Coriolis Mas Flow Meter (GPE F1001)

Spesifikasi

Coriolis Mas Flow Meter (GPE F1001)

Coriolis mass Flow Meter is a major advance in mass flow measurement, these meters have got a precedent for accuracy and repeatability under a wide variety of flow conditions. The inherent precision has established it as a standard for numerous industrial applications. The ability of these meters to measure mass flow and density directly has led to their user in applications ranging form metering food products to corrosive chemicals. Coriolis meters have proven extremely reliable when metering noncorrosive fluids. The same reliability can beachieved in corrosive services if consideration is given to the compatibility of the process fluid with the sensor materials of construction, Coriolis technology appealed to us, after all, Coriolis is the most accurate technique available for measuring process mass and volume flow.

Features:

• DSP transmitter with superior accuracy 0.1%
• 20:1 turndown ratio
• 5 to 8 calibration points
• Mass flow, density, temperature and volume flow can be measured at the same time
• Improved startup and availability with simplecommissioning and reduced risk
• No moving parts result in no maintenance
• Install anywhere with no

Specification:

• Flow Range: 16 kg/h to 2500 t/h
• Connection: Flange/Thread
• Operating Pressure:Customized
• Process Temperature: Up to 662 F (up to +350 )
• Body Material: 304 Stainless Steel
• Measuring Tube Material: 316L Stainless Steel
• Ambient Temperature: -40 to 131 F (-40 to +55 )
• Working Humidity: (5% to 95%) RH@77 F (+25 )
• Accuracy: Up to 0.1%
• Repeatability: 0.05%
• Protection: IP 65 (IP 67 optional)
• Approvals: CE, Exd (ib)II CT4
• RS 485 Output
• Pulse Output: 0 to 10 kHz, 0.001%F.S/
• Current Output: 4 to 20mA, 0.005%F.S/ ,
• Power Supply: 85 to 265 VAC, 18 to 36 VDC
• Density Measuring:
• Range: 0.2 to 2.0 kg/l,
• Repeatability: 0.001 kg/l

Application:

F1001 Coriolis Mass Flow Meter measures the fluid mass flow directly. The Coriolis measuring principle operates independently of physical fluid properties, such as viscosity and density. It is a proven technology that has been employed in a wide variety of industries such as petroleum, petrochemical industry, pharmacy, paper making, food and enerfy, the typical applications are as follows:

• Bath Control
• Blending
• Process Control
• Filling & Dosing
• Loading and Unloading
• Custody transfer
• Process gas measurement