Refrigeration apparatus

The invention claimed is: 1. A refrigeration apparatus including a refrigerant circuit that includes a compressor, a heat-source-side heat exchanger, and a plurality of utilization-side units each including an utilization-side heat exchanger and an expansion valve and arranged in parallel, the refrigerant circuit being configured to perform a refrigeration cycle where a high pressure is equal to or greater than a critical pressure of a refrigerant, each of the plurality of utilization-side units being configured to perform an operation in which the utilization-side heat exchanger functions as a radiator, and an operation in which the utilization-side heat exchanger functions as an evaporator, the refrigeration apparatus being configured to perform at least a heat application operation in which all of the utilization-side heat exchangers function as a radiator, wherein the plurality of utilization-side units are capable of separately setting respective set temperatures, the refrigeration apparatus further comprises a controller configured to set a reference temperature higher than the highest set temperature among the set temperatures for the plurality of utilization-side units, and separately control an opening degree of the expansion valve of each of the plurality of utilization-side units so that a temperature of the refrigerant at an outlet of the utilization-side heat exchanger of each of the plurality of utilization-side units reaches the reference temperature, in the heat application operation, and control of the opening degrees of the expansion valves of the plurality of utilization-side units on a basis of the set reference temperature reduces a difference among amounts of refrigerant accumulated in the plurality of utilization-side heat exchangers of the respective plurality of utilization-side units. 2. The refrigeration apparatus of claim 1 , wherein the controller controls an operating capacity of the compressor so that a high pressure of the refrigeration cycle reaches a predetermined reference high pressure when the heat-source-side heat exchanger functions as an evaporator in the heat application operation. 3. The refrigeration apparatus of claim 2 , wherein the controller increases the reference high pressure if the expansion valve of at least one of the utilization-side units is fully open, and decreases the reference high pressure if the expansion valves of all the utilization-side units are not fully open, when the heat-source-side heat exchanger functions as an evaporator in the heat application operation. 4. The refrigeration apparatus of claim 1 , wherein the refrigerant circuit further includes a cooling heat exchanger capable of functioning as an evaporator during the heat application operation, and a heat-source-side expansion valve provided to be associated with the heat-source-side heat exchanger and having a variable opening degree, and the controller controls the opening degree of the heat-source-side expansion valve so that the temperature of the refrigerant at the outlet of the heat-source-side heat exchanger reaches a predetermined heat-source-side reference temperature, when the heat-source-side heat exchanger functions as a radiator and the cooling heat exchanger functions as an evaporator in the heat application operation. 5. The refrigeration apparatus of claim 1 , further comprising: an outdoor fan for sending outdoor air to the heat-source-side heat exchanger, wherein the heat-source-side heat exchanger is configured to exchange heat between outdoor air send from the outdoor fan and the refrigerant, the refrigerant circuit further includes a cooling heat exchanger capable of functioning as an evaporator during the heat application operation, and the controller controls an amount of air sent from the outdoor fan so that a high pressure of the refrigeration cycle reaches a predetermined reference high pressure when the heat-source-side heat exchanger functions as a radiator and the cooling heat exchanger functions as an evaporator in the heat application operation.