Air-conditioning apparatus

The invention claimed is: 1. An air-conditioning apparatus comprising: a refrigerant circuit that is formed by connecting, by a refrigerant pipe, a compressor that discharges a refrigerant, which is a zeotropic refrigerant mixture including a plurality of components with different boiling points, an outdoor-side heat exchanger that exchanges heat between air outside an air-conditioning target space and the refrigerant, a first expansion device that regulates a pressure of the refrigerant, and a load-side heat exchanger that exchanges heat between air in the air-conditioning target space and the refrigerant; and, a controller that includes a processor and a memory, wherein the processor is configured to execute a program stored in the memory to: compute, by a composition computing function unit, a circulating composition, wherein the circulating composition represents a value of composition of each of the plurality of components with different boiling points in the refrigerant circulating through the refrigerant circuit; and determine, by a composition determining function unit, whether or not a computation result of the composition computing function unit is correct, responsive to determining that the computation result is incorrect, adopt a pre-determined value, based on an operation mode of the air-conditioning apparatus, of the composition of each of the plurality of components, the pre-determined value being set in advance and related to composition as the circulating composition, and responsive to determining that the computation result is correct, adopt the computation result as the circulating composition, set, as the pre-determined value of the composition of each of the plurality of components which is used responsive to determining that the computation result is incorrect, (a) a value of the composition of each of the plurality of components to be used in a cooling operation and (b) a value of the composition of each of the plurality of components to be used in a heating operation, wherein (a) the pre-determined value of the composition of each of the plurality of components to be used in the cooling operation is a value equal to composition of the refrigerant charged into the refrigerant circuit; and (b) the pre-determined value of the composition of each of the plurality of components to be used in the heating operation is a value that among the plurality of components, a proportion of a component with a low boiling point is greater than in the composition of the refrigerant charged into the refrigerant circuit. 2. The air-conditioning apparatus of claim 1 , further comprising: a supercooled liquid temperature detecting device that detects a supercooled liquid refrigerant temperature, the supercooled liquid refrigerant temperature being a temperature of the refrigerant in a supercooled liquid state on a high-pressure side in the refrigerant circuit; a high-pressure side pressure detecting device that detects a high-pressure side pressure of the refrigerant in the supercooled liquid state; a two-phase refrigerant temperature detecting device that detects a two-phase refrigerant temperature, the two-phase refrigerant temperature being a temperature of the refrigerant in a two-phase state obtained after the refrigerant in the supercooled liquid state is reduced in pressure; and a low-pressure side pressure detecting device that detects a low-pressure side pressure of the refrigerant obtained after the refrigerant in the supercooled liquid state is reduced in pressure, wherein the composition computing function unit computes the circulating composition on a basis of the supercooled liquid refrigerant temperature, the two-phase refrigerant temperature, and the low-pressure side pressure, and wherein the composition determining function unit determines whether or not the computation result of the composition computing function unit is correct on a basis of the supercooled liquid refrigerant temperature, the high-pressure side pressure, the two-phase refrigerant temperature, and the low-pressure side pressure. 3. The air-conditioning apparatus of claim 2 , wherein the composition determining function unit: computes a high-pressure supercooled liquid refrigerant enthalpy from a previously stored relationship of pressure, temperature, and composition of the refrigerant to supercooled liquid enthalpy, the supercooled liquid refrigerant temperature, the high-pressure side pressure, and composition of the refrigerant at charge; treats the high-pressure supercooled liquid refrigerant enthalpy as being equal to a low-pressure two-phase refrigerant enthalpy; computes a high-pressure saturated liquid enthalpy and a low-pressure saturated liquid enthalpy on a basis of a previously determined relationship of pressure and composition of the refrigerant to saturated liquid enthalpy, the high-pressure side pressure, the low-pressure side pressure, and the composition of the refrigerant at charge; and determines the computation result of the composition computing function unit as correct, if it is determined that the high-pressure supercooled liquid refrigerant enthalpy is less than the high-pressure saturated liquid enthalpy and that the low-pressure two-phase refrigerant enthalpy is greater than the low-pressure saturated liquid enthalpy. 4. The air-conditioning apparatus of claim 2 , wherein the composition determining function unit: computes a high-pressure saturated liquid temperature and a low-pressure saturated liquid temperature, on a basis of a previously determined relationship of pressure and composition of the refrigerant to saturated liquid temperature, the high-pressure side pressure, the low-pressure side pressure, and composition of the refrigerant at charge; and determines the computation result of the composition computing function unit as correct, if it is determined that the supercooled liquid refrigerant temperature is less than the high-pressure saturated liquid temperature and that the two-phase refrigerant temperature is greater than the low-pressure saturated liquid temperature. 5. The air-conditioning apparatus of claim 2 , wherein the composition determining function unit: computes a high-pressure supercooled refrigerant quality from a previously determined relationship of pressure, temperature, and composition of the refrigerant to quality of the refrigerant, the supercooled liquid refrigerant temperature, the high-pressure side pressure, and composition of the refrigerant at charge; computes a low-pressure two-phase refrigerant quality from the previously determined relationship of pressure, temperature, and composition of the refrigerant to quality of the refrigerant, the two-phase refrigerant temperature, the low-pressure side pressure, and the composition of the refrigerant at charge; and determines the computation result of the composition computing function unit as correct, if it is determined that the high-pressure supercooled refrigerant quality is less than or equal to 0 and that the low-pressure two-phase refrigerant quality is greater than 0. 6. The air-conditioning apparatus of claim 2 , wherein the composition determining function unit makes a determination while allowing for a margin to avoid an erroneous determination due to a shift in parameter calculation result, the shift in parameter calculation result being caused by at least one of a difference between the circulating composition computed by the composition computing function unit and the composition of the refrigerant at charge and detection errors introduced by the supercooled liquid temperature detecting device, the high-pressure side pressure detecting device, the two-phase refrigerant temperature detecting device, and the low-pressure side pressure detecting device.