Centrifugal compressor apparatus and method for preventing surge therein

The invention claimed is: 1. A centrifugal compressor apparatus comprising: a centrifugal compressor arranged to centrifugally compress a gas; an exhaust valve provided in a pipe that makes communication between a discharge side of the centrifugal compressor and a section where pressure is lower than on the discharge side; and a surge prevention controller operably connected to control the exhaust valve, wherein the surge prevention controller is operably connected to (a) monitor an operating point of the centrifugal compressor, (b) based on a previously set and stored surge line, set a first surge prevention line on a larger side, in a flow rate, of the set and stored surge line of the centrifugal compressor, (c) calculate the flow rate and a pressure ratio of the centrifugal compressor; (d) open the exhaust valve when the surge prevention controller determines that the monitored operating point of the centrifugal compressor is positioned on a lower side, in the flow rate, of the first surge prevention line set by the surge prevention controller; and (e) when determining that surging has occurred, shift the first surge prevention line to a larger side in the flow rate as a second surge prevention line, wherein the operating point, the surge line, and the first and second surge prevention lines are expressed in a two-dimensional coordinate system including a coordinate axis of the calculated flow rate and a coordinate axis of the calculated pressure ratio; and (f) shifting the first surge line toward the set surge line at a shift cycle so that the first surge prevention line gradually approaches the set surge line. 2. A method of preventing surging, the method comprising the steps of: (A) monitoring an operating point of the centrifugal compressor; (B) based on a previously set and stored surge line, setting a first surge prevention line on a larger side, in a flow rate, of the set and stored surge line of the centrifugal compressor; (C) calculating the flow rate and a pressure ratio of the centrifugal compressor; (D) opening an exhaust valve provided in a pipe operably connected to communicate between a discharge side of the centrifugal compressor and a section where pressure is lower than on the discharge side, when a surge prevention controller determines that the monitored operating point on the centrifugal compressor is positioned on a lower side, in the flow rate, of the first surge prevention line set by the surge prevention controller; (E) when determining that surging has occurred, shifting the first surge prevention line to a larger side in the flow rate to be set as a second surge prevention line, and wherein the steps (A) to (E) are performed by the surge prevention controller, and the operating point, the surge line, and the first and second surge prevention lines are expressed in a two-dimensional coordinate system including a coordinate axis of the calculated flow rate and a coordinate axis of the calculated pressure ratio: and (F) shifting the first surge line toward the set surge line at a shift cycle so that the first surge prevention line gradually approaches the set surge line. 3. The method of preventing surging according to claim 2 , wherein the pipe makes communication between the discharge side and the section that is a suction side of the centrifugal compressor. 4. The method of preventing surging according to claim 2 , wherein the first surge prevention line is set to have a surge margin from the set surge line, and the surge margin is in a range of 10 to 15% or in a range of 0 to 5% in terms of the flow rate. 5. A centrifugal compressor apparatus comprising: a centrifugal compressor arranged to centrifugally compress a gas; an electric motor operably connected to rotatably drive the centrifugal compressor; a current detector operably connected to detect a drive current of the electric motor; an exhaust valve operably connected to discharge a compressed gas to a lower pressure section; and a surge prevention controller operably connected to control the exhaust valve, wherein the surge prevention controller (A) is arranged to detect the drive current at a sampling cycle; (B) is configured to update, in real time, as a current threshold, a value “(moving average)−n×(standard deviation)” for which a plurality of drive currents measured in a sampling period serves as a population, wherein the number “n” is a positive number in the range of 3 to 4; (C) is configured to determine that surging has occurred, when the exhaust valve is fully closed or an opening degree of the exhaust valve is intermediate, and the drive current is below the current threshold (D) is operably connected to further open the exhaust valve to discharge the compressed gas when it is determined that surging has occurred, (E) is operably connected to monitor an operating point of the centrifugal compressor, (F) is operably connected to, based on a previously set and stored surge line, set a first surge prevention line on a larger side, in a flow rate of the set and stored set surge line of the centrifugal compressor; (G) is operably connected to calculate the flow rate and a pressure ratio of the centrifugal compressor; (H) is operably connected to open the exhaust valve to discharge the compressed gas when the surge prevention controller determines that the monitored operating point of the centrifugal compressor is positioned on a lower side, in the flow rate, of the first surge prevention line set by the surge prevention controller; (I) is operable to shift the first surge prevention line toward the set and stored surge line at a shift cycle so that the first surge prevention line gradually approaches the set surge line; and (J) is operable to, when determining that surging has occurred, shift the first surge prevention line to a larger side in the flow rate as a second surge prevention line, and wherein the operating point, the surge line, and the first and second surge prevention lines are expressed in a two-dimensional coordinate system including a coordinate axis of the calculated flow rate and a coordinate axis of the calculated pressure ratio. 6. The centrifugal compressor apparatus according to claim 5 , further comprising: a suction manometer and a discharge manometer arranged to detect suction pressure and discharge pressure of the centrifugal compressor, respectively; and a suction thermometer arranged to detect suction temperature of the centrifugal compressor, wherein the surge prevention controller includes a power calculator operably connected to calculate drive power of the electric motor from the drive current of the electric motor; a flow rate calculator operably connected to calculate the flow rate of the centrifugal compressor from the drive power, the suction pressure, the discharge pressure, and the suction temperature; and a pressure ratio calculator operably connected to calculate a pressure ratio from the suction pressure and the discharge pressure. 7. A method of preventing surging in a centrifugal compressor apparatus, wherein a centrifugal compressor that centrifugally compresses a gas, an electric motor that rotatably drives the centrifugal compressor, a current detector that detects a drive current of the electric motor, and an exhaust valve that discharges a compressed gas to a lower pressure section are provided, the method comprising the steps of: (A) detecting the drive current at a sampling cycle; (B) updating, in real time, as a current threshold, a value “(moving average)−n×(standard deviation)” for which a plurality of drive currents measured in a sampling period serves as a population, wherein the number “n” is a positive number in the range of 3 to 4; (C) determining that surging has occurred