Measurement principle | Ultrasonic transit-time difference correlation principle |
Flow velocity range | 0.01 to 15 m/s, bi-directional |
Resolution | 0.1mm/s |
Repeatability | 0.15% of reading |
Accuracy | ±0.5% of reading at rates >0.3 m/s);±0.003 m/s of reading at rates<0.3 m/s |
Response time | 0.5s |
Sensitivity | 0.001m/s |
Damping of displayed value | 0-99s(selectable by user) |
Liquid Types Supported | both clean and somewhat dirty liquids with turbidity <10000 ppm |
Power Supply | AC: 85-265V DC: 24V/500mA |
Enclosure type | Wall-mounted |
Degree of protection | IP66 according to EN60529 |
Operating temperature | -10℃ to +60℃ |
Housing material | Fiberglass |
Display | 4.3’’ color LCD 5 lines display, 16 keys |
Units | User Configured (English and Metric) |
Rate | Rate and Velocity Display |
Totalized | gallons, ft³, barrels, lbs, liters, m³,kg |
Thermal energy | unit GJ,KWh can be optional |
Communication | 4~20mA(accuracy 0.1%),OCT, Relay, RS485 (Modbus),data logger |
Security | Keypad lockout, system lockout |
Size | 244*196*114mm |
Weight | 2.4kg |
Degree of protection | Standard IP65; IP67, IP68 can be optional |
Suited Liquid Temperature | -35℃~200℃ |
Pipe diameter range | 20-50mm for type B, 40-4000mm for type A |
Transducer Size | Type A 46(h)*31(w)*28(d)mm |
Type B 40(h)*24(w)*22(d)mm | |
Material of transducer | Aluminum or Stainless steel SUS304 |
Cable Length | Std:10m |
Temperature Sensor | Pt1000, 0 to 200℃, Clamp-on and Insertion type Accuracy: ±0.1% |
Features
Applications
Specifications
Principle of measurement
DescriptionFeaturesDimensionalSpecificaitonsPrincipleApplications● Water and waste water industry - hot water, cooling water, potable water, sea water etc.) ● Petrochemical industry ● Chemical industry -chlorine, alcohol, acids, .thermal oils.etc ● Refrigeration and air conditioning systems ● Food , beverage and pharmaceutical industry ● Power supply- nuclear power plants, thermal & hydropower plants), heat energy boiler feed water.etc ● Metallurgy and mining applications ● Mechanical engineering and plant engineering-pipeline leak detection, inspection, tracking and collection.
● Service and maintenance ● Replacement of defective devices ● Support of commissioning process and installation ● Performance and efficiency measurement - Evaluation and assessments - Capacity measurement of pumps - Monitoring of regulating valvesThe TF1100 ultrasonic flow meter is designed to measure the fluid velocity of liquid within a closed pipe. The transducers are a non-invasive, clamp-on type, which will provide benefits of non-fouling operation and easy installation. The TF1100 transit time flow meter utilizes two transducers that function as both ultrasonic transmitters and receivers. The transducers are clamped on the outside of a closed pipe at a specific distance from each other. The transducers can be mounted in V-method where the sound transverses the pipe twice, or W-method where the sound transverses the pipe four times, or in Z-method where the transducers are mounted on opposite sides of the pipe and the sound crosses the pipe once. This selection of the mounting method depends on pipe and liquid characteristics. The flow meter operates by alternately transmitting and receiving a frequency modulated burst of sound energy between the two transducers and measuring the transit time that it takes for sound to travel between the two transducers. The difference between the transit-time is directly and exactly related to the velocity of the liquid in the pipe, as shown in below Figure.