Steam Flow Measurement - US Environmental Protection Agency
Transcript of Steam Flow Measurement - US Environmental Protection Agency
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Steam Flow Measurement
• Measuring Steam Energy • Evaluating Important Design and
Installation Considerations • Overview of Current Technologies
Bowen Ierna ONICON Incorporated Clearwater, FL
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Measuring Steam Energy
Velocity (ft/s)
Volumetric Flow Rate (ft3/m)
Internal area (ft2)
Density (lb/ft3)
Mass Flow Rate (lb/hr)
Energy Rate (Btu/hr)
Enthalpy (Btu/lb)
Basic steps for the steam energy calculation
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∗ Steam is a compressible fluid ∗ Density is a function of both temperature and pressure ∗ Saturated steam: Temperature and pressure are dependent
variables. Density can be calculated by measuring one variable.
∗ Superheated steam: Temperature and pressure are independent variables. You must measure both to calculate density to measure mass flow and energy.
Density
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Steam Measurement Using Discreet Components
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Steam Measurement Using Multivariable Technology
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∗ Reliability ∗ Accuracy ∗ Rangeability/Turndown/Sizing ∗ Multivariable vs. Discreet Components ∗ Installation Requirements ∗ System shutdown required to install? ∗ Pressure drop
Evaluating Important Design and Installation Considerations
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∗ Does the sensing element of the meter contain moving parts that require periodic maintenance?
∗ Are there analog transducers that can drift over time? ∗ Are the pressure and temperature limitations of the
equipment acceptable for the application?
Reliability Considerations
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∗ Overall steam energy accuracy is determined by combining the uncertainty of the flow, temperature, and pressure sensors and calculation uncertainty.
∗ Calibration ∗ How is the accuracy expressed: ∗ Percentage of scale? ∗ Percentage of reading?
Evaluating Accuracy
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Evaluating Accuracy
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∗ Rangeability: The range over which an instrument can measure. (e.g. typical 3” vortex meter measuring 100psig saturated steam; 420-12,700 lb/hr or 10-300 ft/s)
∗ Turndown: The range specified as a ratio of highest measured value to lowest measured value. (i.e. in above example: 30:1)
Rangeability / Turndown
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∗ Effective Turndown: The instrument range as related to the maximum flow for a specific application. (e.g. Meter has a 30:1 turndown from 10-300 ft/s; Application design max = 80 ft/s; Effective turndown = 8:1 for this application)
∗ Sizing: In many applications it is advantageous to size the meter based on flow to improve the effective turndown. ∗ (e.g. reducing the 3” meter above to a 2” meter increases the
effective turndown to 18:1)
Effective Turndown / Sizing
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∗ Straight pipe run conditions the flow profile
∗ Flow conditioners can minimize straight run requirements. ∗ Straight run requirements are determined by the nature of
the obstruction.
Installation Requirements
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Minimum upstream dimensions depend on the type of pipe obstruction.
These are the most disruptive to the flow profile: • Control (PRV) Valve • Inflowing Tees • Multiple Bends Out of
Plane • Multiple Bends In Plane
This is what all good installations have in common: • Enough straight
pipe to properly condition flow
These are less disruptive, but still affect accuracy: • Outflowing Tees • Pipe Reduction or
Enlargement • Single Bend
Straight Pipe Run Requirements
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∗ Retrofit installations ∗ It is necessary to shut down the system to install a full bore
flanged meter. ∗ Insertion meters can be hot tapped into existing systems
without interruption of service.
Installation Options
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∗ Some systems are sensitive to the introduction of additional pressure drop. In these cases, consider the following: ∗ Does the flow meter technology introduce a significant
pressure drop? ∗ Will downsizing a meter to improve turndown create too
much pressure drop?
Pressure Drop
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Common flow measurement technologies include: * Vortex meters * Differential Pressure (DP) meters * Turbine meters
Overview of Current Technologies
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Vortex Meters
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Vortex Shedding is a Natural Phenomenon
Volcano
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When any liquid, gas or vapor in motion hits a solid body in its path, it flows around it shedding vortices alternately on either side of the body.
Vortex Shedding Principle
The frequency of the vortices is directly proportional to the velocity of the fluid.
Flow
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Differential Pressure Meters
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Differential Pressure Principle
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Turbine Meters
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Conclusions