Heat-source selecting device for heat source system, method thereof, and heat source system

The invention claimed is: 1. A heat source system comprising: a plurality of heat source units can cool or heat a first heating medium by using heat-source water supplied from a plurality of heat sources; a heating-medium pipe for circulating a second heating medium; a heat-source-water pipe for circulating the heat-source water from the heat sources; a heat transmitting pipe which is provided in a first heat exchanger for performing heat exchange between the heat-source water or the second heating medium and a circulating refrigerant in each of the heat source units, and configured to circulate the heat-source water or the second heating medium; a pipe switching device for selectively switching the pipe to be connected to the heat transmitting pipe between the heat-source-water pipe and the heating-medium pipe, in some of the heat source units among the plurality of heat source units; a circulation switching portion for switching a flow of the circulating refrigerant in said some of the heat source units; and a connection-configuration controlling portion for switching between a connection configuration that includes a cascade connection and a connection configuration that does not include a cascade connection by controlling the pipe switching device and the circulation switching device wherein the connection-configuration controlling portion includes: a computing portion for calculating a coefficient of performance of the heat source system for when the cascade connection is included and a coefficient of performance of the heat source system for when the cascade connection is not included; and a selecting portion for selecting the connection configuration for which the coefficient of performance calculated by the computing portion is the highest, the connection-configuration controlling portion configured to control the pipe switching device and the circulation switching device in accordance with the connection configuration selected by means of the selecting portion. 2. The heat source system according to claim 1 , wherein, when computing the coefficient of performance of the heat source system for when the cascade connection is included, the computing portion configured to calculate a coefficient of performance for a first heat-source-unit group formed of the heat source units in which the heat transmitting pipe connects to the heat-source-water pipe and a coefficient of performance for a second heat-source-unit group formed of the heat source units in which the heat transmitting pipe connects to the heating-medium pipe and to calculate the coefficient of performance of the heat source system by using the calculated coefficients of performance. 3. The heat source system according to claim 2 , wherein the coefficient of performance of the first heat-source-unit group is computed by using predetermined computation formulas whose parameters include a heat-source-water outlet temperature, an outlet temperature of the first heating medium, and a heat-source-unit load factor, and the coefficient of performance of the second heat-source-unit group is computed by using predetermined computation formulas whose parameters include a inlet temperature of the first heating medium, a outlet temperature of the second heating medium, and a heat-source-unit load factor. 4. The heat source system according to claim 2 , wherein the first heating medium produced in the first heat-source-unit group is supplied to air-conditioning equipment for heating purposes, and the second heating medium produced in the second heat-source-unit group is supplied to hot-water supplying equipment. 5. The heat source system according to claim 3 , wherein the first heating medium produced in the first heat-source-unit group is supplied to air-conditioning equipment for heating purposes, and the second heating medium produced in the second heat-source-unit group is supplied to hot-water supplying equipment. 6. The heat source system according to claim 1 , wherein a central control device that collectively manages a usage state of the unused heat around a facility in which the heat source system is installed, wherein the central control device provides the heat source system with information including a potential temperature and amount of potential heat of the unused heat for the facility. 7. The heat source system according to claim 2 , wherein a central control device that collectively manages a usage state of the unused heat around a facility in which the heat source system is installed, wherein the central control device provides the heat source system with information including a potential temperature and amount of potential heat of the unused heat for the facility. 8. The heat source system according to claim 3 , wherein a central control device that collectively manages a usage state of the unused heat around a facility in which the heat source system is installed, wherein the central control device provides the heat source system with information including a potential temperature and amount of potential heat of the unused heat for the facility. 9. The heat source system according to claim 4 , wherein a central control device that collectively manages a usage state of the unused heat around a facility in which the heat source system is installed, wherein the central control device provides the heat source system with information including a potential temperature and amount of potential heat of the unused heat for the facility. 10. The heat source system according to claim 5 , wherein a central control device that collectively manages a usage state of the unused heat around a facility in which the heat source system is installed, wherein the central control device provides the heat source system with information including a potential temperature and amount of potential heat of the unused heat for the facility. 11. The heat source system according to claim 5 , further comprising: a heat-source selecting device that is employed in the heat source system in which the plurality of heat sources can be utilized and that selects a heat source to be used, wherein the plurality of heat sources include unused heat, and wastewater generated in a facility in which an external load that receives a supply of the first or the second heating medium heated or cooled in the heat source system is installed, the heat-source selecting device comprising: a potential determining portion for determining potential temperatures that serve as evaluated values related to temperatures of the individual heat sources and amounts of potential heat that serve as evaluated values related to amounts of heat of the individual heat sources; and a judging portion for identifying heat sources having the amounts of potential heat higher than a threshold set in advance; for selecting, from among the identified heat sources, the heat source having the highest potential temperature, in the case of heating purposes; and for selecting, from among the identified heat sources, the heat source having the lowest potential temperature, in the case of cooling purposes. 12. The heat source system according to claim 11 , further comprising: a scheduling portion for storing information in which at least one of the heat sources is associated with a preferential-use period thereof, the preferential-use period being a period in which the corresponding heat source is preferentially selected, wherein the judging portion is configured to select the heat sources based on the information stored in the scheduling portion. 13. The heat source system according to claim 12 , wherein an additional heat source i