Estimation apparatus of heat transfer medium flow rate, heat source machine, and estimation method of heat transfer medium flow rate

The invention claimed is: 1. An estimation apparatus of heat transfer medium flow rate for estimating a flow rate of a heat transfer medium in a heat source machine including: a variable-speed centrifugal compressor for sucking and compressing a refrigerant; a condenser for condensing the compressed refrigerant using a heat source medium; and an evaporator for evaporating the condensed refrigerant and carrying out heat exchange between the refrigerant and the heat transfer medium, the estimation apparatus of heat transfer medium flow rate comprising: a storing portion for storing an aerodynamic characteristic map indicating a rotating stall line causing a rotating stall and a plurality of machine Mach number lines showing a sonic velocity in the refrigerant sucked in by the compressor on a map displaying a first parameter reflecting a suction volume of the compressor and a second parameter reflecting a head of the compressor; a first parameter computation portion for computing the second parameter and deriving the first parameter according to the second parameter from the aerodynamic characteristic map; and a heat transfer medium flow rate computation portion for computing an amount of heat exchanged between the refrigerant and the heat transfer medium in the evaporator based on the suction volume of the compressor according to the first parameter derived by the first parameter computation portion and a density of the refrigerant sucked into the compressor, and computing a flow rate of the heat transfer medium based on the amount of the heat, wherein the storing portion stores a plurality of aerodynamic characteristic maps that differ according to the number of revolutions of the compressor, and the first parameter computation portion derives the first parameter according to the second parameter from the aerodynamic characteristic map corresponding to the number of revolutions of the compressor. 2. The estimation apparatus of heat transfer medium flow rate according to claim 1 , wherein the heat transfer medium flow rate computation portion: derives a flow rate of the refrigerant flowing in the evaporator from the suction volume of the compressor based on the first parameter derived by the first parameter computation portion and the density of the refrigerant sucked into the compressor; derives the amount of the heat exchanged between the refrigerant and the heat transfer medium in the evaporator from the computed flow rate of the refrigerant and a difference between enthalpy on the inlet side and enthalpy on the outlet side of the evaporator, and computes the flow rate of the heat transfer medium based on the derived amount of the heat and a difference between temperature of the heat transfer medium flowing into the evaporator and temperature of the heat transfer medium flowing out of the evaporator. 3. The estimation apparatus of heat transfer medium flow rate according to claim 1 , wherein the first parameter computation portion derives the first parameter from the second parameter and the machine Mach number lines. 4. A heat source machine, comprising: a variable-speed centrifugal compressor for sucking and compressing a refrigerant; a condenser for condensing the compressed refrigerant using a heat source medium, an evaporator for evaporating the condensed refrigerant and carrying out heat exchange between the refrigerant and a heat transfer medium, and the estimation apparatus of heat transfer medium flow rate according to claim 1 . 5. The heat source machine according to claim 4 , further comprising: a temperature sensor for measuring a temperature of the refrigerant being sucked into the compressor; and a pressure sensor for measuring a pressure of the refrigerant being sucked into the compressor; wherein the heat transfer medium flow rate computation portion computes a density of the refrigerant sucked into the compressor on the basis of the temperature measured by the temperature sensor and the pressure measured by the pressure sensor, computes an amount of heat exchanged between the refrigerant and the heat transfer medium in the evaporator on the basis of the density which is computed and the suction volume of the compressor according to the first parameter which is derived, and computes a flow rate of the heat transfer medium on the basis of the amount of the heat which is computed. 6. An estimation apparatus of heat transfer medium flow rate for estimating a flow rate of a heat transfer medium in a heat source machine including: a centrifugal compressor for sucking and compressing a refrigerant; a condenser for condensing the compressed refrigerant using a heat source medium; an evaporator for evaporating the condensed refrigerant and carrying out heat exchange between the refrigerant and the heat transfer medium, a bypass pipe arrangement provided between the condenser and the evaporator for flowing the refrigerant from the condenser to the evaporator, and a valve provided to adjust a flow rate of the refrigerant flowing in the bypass pipe arrangement, the estimation apparatus of heat transfer medium flow rate comprising: a storing portion for storing an aerodynamic characteristic map indicating a rotating stall line causing a rotating stall and a plurality of machine Mach number lines showing a sonic velocity in the refrigerant sucked in by the compressor on a map displaying a first parameter reflecting a suction volume of the compressor and a second parameter reflecting a head of the compressor; a first parameter computation portion for computing the second parameter and deriving the first parameter according to the second parameter from the aerodynamic characteristic map; and a heat transfer medium flow rate computation portion for computing an amount of heat exchanged between the refrigerant and the heat transfer medium in the evaporator based on the suction volume of the compressor according to the first parameter derived by the first parameter computation portion and a density of the refrigerant sucked into the compressor, and computing a flow rate of the heat transfer medium based on the amount of the heat, wherein the storing portion stores a plurality of the aerodynamic characteristic maps that differ according to the degree of opening of the valve, and the first parameter computation portion derives the first parameter according to the second parameter from the aerodynamic characteristic map corresponding to the degree of opening of the valve. 7. The estimation apparatus of heat transfer medium flow rate according to claim 6 , wherein the heat transfer medium flow rate computation portion: derives a flow rate of the refrigerant flowing in the evaporator from the suction volume of the compressor based on the first parameter derived by the first parameter computation portion and the density of the refrigerant sucked into the compressor; derives the amount of the heat exchanged between the refrigerant and the heat transfer medium in the evaporator from the computed flow rate of the refrigerant and a difference between enthalpy on the inlet side and enthalpy on the outlet side of the evaporator, and computes the flow rate of the heat transfer medium based on the derived amount of the heat and a difference between temperature of the heat transfer medium flowing into the evaporator and temperature of the heat transfer medium flowing out of the evaporator. 8. The estimation apparatus of heat transfer medium flow rate according to claim 6 , wherein the first parameter computation portion derives the first parameter from the second parameter and the machine Mach number lines. 9. A heat source machine, comprising: a centrifugal compressor for sucking and compressing a refrigerant; a condenser for conden