Ice machine including vapor-compression system

What is claimed is: 1. A method comprising: selecting, at a processor, a first set of values for a first set of parameters of one or more hardware components of an ice-making machine, wherein the ice-making machine is configured to, in a freeze mode, cool liquid water using an evaporator to exchange heat with the liquid water; identifying, at the processor, a water temperature at a water inlet of the ice-making machine; identifying, at the processor, an ambient air temperature surrounding the ice-making machine; executing, by the processor, a model of the freeze mode of the ice-making machine, wherein executing the model of the freeze mode includes: determining, by the processor, whether a predetermined amount of liquid water in a receptacle of the ice-making machine is frozen and in response to a determination that the predetermined amount of liquid water in the receptacle of the ice-making machine is not frozen, calculating, by the processor, a second set of parameters of the ice-making machine based on at least a portion of the first set of values, the water temperature and the ambient temperature, the second set of parameters corresponding to operation of the ice-making machine in the freeze mode in which the liquid water is cooled by the evaporator, wherein the calculation of the second set of parameters is repeated until the predetermined amount of liquid water in the receptacle of the ice-making machine is frozen; and in response to a determination that the predetermined amount of liquid water in the receptacle of the ice-making machine is frozen, executing, by the processor, a model of a harvest mode of the ice-making machine, wherein executing the model of the harvest mode includes: determining, by the processor, whether a predetermined amount of ice in the receptacle of the ice-making machine is melted and in response to a determination that the predetermined amount of ice in the receptacle of the ice-making machine is not melted, calculating, by the processor, a third set of parameters of the ice-making machine based on at least a portion of the first set of values, the water temperature and the ambient temperature, the third set of parameters corresponding to operation of the ice-making machine in the harvest mode during which the predetermined amount of ice is melted until the ice is removed from the evaporator, wherein the first set of parameters includes compressor motor speed, an initial evaporator pressure at a startup of the ice-making machine and an initial condenser pressure at the startup of the ice-making machine. 2. The method of claim 1 , further comprising: selecting, at the processor, a second set of values for the first set of parameters of the one or more hardware components; calculating, by the processor, the second set of parameters of the ice-making machine based on at least a portion of the second set of values; calculating, by the processor, the third set of parameters of the ice-making machine based on at least a portion of the second set of values; and comparing results of the calculations of the second and third sets of parameters based on the first values with the results of the calculations of the second and third sets of parameters based on the second values. 3. The method of claim 2 , wherein the results include energy consumption of the ice-making machine and ice production of the ice-making machine. 4. The method of claim 3 , further comprising designing a vapor-compression system based on the comparison of the results. 5. The method of claim 4 , wherein designing the vapor-compression system includes selecting a compressor based on the comparison of the results. 6. The method of claim 1 , wherein the first set of parameters includes one or more of a compressor capacity, compressor efficiency, geometric parameters of a condenser and the evaporator, and/or an air flow rate of a condenser fan. 7. The method of claim 1 , further comprising displaying, by the processor, values of the second and third sets of parameters. 8. The method of claim 1 , wherein the second and third sets of parameters include energy consumption of the ice-making machine and ice production of the ice-making machine. 9. The method of claim 1 , wherein the second set of parameters includes heat transfer between first and second conduits of a heat exchanger, the first conduit containing condensed refrigerant upstream of an expansion device, the second conduit receiving refrigerant downstream of the evaporator and upstream of a suction inlet of a compressor. 10. The method of claim 1 , wherein the second set of parameters includes a flow area of an expansion device. 11. The method of claim 1 , wherein the third set of parameters includes a flow area of a bypass control valve. 12. The method of claim 1 , wherein calculating the second and third sets of parameters includes using, by the processor, an implicit solver to solve sets of equations to satisfy Kirchhoff's first and second laws at nodes of a vapor-compression system of the ice-making machine.