SITRANS F C MASS 2100 DI 1.5
SITRANS F C MASS 2100 DI 1.5
Description
The SITRANS F C MASS 2100 DI 1.5 has demonstrated superior performance in numerous applications and field trials relating to mass flow- and density accuracy and turn down ratio.
The single continuous tube design without internal welds, reductions or flow splitters, offers optimal hygiene, safety and CIP cleanability for food & beverage and pharmaceutical applications.
The SITRANS F C MASS 2100 DI 1.5 is today the preferred meter for research and development and mini-plant applications for liquid or gas measurement, where measuring very small quantities (e.g. drops per hour) is important.
In order to make a complete flowmeter, the SITRANS F C MASS 2100 flow sensor must be combined with one of the following MASS transmitters:
SITRANS F C MASS 6000 (only remote installation): For general industry applications
SIFLOW FC070: For direct integration into SIMATIC based systems
Typical applications: Dosing with chemical industry (dosing of chemicals), Food & beverage industry (concentrates, ketchup, pastes) and Pharmaceutical industry (preparation, dialysis liquids).
Detail
Measuring range | From 0 to 30 kg/h (0 to 66 lb/h) |
Nominal size | DI 1.5 (1/16") |
Accuracy | ≤ 0.1 % of rate |
Nominal pressure | Liquid pressure max 365 bar / max 5294 psi (Hastelloy) Liquid pressure max 230 bar / max 3330 psi (Stainless steel) |
Medium temperature | From -50 to 180 °C (-58 to 356 °F) |
Sensor design | One tube bended |
Enclosure | IP65 (NEMA 4) |
Approvals | EEx (ia) IIC T3-T6 |
Benefits
- Dual-drive pick-up and driver construction facilitate ultra low-weight pipe construction giving the markets smallest and most stable zero point
- Markets biggest wall thickness, ensure optimal lifetime, corrosion resistent and high pressure durability
- Multiplug electrical connector and SENSORPROM enables true Plug & Play facilitating cost efficient installation and commisioning
- Enhanced safety due to standard intrinsically safe EEx ia design
- 4-wire Pt1000 temperature measurement ensures optimum accuracy on mass flow, density and % fraction