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| Model | Specification | Nominal diameter(mm) | Start-up Flow(m³/h) | Flow Range (m³/h) |
Nominal Pressure(MPa) | Housing Material | Accuracy Class |
| SWG-25 | G16 | 25 | ≤0.8 | 2-20 | 1.6 2.5 4.0 |
Aluminum Alloy / Stainless Steel | Class 1.0 Class 1.5 |
| G25 | ≤1.3 | 5-50 | |||||
| SWG-40 | G25 | 40 | ≤1.1 | 4-50 | |||
| G40 | ≤1.5 | 6-65 | |||||
| SWG-50 | G40 | 50 | ≤1.5 | 6-65 | |||
| G65 | ≤2.0 | 6-100 | |||||
| G100 | ≤3.0 | 8-160 | |||||
| SWG-80 | G100 | 80 | ≤3.5 | 8-160 | |||
| G160 | ≤5.0 | 13-250 | |||||
| G250 | ≤6.0 | 20-400 | |||||
| SWG-100 | G160 | 100 | ≤5.0 | 13-250 | |||
| G250 | ≤9.0 | 20-400 | |||||
| G400 | ≤15.0 | 32-650 |
| Model | Specification | Nominal diameter(mm) | Start-up Flow(m³/h) | Flow Range (m³/h) |
Nominal Pressure(MPa) | Housing Material | Accuracy Class |
| SWG-150 | G400 | 150 | ≤10.0 | 32-650 | 1.6 2.5 4.0 |
Aluminum Alloy / Stainless Steel |
Class 1.0 Class 1.5 |
| G650 | ≤14.0 | 50-1000 | |||||
| G1000 | ≤16.0 | 80-1600 | |||||
| SWG-200 | G650 | 200 | ≤14.0 | 50-1000 | 1.6 2.5 |
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| G1000 | ≤20.0 | 80-1600 | |||||
| G1600 | ≤25.0 | 125-2500 | |||||
| SWG-250 | G1000 | 250 | ≤20.0 | 80-1600 | 1.6 |
Stainless Steel |
|
| G1600 | ≤28.0 | 125-2500 | |||||
| G2500 | ≤35.0 | 200-4000 | |||||
| SWG-300 | G1600 | 300 | ≤30.0 | 125-2500 | |||
| G2500 | ≤40.0 | 200-4000 | |||||
| G4000 | ≤50.0 | 325-6500 | |||||
| SWG-400 | G6500 | 400 | ≤80.0 | 500-10000 |
Gas flows into the flowmeter, where it is conditioned by the flow straightener and accelerated. This accelerated flow drives the turbine impeller to rotate, with the rotational speed being proportional to the flow rate. As the impeller rotates, the magnetic sensor synchronously generates pulse signals. The electronic head performs real-time compensated measurement by integrating these pulse signals with temperature and pressure data, achieving integrated synchronous metering.
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