Indoor unit of air-conditioning apparatus and air-conditioning apparatus including the indoor unit

The invention claimed is: 1. An indoor unit for an air-conditioning apparatus, comprising: a casing including an air inlet, an air outlet, and an air passage communicating between the air inlet and the air outlet, the air inlet being located lower than the air outlet; an indoor heat exchanger disposed inside the casing; a drain pan disposed under the indoor heat exchanger and inside the casing; an indoor fan disposed at a downstream side of the indoor heat exchanger in an airflow direction and inside the casing, and configured to supply air to the indoor heat exchanger; a first refrigerant leakage sensor disposed in the air passage between the air inlet and the air outlet at a position lower than the drain pan and the air outlet, and configured to detect refrigerant leakage; and a controller configured to determine whether refrigerant leakage occurs, according to a detection result of the first refrigerant leakage sensor, the indoor unit being a floor-mounted indoor unit. 2. The indoor unit for an air-conditioning apparatus of claim 1 , further comprising a second refrigerant leakage sensor disposed in the air passage between the air inlet and the air outlet at the downstream side of the indoor heat exchanger in the airflow direction, and configured to detect refrigerant leakage, wherein the controller is configured to determine whether refrigerant leakage occurs, according to the detection result of the first refrigerant leakage sensor and a detection result of the second refrigerant leakage sensor. 3. The indoor unit for an air-conditioning apparatus of claim 1 , wherein, upon determining that refrigerant leakage occurs, the controller is configured to increase rotation speed of the indoor fan, when the indoor fan is in operation. 4. The indoor unit for an air-conditioning apparatus of claim 1 , wherein, upon determining that refrigerant leakage occurs, the controller is configured to activate the indoor fan when the indoor fan is out of operation. 5. The indoor unit for an air-conditioning apparatus of claim 4 , further comprising an air inlet opening and closing unit attached to the air inlet and configured to open and close the air inlet, wherein the controller is configured to cause the air inlet opening and closing unit to close the air inlet when the indoor fan is out of operation. 6. The indoor unit for an air-conditioning apparatus of claim 5 , wherein, upon determining that refrigerant leakage occurs, the controller is configured to activate the indoor fan, and to cause the air inlet opening and closing unit to open the air inlet. 7. The indoor unit for an air-conditioning apparatus of claim 1 , further comprising a notification unit to be utilized to notify occurrence of refrigerant leakage, wherein the controller is configured to cause the notification unit to output a notification, upon determining that refrigerant leakage occurs. 8. The indoor unit for an air-conditioning apparatus of claim 7 , wherein the notification unit includes a sound output unit disposed in the casing and configured to output an audible message notifying the occurrence of the refrigerant leakage. 9. An air-conditioning apparatus comprising a refrigerant circuit including the indoor unit of claim 1 , and an outdoor unit connected to the indoor unit via a refrigerant pipe. 10. The air-conditioning apparatus of claim 9 , wherein: the outdoor unit includes a compressor configured to compress refrigerant, and the controller of the indoor unit is configured to stop operation of the compressor, upon determining that refrigerant leakage occurs. 11. The air-conditioning apparatus of claim 9 , wherein the refrigerant circuit is charged with one of an HFO1234yf-based single refrigerant, a mixed refrigerant containing a tetrafluoropropene-based refrigerant, and a flammable refrigerant such as hydrocarbon-based refrigerant. 12. The indoor unit for an air-conditioning apparatus of claim 1 , wherein: the casing includes a sloped portion having a sloped surface inclined upward from a front side toward a rear side and forming a part of the air passage, the sloped portion is located lower than the indoor heat exchanger, and the first refrigerant leakage sensor is located on the sloped portion.