Analytical Method to Predict Primary Side
Steam Generator Pressure Drop and
Corresponding Plant Measurement
E N G I N E E R I N G P R O J E C T P R O P O S A L
M A S T E R O F E N G I N E E R I N G I N M E C H A N I C A L
E N G I N E E R I N G
D A N F L A H I V E

 In a Pressurized Water Reactor (PWR) flow measurement accuracy is important for power measurement.
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Most common method for flow measurement used pressure differential (dP) across components in the plant.
 Historically dP across steam generators have been difficult to measure.

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Current methodology for predicting SG dP makes simplifying assumptions about the geometry.
 The assumptions to simplify the calculation do not provide a very accurate dP prediction.
 The inaccurate prediction increases the uncertainty of the flow measurement.
 If the flow measurement accuracy can be improved the reactor power output could be increased.

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The proposed methodology will
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Looks the complex geometry to find new equations for calculating SG dP.
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Review other research on hydraulic resistance through similar components, such as tube and shell heat exchangers
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Look at location of pressure taps and evaluate local parameters that affect the pressure measurements.
The results will be compared with plant data

 The expected outcome is a method that canto accurately predict SG dP and compare it to plant measurements.

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