Fluid heating system, fluid heating method, fluid heating control system, control apparatus, and control method

The invention claimed is: 1. A fluid heating control system comprising: a fluid circuit configured to circulate fluid between a plurality of heaters arranged in parallel and configured to heat the fluid, the plurality of heaters having a property that heating capacity varies according to flow quantity of the fluid and a COP (coefficient of performance) varies according to the heating capacity, and at least either one of a tank configured to store the fluid and an appliance configured to use the fluid as a heat source; a power meter configured to measure power consumption of each of the plurality of heaters; an outdoor air temperature sensor configured to measure an outdoor air temperature; a plurality of regulating valves, each regulating valve configured to regulate the flow quantity of the fluid for a respective heater of the plurality of heaters; and a control apparatus configured to determine the heating capacity of each of the plurality of heaters so that total heating capacity of the plurality of heaters reaches a required heating capacity, and so that a total COP of the plurality of heaters satisfies a predetermined condition, and to control each of the plurality of regulating valves so that the heating capacity of each of the plurality of heaters reaches the determined heating capacity, wherein the control apparatus, based on the determined heating capacity, the power consumption measured by the power meter, and the outdoor air temperature measured by the outdoor air temperature sensor, obtains a relation between the COP and the heating capacity of each of the plurality of heaters according to the outdoor air temperature, and determines the heating capacity of each of the plurality of heaters by referring to the obtained relation. 2. The fluid heating control system of claim 1 , wherein the control apparatus determines the heating capacity of each of the plurality of heaters so that the total heating capacity of the plurality of heaters reaches the required heating capacity, and so in a way that the total COP of the plurality of heaters reaches maximum. 3. A fluid heating system comprising: the fluid heating control system of claim 1 ; and the plurality of heaters to be connected to the fluid heating control system, wherein the plurality of heaters include two or more heaters having different properties. 4. A fluid heating system comprising: the fluid heating control system of claim 1 ; and the plurality of heaters to be connected to the fluid heating control system, wherein the plurality of heaters include two or more heaters having different minimum heat capacities. 5. A fluid heating system comprising: the fluid heating control system of claim 1 ; and the plurality of heaters to be connected to the fluid heating control system, wherein the plurality of heaters include two or more heat pump units using different kinds of refrigerant. 6. A fluid heating system comprising: the fluid heating control system of claim 1 ; and the plurality of heaters to be connected to the fluid heating control system, wherein the plurality of heaters include a heat pump unit and a heater other than the heat pump unit. 7. The fluid heating control system of claim 1 , wherein the control apparatus defines the heating capacity by which the COP of each of the plurality of heaters reaches maximum as optimal capacity, selects at least one heater out of the plurality of heaters, a total optimal capacity of the at least one heater corresponding to the required heating capacity, and controls each of the plurality of regulating valves so that total heating capacity of the at least one heater reaches the required heating capacity. 8. The fluid heating control system of claim 1 , wherein the control apparatus defines the heating capacity by which the COP of each of the plurality of heaters reaches a maximum as optimal capacity, and selects at least one heater having the optimal capacity equal to or less than the required heating capacity, out of the plurality of heaters sequentially from a heater and having the optimal capacity closest to the required heating capacity, and controls each of the plurality of regulating valves so that total heating capacity of the selected heaters reaches the required heating capacity. 9. A fluid heating method comprising: circulating fluid between a plurality of heaters heating the fluid, the plurality of heaters having a property that heating capacity varies according to flow quantity of the fluid and a COP (coefficient of performance) varies according to the heating capacity, and at least either one of a tank storing the fluid and an appliance using the fluid as a heat source; measuring a power consumption of each of the plurality of heaters; measuring an outdoor air temperature; determining the heating capacity of each of the plurality of heaters so that total heating capacity of the plurality of heaters reaches a required heating capacity, and so that a total COP of the plurality of heaters satisfies a predetermined condition; and controlling each of a plurality of regulating valves regulating the flow quantity of the fluid for each of the plurality of heaters so that the heating capacity of each of the plurality of heaters reaches the determined heating capacity, wherein, based on the determined heating capacity, the measured power consumption, and the outdoor air temperature, a relation between the COP and the heating capacity of each of the plurality of heaters is obtained according to the outdoor air temperature, and the heating capacity of each of the plurality of heaters is determined by referring to the obtained relation. 10. A control apparatus connected to a plurality of regulating valves attached to a fluid circuit which circulates fluid between a plurality of heaters heating the fluid, the plurality of heaters having a property that heating capacity varies according to flow quantity of the fluid and a COP (coefficient of performance) varies according to the heating capacity, and at least one of a tank storing the fluid and an appliance using the fluid as a heat source, the control apparatus further being connected to a power meter configured to measure power of each of the plurality of heaters and an outdoor air temperature sensor configured to measure an outdoor air temperature, the control apparatus comprising: a determining part configured to determine the heating capacity of each of the plurality of heaters so that total heating capacity of the plurality of heaters reaches a required heating capacity, and so that a total COP of the plurality of heaters satisfies a predetermined condition, the determining part, based on the determined heating capacity, the power consumption measured by the power meter, and the outdoor air temperature measured by the outdoor air temperature sensor, obtaining a relation between the COP and the heating capacity of each of the plurality of heaters according to the outdoor air temperature, and determining the heating capacity of each of the plurality of heaters by referring to the obtained relation; and a controlling part configured to control each of the plurality of regulating valves so that the heating capacity of each of the plurality of heaters reaches the determined heating capacity.