Steam turbine plant

The invention claimed is: 1. A steam turbine plant comprising: a boiler configured to change water into steam; a high pressure turbine including plural stages of rotor vanes and plural stages of stator vanes, and configured to be driven by the steam from the boiler; a reheater configured to heat the steam exhausted from the high pressure turbine; a reheat turbine including plural stages of rotor vanes and plural stages of stator vanes, and configured to be driven by the steam from the reheater; a condenser configured to change the steam exhausted from the reheat turbine into water; a collector configured to collect water from the steam which exists upstream of an inlet of the final-stage rotor vane in the high pressure turbine, or from the steam exhausted from the high pressure turbine to be provided to the reheater to drive the reheat turbine; and a collected matter path configured to cause collected matter in the collector to flow into: the steam between an outlet of the final-stage rotor vane of the high pressure turbine and an inlet of the final-stage rotor vane of the reheat turbine, the steam between a collection place of the collected matter and the inlet of the final-stage rotor vane in the high pressure turbine, the steam extracted from an extraction port of the high pressure turbine or the reheat turbine, wherein the collected matter having passed no feed-water heater flows into the extracted steam from the extraction port, a feed-water heater configured to receive the extracted steam from the extraction port through no feed-water heater and heat the water exhausted from the condenser and flowing between the condenser and the boiler by using the extracted steam merged with the collected matter which has passed no feed-water heater, wherein the collector collects the water from the steam which exists upstream of the inlet of the final-stage rotor vane in the high pressure turbine, or a feed-water-pump-driving steam turbine configured to receive the extracted steam from the extraction port and be driven by the extracted steam merged with the collected matter which has passed no feed-water heater. 2. The plant of claim 1 , wherein the collected matter path is configured to cause the collected matter to flow into: a position between the high pressure turbine and the reheater, a position between the reheater and the reheat turbine, an inlet or a halfway stage of the reheat turbine, or the reheater. 3. The plant of claim 1 , further comprising a gas-liquid separator disposed on the collected matter path, and configured to separate the collected matter or resultant matter changed from the collected matter into a gas and a liquid, wherein the collected matter path is configured to cause the separated gas to flow into: the steam between the outlet of the final-stage rotor vane of the high pressure turbine and the inlet of the final-stage rotor vane of the reheat turbine, or the steam between the collection place of the collected matter and the inlet of the final-stage rotor vane in the high pressure turbine. 4. The plant of claim 3 , wherein the collected matter path is configured to cause the separated gas to flow into: a position between the high pressure turbine and the reheater, a position between the reheater and the reheat turbine, an inlet or a halfway stage of the reheat turbine, the reheater, or a position between the collection place of the collected matter and the inlet of the final-stage rotor vane in the high pressure turbine. 5. The plant of claim 1 , wherein the collected matter path is configured to cause the collected matter to flow into: the feed-water heater configured to receive the extracted steam, and to heat the water from the condenser, the feed-water-pump-driving steam turbine disposed between the extraction port and the condenser, and configured to receive the extracted steam, or the extracted steam between the extraction port and the feed-water heater or the feed-water-pump-driving steam turbine. 6. The plant of claim 3 , wherein the separated liquid is caused to flow into: the feed-water heater configured to receive the extracted steam, and to heat the water from the condenser, the feed-water-pump-driving steam turbine disposed between the extraction port and the condenser, and configured to receive the extracted steam, or the extracted steam between the extraction port and the feed-water heater or the feed-water-pump-driving steam turbine. 7. The plant of claim 1 , wherein the collector is a moisture separator configured to separate water from the steam exhausted from the high pressure turbine, and to collect at least the separated water as the collected matter, and the collected matter path is configured to cause the collected matter to flow into: the extracted steam from the extraction port, the feed-water heater configured to receive the extracted steam, or the feed-water-pump-driving steam turbine configured to receive the extracted steam. 8. The plant of claim 7 , wherein the collected matter path is configured to cause the collected matter to flow into the feed-water heater configured to receive the extracted steam, and to heat the water from the condenser, the feed-water-pump-driving steam turbine disposed between the extraction port and the condenser, and configured to receive the extracted steam, or the extracted steam between the extraction port and the feed-water heater or the feed-water-pump-driving steam turbine. 9. The plant of claim 1 , wherein the collected matter path comprises a valve configured to stop a circulation of the collected matter, or to adjust a flow rate of the collected matter. 10. The plant of claim 3 , further comprising a separated liquid path configured to cause the separated liquid to circulate, wherein the collected matter path comprises a valve disposed downstream of the gas-liquid separator, and configured to stop a circulation of the separated gas or to adjust a flow rate of the separated gas, and the separated liquid path comprises a valve configured to stop a circulation of the separated liquid, or to adjust a flow rate of the separated liquid. 11. A steam turbine plant comprising: a boiler configured to change water into steam; a high pressure turbine including plural stages of rotor vanes and plural stages of stator vanes, and configured to be driven by the steam from the boiler; a reheater configured to heat the steam exhausted from the high pressure turbine; a reheat turbine including plural stages of rotor vanes and plural stages of stator vanes, and configured to be driven by the steam from the reheater; a condenser configured to change the steam exhausted from the reheat turbine into water; a collector configured to collect water from the steam which exists upstream of an inlet of the final-stage rotor vane in the high pressure turbine, or from the steam exhausted from the high pressure turbine to be provided to the reheater to drive the reheat turbine; and a collected matter path configured to cause collected matter in the collector to flow into: the steam between an outlet of the final-stage rotor vane of the high pressure turbine and an inlet of the final-stage rotor vane of the reheat turbine, the steam between a collection place of the collected matter and the inlet of the final-stage rotor vane in the high pressure turbine, the steam extracted from an extraction port of the high pressure turbine or the reheat turbine to a steam path different from the collected matter path, wherein the collected matter having passed no feed-water heater flows into the extracted steam from the extraction port at a merging place of the collected matter p