Wobo Industrial Equipment Co., Ltd.
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Product Overview
The Ultrasonic Gas Flow Meter is designed for high-corrosion, high-humidity environments, such as biogas applications. It uses an innovative bypass ultrasonic measurement technology to address common issues in traditional ultrasonic flow meters, including sensor corrosion, condensation, and CO₂ interference. By guiding a portion of the gas through a bypass pipeline for measurement, this design improves signal quality, reduces interference, and ensures high-precision flow measurement in large-diameter pipes and harsh conditions.
Working Principle
The meter employs a bypass ultrasonic measurement method, directing gas through a bypass line where an ultrasonic sensor measures flow velocity. The system automatically compensates for signal attenuation caused by CO₂ concentration, moisture, and temperature variations. The bypass design ensures uniform flow, directs condensate away from the sensor, and minimizes interference. Its corrosion-resistant construction reduces direct contact with corrosive gases, extending sensor lifespan and allowing maintenance without production interruption.
Key Features
- Enhanced Signal Quality: Bypass pipeline reduces CO₂ interference and improves measurement accuracy, ideal for large-diameter applications.
- Minimized Flow Disturbance: Optimized bypass design ensures uniform flow distribution and reduces measurement error caused by turbulence.
- Condensate Management: Guides condensation out of the measurement path, protecting the ultrasonic sensor.
- Superior Corrosion Resistance: Limits direct exposure to H₂S and other corrosive gases, extending sensor and pipeline life.
- Simplified Maintenance & Lower Costs: Measurement components are separated from the main pipeline, enabling repairs without stopping production.
- High Stability: Maintains reliable operation in high-humidity, high-corrosion biogas environments, ensuring long-term data accuracy.
Applications
- Biogas Projects: Accurate flow measurement in biogas plants and digesters under high humidity and corrosive conditions.
- Natural Gas Networks: Suitable for flow monitoring in pipelines, especially in challenging environmental conditions.
- Environmental Monitoring & Energy Management: Provides precise data for gas resource metering and energy efficiency monitoring.
- Agricultural & Industrial Fermentation: Measures flow in processes with corrosive and moisture-laden gases.
| Parameter | Unit | DN32 | DN50 | DN80 | DN100 | DN125 | DN150 | DN200 | DN250 | DN300 |
| Nominal Diameter | - | DN32 | DN50 | DN80 | DN100 | DN125 | DN150 | DN200 | DN250 | DN300 |
| Measurement Range | m³/h | 3-65 | 8-160 | 12-240 | 20-400 | 30-600 | 40-800 | 80-1600 | 120-2400 | 160-3200 |
| Connection Type | - | Raised face flange | ||||||||
| Working Pressure | kPa | 0-200 | ||||||||
| Accuracy Class | - | 1.5 | ||||||||
| Operating Temperature | °C | -50 | ||||||||
| Ambient Humidity | % | ≤99 | ||||||||
| CH₄ Measurement | - | Range: 30-100%; Indication error: ±5% F.S. | ||||||||
| Power Supply | - | Dual battery; 5-year operation; GPRS guaranteed >2 years | ||||||||
| Communication Interface | - | RS-485 / 4-20mA / DTU | ||||||||
| Protection Level | - | IP65 | ||||||||
