Air-conditioner for vehicle

What is claimed is: 1 . An air-conditioner for a vehicle configured to blow air-conditioning air into an interior of the vehicle, the air-conditioner comprising: a first circuit in which a cooling medium circulates to cool a drive source of the vehicle; a heater heating the cooling medium circulating in the first circuit by consuming power in a storage device installed to the vehicle; a heating heat-exchanger disposed in the first circuit and heating the air-conditioning air passing through the heating heat-exchanger using the cooling medium by exchanging heat with the air-conditioning air passing through the heating heat-exchanger; a first pump disposed in the first circuit and forcing the cooling medium to circulate in the first circuit; a second circuit cooling a heat emitting portion installed to the vehicle, the cooling medium circulating in the first circuit is allowed to circulate in the second circuit; a second pump disposed in the second circuit and forcing the cooling medium to circulate in the second circuit; an adjustment portion connecting the first circuit and the second circuit and controlling a circulation amount of the cooling medium flowing in the first circuit and a circulation amount of the cooling medium flowing in the second circuit; and a control portion controlling the heater, the adjustment portion, the first pump, and the second pump, wherein: the vehicle includes a regenerative device recovering energy by converting kinetic energy to electric energy during deceleration of the vehicle; the storage device is charged with the electric energy recovered by the regenerative device; and when the regenerative device is recovering the electric energy under a consumption required state in which it is determined that power in the storage device needs to be consumed by the air-conditioner, the control portion controls the heater, the adjustment portion, the first pump, and the second pump to heat the cooling medium by driving the heater such that the power in the storage device is converted into heat energy. 2 . The air-conditioner according to claim 1 , wherein: the control portion heats the cooling medium by driving the heater and controls the adjustment portion, the first pump, and the second pump to force the cooling medium circulating in the first circuit to also circulate in the second circuit under the consumption required state. 3 . The air-conditioner according to claim 2 , further comprising: a first temperature sensor detecting a temperature of the cooling medium circulating in the first circuit; and a second temperature sensor detecting a temperature of the cooling medium circulating in the second circuit, wherein: when a temperature detected by the second temperature sensor is lower than a predetermined temperature under the consumption required state, the control portion heats the cooling medium by driving the heater and controls the adjustment portion, the first pump, and the second pump to force the cooling medium circulating in the first circuit to also circulate in the second circuit; and when the temperature detected by the second temperature sensor is higher than or equal to the predetermined temperature under the consumption required state, the control portion heats the cooling medium by driving the heater and controls the adjustment portion and the first pump to force the cooling medium to circulate in the first circuit while preventing the cooling medium from circulating in the second circuit from the first circuit. 4 . The air-conditioner according to claim 3 , wherein: when a temperature detected by the first temperature sensor is higher than or equal to a first predetermined temperature and when the temperature detected by the second temperature sensor is lower than a second predetermined temperature under the consumption required state, the control portion heats the cooling medium by driving the heater and controls the adjustment portion, the first pump, and the second pump to force the cooling medium circulating in the first circuit to also circulate in the second circuit. 5 . The air-conditioner according to claim 3 , further comprising: a radiation heat-exchanger disposed in the second circuit to release an amount of heat of the cooling medium passing through the radiation heat-exchanger to outside air, wherein: the adjustment portion controls a flow rate of the cooling medium flowing to the radiation heat-exchanger; and when a temperature detected by the first temperature sensor is higher than or equal to a first predetermined temperature and when the temperature detected by the second temperature sensor is higher than or equal to a second predetermined temperature under the consumption required state, the control portion controls the adjustment portion to adjust a flow rate of the cooling medium passing through the radiation heat-exchanger such that the temperature of the second circuit becomes lower than the second predetermined temperature. 6 . The air-conditioner according to claim 1 , wherein: the heat emitting portion cooled by the second circuit is a fuel cell.