Patent Number: 046506330
Section: claims

1. In a nuclear power plant having a fluid-filled reactor vessel with a vapor outflow line for removing vapor from said reactor vessel, liquid inflow means for injecting liquid to said reactor vessel, said inflow means including an inflow line, a centrifugal pump disposed along said inflow line having an inlet and an outlet, an induction motor to drive said pump, flow control means along said inflow line between said pump and said reactor vessel from said pump, and means for generating a first control signal in response to liquid level in said reactor vessel and net vapor outflow versus liquid inflow with respect to said reactor vessel, said first control signal generating means being effective to generate a first signal to open and a second signal to close said flow control means to maintain liquid level in said vessel within predetermined limits, a pump and pump motor protection apparatus comprising: means for measuring the pressure of said liquid in the inlet of said pump;  means for measuring the temperature of said liquid in the inlet of said pump;  means for determining a required subcooling for said pump at the instantaneous temperature of said liquid in the inlet of said pump;  means for determining the enthalpy of said liquid in the inlet of said pump from the pressure and temperature of said liquid;  means for comparing the enthalpy of said liquid in said inlet against the required subcooling and for generating a first indicative signal when the enthalpy of said liquid fails to exceed the required subcooling, whereby said first indicative signal indicates potential cavitation in said pump;  means for developing a signal indicative of the instantaneous power consumed by said motor;  means for comparing the level of power consumption by said motor against a predetermined maximum power and generating a second indicative signal should said power limited be exceeded whereby said second indicative signal indicates potential pump motor overload;  an OR GATE for receiving said first and second indicative signals and generating a unipolarity second control signal in response to either said first or said second indicative signals; and  control signal summing means for algebraically summing said second control signal with said first control signal to develop a valve position signal to close the positioning of said flow control means;  whereby said flow control means is moved toward its closed position in response to an indication of motor overload or potential cavitation in said pump.  (a) measuring the pressure of said liquid flowing into said pump and generating a pressure indication signal in response thereto;  (b) measuring the temperature of said liquid flowing into said pump and generating a temperature indication signal in response thereto;  (c) providing from said temperature a comparison signal related to the required subcooling for said pump;  (d) at least periodically developing an enthalpy indication signal correlated with the temperature and pressure indication signals;  (e) comparing said required subcooling signal with said enthalpy signal; and  (f) actuating said flow control means to steadily reduce liquid flow through said flowline so long as said enthalpy signal fails to exceed required subcooling as determined in step (e).  (i) generating an indication signal of saturation pressure as a function of water temperature in said pump inlet, and  (ii) subtracting said saturation pressure indication signal from said pressure signal.  (g) monitoring the rate of power consumption by said motor;  (h) continually comparing the rate of power consumption with a predetermined allowable maximum rate of power consumption; and  (i) providing a microprocessor with memory, said memory being adapted to provide subcooling indications for discrete combinations of water temperature and water pressure,  (ii) introducing said temperature and pressure indications to said microprocessor whereby said microprocessor is enabled to periodically perform a table look-up operation for said discrete subcooling indication, and  (iii) providing means to convert said subcooling indication to an analog indication of subcooling.  means for measuring the pressure of said liquid in the inlet of said pump;  means for measuring the temperature of said liquid in the inlet of said pump;  means for indicating the required subcooling for said liquid entering said pump at the measured temperature of said liquid;  means for determining the enthalpy of said liquid in the inlet of said pump from the measured pressure and measured temperature of said liquid;  means for comparing the enthalpy of said liquid in said inlet against the required subcooling and for generating a second control signal when the enthalpy of said liquid fails to exceed said required subcooling; and  control signal summing means for algebraically subtracting said second control signal from said first control signal to develop a prime mover control signal to control energization of said prime mover;  whereby said prime mover is energized at a level such that cavitation in said pump is prevented. 2. In a system as set forth in claim 1, said first indicative signal generating means including limit trigger means effective to generate a fixed potential output signal for said first indicative signal. 3. In a system as set forth in claim 2, signal limiting means for limiting said first control signal to a maximum value when it is of said first polarity. 4. In a system as set forth in claim 3, signal integrating means disposed to increase said second control signal over time before introduction to said summing circuit to insure that said second control signal will dominate said first control signal. 5. In a system as set forth in claim 4, wherein said subcooling determination means includes digital electronics means including a memory, whereby said pressure and temperature indications may be processed to facilitate addressing an appropriate register in said memory to develop subcooling indication. 6. In a system having a flowline for transporting a liquid, a pump with an inlet and an outlet in said flowline, means to drive said pump, and flow control means adapted to control flow through said pump, a method for protecting said pump comprising the steps of: 7. In a method as set forth in claim 6, wherein said step of at least periodically determining said enthalpy indication is provided by; 8. In a method as set forth in claim 7, wherein said step of comprising is done by generating from said temperture indication a signal related to the required minimum pressure difference between actual pump inlet pressure and saturation pressure at current temperature. 9. In a method as set forth with claim 6, wherein said means for driving said pump comprises an induction electric motor, said method including the additional steps of: 10. In a method as set forth in claim 7, wherein said step of at least periodically determining said enthalpy indication is provided by; 11. In a nuclear power plant system having a fluid-filled reactor vessel with a vapor outflow line for removing vapor from said reactor vessel, liquid inflow means for injecting liquid to said reactor vessel, said inflow means including an inflow line, a centrifugal pump disposed along said inflow line, a controllable prime mover for driving said pump, and means for generating a first control signal in response to a liquid level in said vessel and net vapor outflow versus liquid inflow with respect to said vessel, a pump system protection apparatus comprising: 12. In a system as set forth in claim 11, said means for generating a second control signal comprising a trigger signal generator adapted to generate a constant valued output signal for said second control signal. 13. In a system as set forth in claim 12, signal limiting means for limiting said first control signal to a maximum value when it indicates a demand for increased energization of said prime mover. 14. In a system as set forth in claim 13, signal integrating means disposed to increase said second control signal over time, before application to said summing circuit, to insure that said second control signal will dominate said first control signal should both be present. 15. In a system as set forth in claim 1, wherein said working medium is water.