by the specialized integrated rectifier at the inlet. Due to the angle between the turbine blades and the fluid flow direction, the turbine generates a rotational torque. After overcoming the friction torque and fluid resistance torque, the turbine begins to rotate. Within a certain flow range, the angular velocity of turbine rotation is proportional to the fluid volume flow rate. According to the principle of electromagnetic induction, a magnetic sensor is used to sense a pulse signal proportional to the volume flow rate of the fluid from a coaxial rotating signal wheel. After amplification, filtering, and shaping, the signal, along with temperature and pressure sensor signals, enters the micro processing unit of the intelligent flow integrator for calculation and processing, and directly displays the volume flow rate and total amount of gas on the LCD screen.

1. High quality alloy turbine with higher flow stability and corrosion resistance;

2. Imported high-quality specialized bearings with long service life;

3. The isolation between the measuring room and the ventilation room ensures the safety of the instruments;

4. It can detect the temperature, pressure, and flow rate of the tested gas, automatically track and compensate for the flow rate, and display the accumulated gas volume under standard conditions (Pb=101.325KPa, Tb=293.15K). It can also query the temperature and pressure values in real time;

5. Wide flow range (Qmax/Qmin ≥ 20:1), good repeatability, high accuracy (up to 1.0 level), low pressure loss, low starting flow rate, up to 0.6m3/h;

6. Intelligent instrument coefficient multi-point nonlinear correction;

7. Built in pressure and temperature sensors, high safety performance, compact structure, and beautiful appearance;

8. The instrument has explosion-proof and protective functions, with explosion-proof markings of Exd Ⅱ BT6 and Exia Ⅱ CT6, and a protection level of IP65;

9. The system operates with low power consumption, and a 3.2V10AH lithium battery can be used continuously for more than 3 years;

10. The instrument coefficient and cumulative flow value will not be lost for ten years after power failure.