8800D Vortex Flow Transmitter – Reliable Steam, Gas, and Liquid Flow Measurement
Product Description:
The Rosemount 8800D Vortex Flow Transmitter is a highly reliable and maintenance-free solution for measuring the flow of steam, gas, and liquid in industrial applications. Designed with a robust, gasket-free, all-cast construction and no moving parts, it ensures long-term stability and reduces potential leak points. Its advanced vortex-shedding technology delivers accurate and repeatable flow measurement, even under demanding process conditions. With multiple configuration options—including flanged, wafer, and reducer styles—the 8800D offers installation flexibility and broad applicability across power, chemical, oil & gas, and general process industries.
| Parameter |
Rosemount 8800D (Emerson) |
Yokogawa DY Series |
Siemens SITRANS FX330 |
ABB VortexMaster FSV450 |
| Measurement Principle |
Vortex shedding, no moving parts |
Vortex shedding with dual sensor |
Vortex shedding with integrated pressure/temperature compensation |
Vortex shedding with multivariable capability |
| Media |
Steam, gas, liquid |
Steam, gas, liquid |
Steam, gas, liquid |
Steam, gas, liquid |
| Accuracy |
±0.65% of rate (liquid), ±1% (gas/steam) |
±0.75% of the rate |
±0.75% of the rate |
±0.75% of the rate |
| Repeatability |
±0.2% |
±0.2% |
±0.2% |
±0.2% |
| Pressure Rating |
Up to ANSI Class 1500 |
Up to Class 900 |
Up to PN100 / ASME 600 |
Up to PN100 / ASME 600 |
| Temperature Range |
-200 °C to +400 °C |
-200 °C to +450 °C |
-200 °C to +240 °C |
-200 °C to +400 °C |
| Design |
Gasket-free, all-cast body, no leak points |
Dual-sensor redundancy |
Compact, modular transmitter |
Multivariable with DP/Temp integration |
| Output Options |
4–20 mA, HART, FOUNDATION Fieldbus, Modbus |
4–20 mA, HART, Fieldbus |
4–20 mA, HART, PROFIBUS PA |
4–20 mA, HART, PROFIBUS PA, Modbus |
| Special Features |
Maintenance-free, no moving parts, optional dual/quad redundancy |
Dual-sensor for safety, SIL certified |
Integrated pressure & temperature compensation |
Multivariable mass flow, SIL certified |
| Typical Applications |
Steam energy balance, chemical, oil & gas, power plants |
Power, chemical, safety-critical steam |
HVAC, utilities, chemical |
Power, chemical, oil & gas |
Got it — you’d like an English “Applications” section for the Rosemount 8800D Vortex Flow Transmitter. Here’s a professional version you can use in catalogs, datasheets, or presentations:
Applications
The Rosemount 8800D Vortex Flow Transmitter is engineered for a wide range of industrial flow measurement tasks, delivering accurate and repeatable results across diverse process conditions. Typical applications include:
- Steam Measurement
- Saturated and superheated steam flow in power generation and district heating
- Energy balancing and efficiency monitoring in utility systems
- Gas Measurement
- Compressed air distribution networks
- Natural gas and industrial gas supply lines
- Flue gas and exhaust monitoring in process industries
- Liquid Measurement
- Cooling water and boiler feedwater systems
- Chemical feed and process liquids in refineries and chemical plants
- General-purpose liquid flow in industrial utilities
- Multivariable Applications
- Mass flow and energy measurement with integrated temperature and pressure compensation
- Safety Instrumented Systems (SIS) with dual or quad sensor configurations
Frequently Asked Questions (FAQ)
Q1. What is the Rosemount 8800D Vortex Flow Transmitter used for?
The 8800D is designed to measure the flow of steam, gas, and liquid in industrial processes. It is widely applied in power generation, chemical plants, oil & gas, and general utilities.
Q2. How does the 8800D measure flow?
It uses the vortex shedding principle, where vortices are formed as fluid passes a bluff body. The frequency of these vortices is directly proportional to the flow velocity, allowing accurate flow measurement.
Q3. What makes the 8800D different from other vortex flowmeters?
The 8800D features a gasket‑free, all‑cast body with no moving parts, eliminating potential leak points and reducing maintenance. It also offers dual and quad sensor configurations for safety‑critical applications.
Q4. What types of fluids can it measure?
It can measure saturated and superheated steam, compressed air, natural gas, industrial gases, cooling water, boiler feedwater, and a wide range of process liquids.
Q5. What is the accuracy of the 8800D?
Typical accuracy is ±0.65% of rate for liquids and ±1.0% of rate for gas and steam, with repeatability of ±0.2%.
Q6. What communication protocols are supported?
The transmitter supports 4–20 mA with HART, FOUNDATION Fieldbus, and Modbus protocols, ensuring compatibility with most control systems.
Q7. What installation options are available?
The 8800D is available in flanged, wafer, reducer, dual‑sensor, quad‑sensor, and high‑pressure designs, providing flexibility for different piping systems and process conditions.
Q8. Is the 8800D suitable for safety instrumented systems (SIS)?
Yes. Dual and quad sensor configurations are SIL‑certified, making them suitable for SIS applications where redundancy and reliability are critical.
Q9. What is the temperature and pressure range?
It can handle temperatures from –200 °C up to +400 °C and pressures up to ANSI Class 1500, depending on the configuration.
Q10. What are the maintenance requirements?
With no moving parts and a gasket‑free design, the 8800D requires minimal maintenance, reducing lifecycle costs and downtime.
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