Outdoor unit and air-conditioning apparatus

The invention claimed is: 1. An outdoor unit comprising: a compressor that compresses a flammable refrigerant; a heat source side heat exchanger exchanging heat between the refrigerant and air in an unconditioned space; an outdoor unit air-sending device disposed at a position where the air is enabled to flow out of a housing to the outside, the outdoor unit air-sending device being driven to maintain a concentration of the refrigerant in the housing at or below a predetermined concentration; and an outdoor unit controller that controls an operation of the compressor and an operation of the outdoor unit air-sending device, wherein the outdoor unit controller allows the outdoor unit air-sending device to operate at a ventilation air flow rate corresponding to an amount of refrigerant in a refrigerant circuit in order to maintain the concentration of the refrigerant at or below the predetermined concentration even when the compressor is stopped, the refrigerant circuit being configured to connect the compressor, the heat source side heat exchanger, an expansion device reducing pressure of the refrigerant and a load side heat exchanger exchanging heat between the refrigerant and a load by piping. 2. The outdoor unit of claim 1 , further comprising: a refrigerant concentration detection device that detects the concentration of the refrigerant in the housing, wherein the outdoor unit air-sending device is driven on the basis of a value detected by the refrigerant concentration detection device. 3. The outdoor unit of claim 2 , further comprising: a blocking device disposed at each of a refrigerant inlet and a refrigerant outlet of the outdoor unit for blocking a flow of the refrigerant; wherein the outdoor unit controller allows the blocking devices to block the flow of the refrigerant on the basis of the value detected by the refrigerant concentration detection device. 4. The outdoor unit of claim 2 , wherein the outdoor unit controller allows the outdoor unit air-sending device to operate at a ventilation air flow rate corresponding to an amount of refrigerant in the outdoor unit among the refrigerant circuit. 5. The outdoor unit of claim 1 , wherein when an amount of refrigerant is m (kg), a ventilation air flow rate provided by the outdoor unit air-sending device is greater than or equal to 0.55×m (m3/min). 6. The outdoor unit of claim 5 , wherein the refrigerant amount m (kg) in the outdoor unit is a maximum amount of refrigerant permitted to exist in the outdoor unit, the maximum amount being based on a refrigerant state in an operation performed by the outdoor unit. 7. The outdoor unit of claim 5 , wherein the refrigerant amount m (kg) in the outdoor unit is a product of a sum (m3) of internal volumes of refrigerant pipes and devices through which the refrigerant passes in the outdoor unit and density (kg/m3) of the refrigerant. 8. The outdoor unit of claim 5 , wherein the refrigerant amount m (kg) in the outdoor unit is a product of a sum (m3) of internal volumes of refrigerant pipes and devices through which the refrigerant passes in the outdoor unit and 1000 (kg/m3). 9. The outdoor unit of claim 1 , wherein the refrigerant is R32 and a ventilation air flow rate provided by the outdoor unit air-sending device is greater than or equal to 0.784×m (m3/min). 10. The outdoor unit of claim 1 , wherein the refrigerant is HFO1234yf and a ventilation air flow rate Q provided by the outdoor unit air-sending device is greater than or equal to 0.830×m (m3/min). 11. The outdoor unit of claim 1 , wherein the refrigerant is a refrigerant mixture of at least HFO1234yf and R32 and the rate of ventilation air flow provided by the outdoor unit air-sending device is greater than or equal to (0.784×a proportion (%) of the R32 +0.830×a proportion (%) of the HFO1234yf)×m (m3/min). 12. The outdoor unit of claim 1 , wherein the refrigerant is propane and a ventilation air flow rate provided by the outdoor unit air-sending device is greater than or equal to 6.3×m (m3/min). 13. The outdoor unit of claim 1 , wherein the outdoor unit air-sending device is further driven to send air to the heat source side heat exchanger in order to facilitate heat exchange between the air and the refrigerant. 14. An air-conditioning apparatus comprising: a refrigerant circuit that includes the compressor, the heat source side heat exchanger, an expansion device reducing pressure of the refrigerant, and a load side heat exchanger exchanging heat between the refrigerant and a load such that the compressor, the heat source side heat exchanger, the expansion device, and the load side heat exchanger are connected by piping, the compressor and the heat source side heat exchanger being included in the outdoor unit of claim 1 , wherein the load side heat exchanger exchanges heat between air in a space to be conditioned, serving as the load, and the refrigerant. 15. An air-conditioning apparatus comprising: a refrigerant circuit mechanism functioning as a refrigerant circuit that includes the compressor, the heat source side heat exchanger, an expansion device reducing pressure of the refrigerant, and a load side heat exchanger exchanging heat between the refrigerant and a load such that the compressor, the heat source side heat exchanger, the expansion device, and the load side heat exchanger are connected by piping, the compressor and the heat source side heat exchanger being included in the outdoor unit of claim 1 ; and a heat medium side mechanism functioning as a heat medium circuit that includes a heat medium sending device for circulating a heat medium, serving as the load related to heat exchange by the load side heat exchanger, and a use side heat exchanger exchanging heat between the heat medium and air related to a space to be conditioned such that the heat medium sending device and the use side heat exchanger are connected by piping. 16. The air-conditioning apparatus of claim 15 , wherein the refrigerant circuit mechanism includes a plurality of load side heat exchangers connected by piping, and wherein the heat medium circuit includes a plurality of the heat medium sending devices and a heat medium flow switching device which are further connected by piping, each heat medium sending device circulating the heat medium related to heat exchange by the corresponding load side heat exchanger, the heat medium flow switching device being configured to select either a heat medium cooled by the plurality of load side heat exchangers or a heat medium heated by the plurality of load side heat exchangers and switch between passages through which the heat medium flows to the use side heat exchanger. 17. The air-conditioning apparatus of claim 15 , further comprising: a load side air-sending device driven to maintain a concentration of the refrigerant in a housing accommodating at least one of the load side heat exchangers at or below a predetermined concentration; and a load side refrigerant concentration detection device that detects the concentration of the refrigerant in the housing accommodating at least one of the load side heat exchangers, wherein the load side air-sending device is operated on the basis of a value detected by the load side refrigerant concentration detection device. 18. The air-conditioning apparatus of claim 17 , further comprising: the outdoor unit disposed outside of a structure or a machine room positioned outside of the structure; and the housing disposed in a space which is inside of the structure and is different from the space to be conditioned and includes