Method for selecting heat medium of use side heat exchanger in installing air-conditioning system

The invention claimed is: 1. A method for selecting a heat medium of each of a plurality of use side heat exchangers in installing an air-conditioning system in which a plurality of spaces are air-conditioning spaces and two types of circulation heat media including a refrigerant and a nontoxic medium are allowed to coexist as the circulation heat media of a use side heat exchanger installed in each of the plurality of spaces, the method comprising: a first step of determining power required for the use side heat exchanger assuming that the refrigerant is used and corresponding to each air-conditioned space; a second step of calculating a total refrigerant amount required when the refrigerant is circulated through all the use side heat exchangers having the determined power; a third step of calculating a refrigerant concentration when the total refrigerant amount leaks to each air-conditioned space using the refrigerant, for each air-conditioned space; a fourth step of determining whether or not the refrigerant concentration for each air-conditioned space exceeds a predetermined limit concentration; a fifth step of, when there are any air-conditioned spaces exceeding the limit concentration in the fourth step, selecting the nontoxic medium as the circulation heat medium of a use side heat exchanger installed in one of the air-conditioned spaces; and a sixth step of calculating a total refrigerant amount required when the refrigerant is circulated through all the use side heat exchangers other than the use side heat exchanger in which the nontoxic medium is selected, as the total refrigerant amount in the third step. 2. The method for selecting the heat medium of claim 1 , wherein, in the fifth step, the nontoxic medium is used as the circulation heat medium of the use side heat exchanger farthest from a relay unit which switches a flow of the refrigerant to each use side heat exchanger in accordance with operation states of the plurality of use side heat exchangers. 3. The method for selecting the heat medium of claim 1 , wherein, in the fifth step, the nontoxic medium is used as the circulation heat medium of the use side heat exchanger that makes a reduction of the total refrigerant amount to be maximum. 4. The method for selecting the heat medium of claim 1 , wherein, in the fifth step, the nontoxic medium is used as the circulation heat medium of the use side heat exchanger corresponding to the air-conditioned space having a smallest volume, among the air-conditioned spaces. 5. The method for selecting the heat medium of claim 1 , wherein an air-conditioned space for which the nontoxic medium is selected as the circulation heat medium in the fifth step is selected from among the air-conditioned spaces exceeding the limit concentration in the fourth step. 6. The method for selecting the heat medium of claim 1 , wherein a mixed operation of a cooling operation and a heating operation is enabled among the plurality of air-conditioned spaces. 7. The method for selecting the heat medium of claim 1 , wherein, the use side heat exchangers are installed such that the use side heat exchangers configured in advance such that the nontoxic medium circulates, are used as the use side heat exchangers in which the nontoxic medium is selected as the circulation heat medium.