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The magmeter consists of a flow sensor, a calculator, and paired temperature sensors. The flow sensor utilizes electromagnetic induction to measure the volumetric flow rate of fluids, including water, saltwater, sewage, pulp, slurry, acids, alkalis, or any mixture of liquids and solids, as well as glycol, passing through the BTU sensor system.
The temperature sensors are typically installed at the inlet and outlet of the BTU equipment to measure the temperature difference. By combining the flow rate and temperature difference data, the BTU meter can accurately calculate the amount of heat energy exchanged.
Electromagnetic BTU meter
BTU Flow Meter
Specification
| Product | Electromagnetic BTU meter |
| Diameter nominal | DN10 ~DN2000 |
| Accuracy | ±2%, (flow rate=1m/s) |
| Working pressure | 1.6 MPa |
| Liner material | PFA, F46, Neoprene, PTFE, FEP |
| Electrode material | Stainless steel SUS316L, Hastelloy C, Titanium, |
| Tantalum, Platinum-iridium | |
| Medium temperature | Integral type: -10℃~120℃ |
| Split type: -10℃~180℃ | |
| Power supply | 85-245VAC,50/60Hz,22-26VDC |
| Electrical conductivity | > 50μS/cm |
| Ingress protection | IP65, IP68 |
The electromagnetic BTU meter is commonly used in various applications, including district heating and cooling systems, HVAC (Heating, Ventilation, and Air Conditioning) systems, and industrial processes. It provides an accurate and precise reading of energy consumption, allowing for efficient energy management and billing.
In summary, an electromagnetic BTU meter is a device that utilizes electromagnetic flow measurement and temperature sensors to measure the heat energy exchanged in a heating or cooling system. It plays a vital role in monitoring and managing energy usage in various applications like residential buildings, greenhouse constructions, tenant buildings, and commercial buildings.
The magmeter consists of a flow sensor, a calculator, and paired temperature sensors. The flow sensor utilizes electromagnetic induction to measure the volumetric flow rate of fluids, including water, saltwater, sewage, pulp, slurry, acids, alkalis, or any mixture of liquids and solids, as well as glycol, passing through the BTU sensor system.
The temperature sensors are typically installed at the inlet and outlet of the BTU equipment to measure the temperature difference. By combining the flow rate and temperature difference data, the BTU meter can accurately calculate the amount of heat energy exchanged.
Electromagnetic BTU meter
BTU Flow Meter
Specification
| Product | Electromagnetic BTU meter |
| Diameter nominal | DN10 ~DN2000 |
| Accuracy | ±2%, (flow rate=1m/s) |
| Working pressure | 1.6 MPa |
| Liner material | PFA, F46, Neoprene, PTFE, FEP |
| Electrode material | Stainless steel SUS316L, Hastelloy C, Titanium, |
| Tantalum, Platinum-iridium | |
| Medium temperature | Integral type: -10℃~120℃ |
| Split type: -10℃~180℃ | |
| Power supply | 85-245VAC,50/60Hz,22-26VDC |
| Electrical conductivity | > 50μS/cm |
| Ingress protection | IP65, IP68 |
The electromagnetic BTU meter is commonly used in various applications, including district heating and cooling systems, HVAC (Heating, Ventilation, and Air Conditioning) systems, and industrial processes. It provides an accurate and precise reading of energy consumption, allowing for efficient energy management and billing.
In summary, an electromagnetic BTU meter is a device that utilizes electromagnetic flow measurement and temperature sensors to measure the heat energy exchanged in a heating or cooling system. It plays a vital role in monitoring and managing energy usage in various applications like residential buildings, greenhouse constructions, tenant buildings, and commercial buildings.
About ARTang
ARTang is a global leader in measurement instrumentation, services and solutions for industrial process engineering that energizes the transformation of society and industry to achieve a more productive, sustainable future. We provide process solutions for flow, level, pressure, analytics and digital communications, optimizing processes in terms of economic efficiency, safety & environmental impact.