Patent Number: 050248022
Section: claims

1. In a nuclear power plant, a method of controlling the steam generator water level, wherein the steam generator has an upper level tap corresponding to an upper level, a lower level tap corresponding to a lower level, a riser positioned between said lower and upper taps, and level sensor means for indicating water level between a first range limit and a second range limit, said sensor means being connected to at least said lower tap, comprising: calculating a measure of velocity head at about the lower level tap;  calculating a measure of full water level as the upper level less said measure of velocity head;  calibrating said level sensor means to provide an output at said first limit corresponding to an input thereto representative of said measure of full level;  calculating a high level setpoint equal to the level of said riser less a bias amount which is a function of the position of said riser relative to the span between said taps; and  controlling said water level when said sensor means indicates that said high level setpoint has been reached.  determining a first measure of velocity head corresponding to water at said upper level;  determining a second measure of velocity head corresponding to water level at said threshold level;  calibrating said level sensing means to provide a maximum indication of water level at said upper level adjusted by said first measure, and to provide a minimum indication of water level corresponding to water level at said lower level; and  determining said high level control threshold corresponding to water level at said threshold level less said second measure.  positioning an upper tap on said steam generator above said riser and obtaining a reference level pressure corresponding to the water read at said upper tap;  positioning a lower tap below said riser and in a high velocity region of said steam generator and obtaining a lower tap pressure therefrom, said riser thereby being positioned at a given percentage of the span between said lower and upper taps;  providing a differential pressure sensor having an output range between lower and upper limits;  calculating a first differential pressure between said reference level pressure and said lower tap pressure when steam water is at said lower tap, and calibrating said sensor to indicate said upper limit when said first difference pressure is placed thereacross;  calculating a second differential pressure between said reference level pressure and a net pressure calculated for water at said upper tap less velocity head at maximum power plant power, and calibrating said sensor to indicate said lower limit when said second differential pressure is placed thereacross;  calculating a differential high level setpoint pressure as the difference between reference pressure and the net pressure calculated as pressure at the lower tap corresponding to water level at said riser less an amount equal to the velocity head at maximum velocity times span percentage; and  controlling water level as a function of the sensed differential pressure compared to high level setpoint differential pressure. 2. The method of claim 1, wherein said sensor means senses differential pressure and has inputs connected to said lower and upper taps respectively, and comprising calculating the differential pressure for water level at said lower tap and calibrating said level sensor means to provide an output at said second limit corresponding to water level at said lower tap. 3. The method of claim 2, wherein said measure of velocity head is velocity head at maximum power. 4. The method of claim 3, comprising calculating said bias amount as maximum velocity head less riser span percentage times velocity head at full power. 5. A method of monitoring water level relative to a high level control threshold in a steam generator, said steam generator being operated with a water level between a lower level and an upper level, said threshold being between said lower and upper levels, and having pressure sensing means subject to water velocity error for measuring said water level, comprising 6. A method for monitoring the water level in a steam generator of a nuclear power plant so as to be able to control said water level relative to the steam generator riser, comprising the following steps: