A gas-filling device (1) in which the design pressure of a pressure accumulator can be reduced while downsizing a compressor includes a compressor (4) and a pressure accumulator (5). In advance, a relationship between a filling pressure and a target flow rate is determined in accordance with the vol
A gas-filling device (1) in which the design pressure of a pressure accumulator can be reduced while downsizing a compressor includes a compressor (4) and a pressure accumulator (5). In advance, a relationship between a filling pressure and a target flow rate is determined in accordance with the volume of a tank (3), the filling pressure is detected, and the target flow rate is determined. A flow rate of a gas to be supplied into the tank (3) is controlled according to the target flow rate. In a case where the target flow rate is equal to or less than a maximum discharge flow rate of the compressor (4), the gas is supplied to the tank (3) only from the compressor (4). In a case where the target flow rate is greater than the maximum discharge flow rate, the gas is supplied to the tank (3) from the compressor (4) and the pressure accumulator (5).
대표청구항▼
1. A gas supply method of supplying a gas to a tank from a compressor and a pressure accumulator, connected in parallel to a gas inlet of the tank, the pressure accumulator being capable of storing the gas compressed by the compressor, comprising: a flow rate determination step of determining a rela
1. A gas supply method of supplying a gas to a tank from a compressor and a pressure accumulator, connected in parallel to a gas inlet of the tank, the pressure accumulator being capable of storing the gas compressed by the compressor, comprising: a flow rate determination step of determining a relationship between a filling pressure that serves as a pressure of the gas to be supplied to the tank and a target flow rate that serves as a target value of a flow rate of the gas to be supplied to the tank before supplying the gas to the tank from the compressor; anda flow rate control step of detecting the filling pressure, determining the target flow rate, and controlling the flow rate of the gas to be supplied into the tank according to the target flow rate, whereinin the flow rate control step, the gas is supplied to the tank only from the compressor in a case where the target flow rate is equal to or less than a maximum discharge flow rate of the compressor, and the gas is supplied to the tank from the compressor and the pressure accumulator in a case where the target flow rate is greater than the maximum discharge flow rate. 2. The gas supply method according to claim 1, wherein in a case where the target flow rate is greater than the maximum discharge flow rate, a flow rate of the gas to be supplied to the tank from the compressor is fixed and a flow rate of the gas to be supplied to the tank from the pressure accumulator is regulated, so that the total flow rate of the gas to be supplied to the tank matches with the target flow rate. 3. A gas supply apparatus for supplying a gas to a tank, comprising: a volume-controllable compressor that compresses the gas to be supplied to the tank;a pressure accumulator connected, in parallel with the compressor, to a gas inlet of the tank, the pressure accumulator being capable of storing the gas compressed by the compressor;a pressure accumulator control valve that regulates a flow rate of the gas flowing out from the pressure accumulator;a flowmeter that detects a flow rate of the gas to be supplied to the tank;a filling pressure meter that detects a pressure of the gas to be supplied to the tank; anda controller that controls the volume of the compressor and an opening degree of the pressure accumulator control valve, whereinthe controller determines a relationship between a filling pressure that serves as a pressure of the gas to be supplied to the tank and a target flow rate that serves as a target value of a flow rate of the gas to be supplied to the tank before supplying the gas to the tank from the compressor, determines the target flow rate based on the pressure detected by the filling pressure meter, closes the pressure accumulator control valve and supplies the gas to the tank only from the compressor in a case where the target flow rate is equal to or less than a maximum discharge flow rate of the compressor, and opens the pressure accumulator control valve and supplies the gas to the tank from the compressor and the pressure accumulator in a case where the target flow rate is greater than the maximum discharge flow rate. 4. The gas supply apparatus according to claim 3, wherein the compressor has a return line that provides communication between the discharge side and the suction side,a volume regulating valve whose opening degree is regulatable is provided in the return line, andthe target flow rate having reached the maximum discharge flow rate of the compressor is determined by the volume regulating valve being totally closed. 5. The gas supply apparatus according to claim 3, wherein the rotation number of the compressor is controllable, andthe fact that the target flow rate reaches the maximum discharge flow rate of the compressor is determined by the fact that the rotation number becomes the maximum rotation number. 6. The gas supply apparatus according to claim 3, comprising: a plurality of pressure accumulators that includes the pressure accumulator, whereinthe pressure accumulators are arranged in parallel to each other and store gases at different pressures from each other, andthe controller supplies the gas to the tank from any one of the pressure accumulators in accordance with the pressure detected by the filling pressure meter. 7. The gas supply apparatus according to claim 3, wherein the compressor is a reciprocating compressor. 8. The gas supply apparatus according to claim 3, having: a nozzle that fits an in-vehicle tank mounted in a fuel cell-powered vehicle.
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