Plant for manufacturing hydrogen sulfide gas and method for exhausting hydrogen sulfide gas

The invention claimed is: 1. A plant for manufacturing hydrogen sulfide gas, the plant comprising at least: a reaction facility configured to generate hydrogen sulfide gas from sulfur and hydrogen gas; a cooling facility configured to cool generated hydrogen sulfide gas; a sulfur removal facility configured to remove sulfur contained in the hydrogen sulfide gas; and a gas treatment facility configured to render the hydrogen sulfide gas harmless, wherein the plant has exhaust facilities which are provided in the reaction facility, the cooling facility, and the sulfur removal facility, respectively, and configured to exhaust hydrogen sulfide gas leaking from the facilities, and wherein each of the exhaust facilities comprises: an exhaust pipe whose one end branches out into a first exhaust pipe configured to exhaust leaking hydrogen sulfide gas to the air and a second exhaust pipe configured to exhaust leaking hydrogen sulfide gas to the gas treatment facility; a concentration measuring apparatus provided between the corresponding facility and a branch point in the exhaust pipe and configured to measure a concentration of the hydrogen sulfide gas; and a valve mechanism configured to perform control in such a manner that, when the concentration measuring apparatus detects a concentration less than a predetermined concentration, the hydrogen sulfide gas is exhausted from the first exhaust pipe to the air, and when the concentration measuring apparatus detects a concentration not less than a predetermined concentration, the hydrogen sulfide gas is exhausted from the second exhaust pipe to the gas treatment facility. 2. The plant for manufacturing hydrogen sulfide gas according to claim 1 , wherein the valve mechanism comprises: a first valve provided in the first exhaust pipe and configured to control the exhaust to the air via the first exhaust pipe; and a second valve provided in the second exhaust pipe and configured to control the exhaust to the gas treatment facility via the second exhaust pipe. 3. The plant for manufacturing hydrogen sulfide gas according to claim 1 , wherein the exhaust pipe is provided with a fan between the concentration measuring apparatus and the branch point. 4. The plant for manufacturing hydrogen sulfide gas according to claim 1 , further comprising a nitrogen gas supply facility configured to supply nitrogen gas at least to the reaction facility and remove leaking hydrogen sulfide gas from the reaction facility, wherein the nitrogen gas supply facility comprises: a mixed gas exhaust pipe whose one end branches out into a first mixed gas exhaust pipe configured to exhaust the leaking hydrogen sulfide gas together with the nitrogen gas to the air and a second mixed gas exhaust pipe configured to exhaust the leaking hydrogen sulfide gas together with the nitrogen gas to the gas treatment facility; a concentration measuring apparatus provided between the reaction facility and a branch point in the mixed gas exhaust pipe and configured to measure a concentration of the hydrogen sulfide gas; and a valve mechanism configured to perform control in such a manner that, when the concentration measuring apparatus detects a concentration less than a predetermined concentration, the nitrogen gas and the hydrogen sulfide gas are exhausted from the first mixed gas exhaust pipe into the air, and when the concentration measuring apparatus detects a concentration not less than a predetermined concentration, the nitrogen gas and the hydrogen sulfide gas are exhausted from the second mixed gas exhaust pipe to the gas treatment facility. 5. The plant for manufacturing hydrogen sulfide gas according to claim 4 , wherein the valve mechanism of the nitrogen gas supply facility comprises: a first valve provided in the first mixed gas exhaust pipe and configured to control the exhaust to the air via the first mixed gas exhaust pipe; and a second valve provided in the second mixed gas exhaust pipe and configured to control the exhaust to the gas treatment facility via the second mixed gas exhaust pipe. 6. The plant for manufacturing hydrogen sulfide gas according to claim 4 , wherein the mixed gas exhaust pipe is provided with a fan between the concentration measuring apparatus and the branch point. 7. The plant for manufacturing hydrogen sulfide gas according to claim 1 , wherein the predetermined concentration of the hydrogen sulfide gas is 5 ppm. 8. A method for exhausting hydrogen sulfide gas in a plant for manufacturing hydrogen sulfide gas, the plant comprising at least: a reaction facility configured to generate hydrogen sulfide gas from sulfur and hydrogen gas; a cooling facility configured to cool generated hydrogen sulfide gas; a sulfur removal facility configured to remove sulfur contained in the hydrogen sulfide gas; and a gas treatment facility configured to render the hydrogen sulfide gas harmless, wherein the plant for manufacturing hydrogen sulfide gas has exhaust facilities which are provided in the reaction facility, the cooling facility, and the sulfur removal facility, respectively, and configured to exhaust hydrogen sulfide gas leaking from the facilities, wherein each of the exhaust facilities comprises: an exhaust pipe whose one end branches out into a first exhaust pipe configured to exhaust the leaking hydrogen sulfide gas to the air and a second exhaust pipe configured to exhaust the leaking hydrogen sulfide gas to the gas treatment facility; a concentration measuring apparatus provided between the corresponding facility and a branch point in the exhaust pipe and configured to measure a concentration of the hydrogen sulfide gas; and a valve mechanism configured to perform control in such a manner that, when the concentration measuring apparatus detects a concentration less than a predetermined concentration, the hydrogen sulfide gas is exhausted from the first exhaust pipe into the air, and when the concentration measuring apparatus detects a concentration not less than a predetermined concentration, the hydrogen sulfide gas is exhausted from the second exhaust pipe to the gas treatment facility, and comprising, based on a concentration detected by the concentration measuring apparatus, controlling the valve mechanism to exhaust the hydrogen sulfide gas from the first exhaust pipe into the air, or to exhaust the hydrogen sulfide gas from the second exhaust pipe to the gas treatment facility. 9. The method for exhausting hydrogen sulfide gas according to claim 8 , wherein the valve mechanism comprises: a first valve provided in the first exhaust pipe and configured to control the exhaust to the air via the first exhaust pipe; and a second valve provided in the second exhaust pipe and configured to control the exhaust to the gas treatment facility via the second exhaust pipe, wherein, when the concentration measuring apparatus detects a concentration less than a predetermined concentration, the first valve provided in the first exhaust pipe is opened and the second valve is closed, whereby the hydrogen sulfide gas is exhausted into the air, wherein, when the concentration measuring apparatus detects a concentration not less than a predetermined concentration, the second valve is opened and the first valve is closed, whereby the hydrogen sulfide gas is exhausted to the gas treatment facility. 10. The method for exhausting hydrogen sulfide gas according to claim 8 , wherein the plant for manufacturing hydrogen sulfide gas further comprises a nitrogen gas supply facility configured to supply nitrogen gas at least to the reaction facility and remove leaking hydrogen sulfide gas from the reaction facility, wherein the nitrogen gas supply facility comprises: a mixed gas exhaust pipe whose one end