Air-conditioning apparatus

The invention claimed is: 1. An air-conditioning apparatus comprising: a refrigerant circuit having a compressor, a refrigerant flow switching valve, a heat exchanger related to a heat transfer medium, an expansion valve, and a heat source-side heat exchanger, which are connected by a refrigerant pipe to form a refrigeration cycle; a heat transfer medium circuit having the heat exchanger related to the heat transfer medium, a pump, and a plurality of use-side heat exchangers, which are connected by a heat transfer medium pipe; a heat transfer medium supply pipe connected to the heat transfer medium circuit to supply the heat transfer medium; an opening and closing valve provided to the heat transfer medium supply pipe; an air release valve provided in the heat transfer medium pipe, and configured to release air remaining within the heat transfer medium supply pipe; and a controller configured to control the refrigerant flow switching valve, the pump, the opening and closing valve, and the air release valve, wherein the controller is configured to perform a first heating operation in which the heat source-side heat exchanger functions as an evaporator and the heat exchanger related to heat transfer medium functions as a radiator and the pump operates, and a second heating operation while releasing air in which the controller performs the first heating operation and controls both the opening and closing valve and the air release valve to be opened. 2. The air-conditioning apparatus of claim 1 , wherein operation and stopping of the pump are continuously repeated. 3. The air-conditioning apparatus of claim 1 , further comprising: an indoor temperature sensor that detects a temperature in an air-conditioned space; wherein in a case where the detected temperature is less than a predetermined value, the controller performs the second heating operation with releasing air. 4. The air-conditioning apparatus of claim 1 , wherein the air release valve is always open during the heating operation. 5. The air-conditioning apparatus of claim 1 , wherein the heat transfer medium supply pipe is connected directly to the heat transfer medium pipe. 6. The air-conditioning apparatus of claim 1 , wherein the controller is configured to perform a cooling operation in which the heat source-side heat exchanger functions as a radiator and the heat exchanger related to the heat transfer medium functions as an evaporator and the pump operates, and switch the refrigerant flow switching valve to a first position to perform the heating operation and the heating operation with releasing air and to a second position to perform the cooling operation, a discharge side of the compressor being connected to the heat exchanger related to the heat transfer medium and a suction side of the compressor being connected to the heat source-side heat exchanger when the refrigerant flow switching valve is switched to the first position, and the suction side of the compressor being connected to the heat exchanger related to the heat transfer medium and the discharge side of the compressor being connected to the heat source-side heat exchanger when the refrigerant flow switching valve is switched to the second position. 7. An air-conditioning apparatus comprising: a refrigerant circuit having a compressor, a first refrigerant flow switching valve, a plurality of second refrigerant flow switching valves, a plurality of heat exchangers related to a heat transfer medium, a plurality of expansion valves, and a heat source-side heat exchanger, which are connected by a refrigerant pipe to form a refrigeration cycle; a first opening and closing valve provided in the refrigerant pipe; a second opening and closing valve provided in the refrigerant pipe; a heat transfer medium circuit having the heat exchangers related to the heat transfer medium, a pump, a plurality of first heat transfer medium flow switching valves, a plurality of second heat transfer medium flow switching valves and a plurality of use-side heat exchangers, which are connected by a heat transfer medium pipe; a heat transfer medium supply pipe connected to the heat transfer medium circuit to supply the heat transfer medium; a third opening and closing valve provided in the heat transfer medium supply pipe; a plurality of air release valves provided in the heat transfer medium pipe, and configured to release air remaining within the heat transfer medium supply pipe; and a controller configured to control the first refrigerant flow switching valve, the second refrigerant flow switching valves, the pump, the first opening and closing valve, the second opening and closing valve, the third opening and closing valve, the first heat transfer medium flow switching valves, the second heat transfer medium flow switching valves, and the air release valves, wherein the refrigerant pipe includes a first pipe having first and second ends, and provided with the second opening and closing valve, a second pipe having a first end connected to the first refrigerant flow switching valve or the heat source-side heat exchanger and a second end connected to the second refrigerant flow switching valves and the first end of the first pipe, a third pipe having a first end connected to the heat source-side heat exchanger or the first refrigerant flow switching valve and a second end connected to the expansion valves and the second end of the first pipe, and provided with the first opening and closing valve, and a fourth pipe having a first end connected to a first flow path of the third pipe, the first flow path being positioned downstream of the first opening and closing valve, and a second end connected to the second refrigerant flow switching valves, wherein the second end of the first pipe is connected to a second flow path of the third pipe between the first opening and closing valve and the expansion valves, wherein the second end of the second pipe and the second end of the fourth pipe are connected to the second refrigerant flow switching valves, respectively, wherein the second end of the third pipe is connected to the expansion valves in parallel, wherein the heat exchanger related to the heat transfer medium is connected between the second refrigerant flow switching valve and the expansion valve, wherein the first heat transfer medium flow switching valve includes a first inlet connected to the use-side heat exchangers and a plurality of first outlets connected to the heat exchangers related to the heat transfer medium, wherein the second heat transfer medium flow switching valve includes a plurality of second inlets connected to the heat exchangers related to the heat transfer medium and a second outlet connected to the use-side heat exchangers, wherein the air release valves are provided to third flow paths of the heat transfer medium pipe, the third flow paths being connected between the first heat transfer medium flow switching valves and the second heat transfer medium flow switching valves, wherein the controller is configured to perform a cooling operation in which the heat source-side heat exchanger functions as a radiator and the heat exchangers related to the heat transfer medium function as evaporators and the pump operates, a first heating operation in which the heat source-side heat exchanger functions as an evaporator and the heat exchangers related to the heat transfer medium function as a radiators and the pump operates, and a first cooling and heating mixed operation in which the heat source-side heat exchanger functions as the radiator or the evaporator and one or more of the heat exchangers related to the heat transfer medium function as the evaporator and the rest of the heat exchangers related to the heat transfer