Flowmeter controller for an air inleakage monitoring system
First Claim
1. A method for controlling the operation of a normally open bladder bypass valve in a steam turbine air inleakage exhaust vent pipe, the valve being used to bypass a flowmeter connected in a bypass pipe parallel with the valve, the flowmeter providing signals representative of flow therethrough, the method comprising the steps of:
- comparing the signals from the flowmeter representative of flow therethrough to a reference signal corresponding to a first predetermined flow rate;
generating a valve closure signal when the step of comparing demonstrates that the flow through the flowmeter is less than the first predetermined flow rate;
converting the signals from the flowmeter while the valve is closed to signals for displaying air inleakage exhaust flow rate;
determining when the exhaust flow rate exceeds a second predetermined value;
generating a valve open signal for bypassing the air inleakage exhaust through the valve when the step of determining demonstrates that the flow rate through the flowmeter is greater than the second predetermined value; and
repeating each of the recited steps in sequence for controlling operation of the valve.
1 Assignment
0 Petitions
Accused Products
Abstract
A method and apparatus for controlling the operation of a normally open bypass valve in a steam turbine air inleakage exhaust vent pipe. The valve is used to bypass a flowmeter connected in a bypass pipe parallel with the valve. The flowmeter provides signals indicative of bypassed flow. The method and apparatus compares the signals from the flowmeter to a reference signal corresponding to a first predetermined flow rate and generates a valve closure signal if the flow through the flowmeter is less than the predetermined flow rate. If the valve is closed, the signals from the flowmeter are used to display the actual air inleakage exhaust rate. If the flow exceeds a second predetermined value, a signal is generated to open the valve for bypassing the exhaust through the valve around the flowmeter. During the second mode of operation, the flowmeter indicates only approximate inleakage exhaust flow rate. If the flow drops below the first predetermined value, the valve is again closed and the flow rate is measured by the flowmeter.
21 Citations
3 Claims
-
1. A method for controlling the operation of a normally open bladder bypass valve in a steam turbine air inleakage exhaust vent pipe, the valve being used to bypass a flowmeter connected in a bypass pipe parallel with the valve, the flowmeter providing signals representative of flow therethrough, the method comprising the steps of:
-
comparing the signals from the flowmeter representative of flow therethrough to a reference signal corresponding to a first predetermined flow rate; generating a valve closure signal when the step of comparing demonstrates that the flow through the flowmeter is less than the first predetermined flow rate; converting the signals from the flowmeter while the valve is closed to signals for displaying air inleakage exhaust flow rate; determining when the exhaust flow rate exceeds a second predetermined value; generating a valve open signal for bypassing the air inleakage exhaust through the valve when the step of determining demonstrates that the flow rate through the flowmeter is greater than the second predetermined value; and
repeating each of the recited steps in sequence for controlling operation of the valve. - View Dependent Claims (2)
-
-
3. A steam turbine air inleakage exhaust pipe control system comprising:
-
an exhaust vent pipe including a controllable valve positioned therein for blocking exhaust flow through said vent pipe when said exhaust flow is less than a first preselected flow rate; an exhaust flow bypass pipe having a first end connected to said vent pipe upstream of said valve and a second end connected to said vent pipe downstream of said valve for bypassing at least a portion of said exhaust flow through said vent pipe, said vent pipe including sufficient restriction for forcing a proportional flow through said bypass pipe when said valve is open; a flowmeter connected in said bypass pipe for providing signals representative of exhaust flow through said bypass pipe when said valve is closed and of exhaust flow through both said bypass pipe and said vent pipe when said valve is open; means for comparing said signals from said flowmeter to signals representative of said first preselected rate when said valve is in a closed position for blocking flow through said vent pipe, said comparing means generating a valve open command when said exhaust flow rate is greater than said first preselected rate; said comparing means being connected for comparing said signals from said flowmeter to signals representative of a second preselected flow rate when said valve is in an open position, said comparing means generating a valve closure command when said exhaust flow rate is less than said second preselected flow rate; and valve control means responsive to commands from said comparing means for opening and closing said valve.
-
Specification