Waste heat recovery power generation plant for sintering facility

The invention claimed is: 1. A waste heat recovery power generation plant to be applied to a sintering facility including a sintering machine and a sintered-ore cooler, the waste heat recovery power generation plant comprising: a multi-stage type steam turbine including a high-pressure stage, an intermediate-pressure stage and a low-pressure stage and being joined to a power generator; a sintered-ore-cooler waste heat boiler configured to heat condensate of the multi-stage type steam turbine by introducing an exhaust gas of the sintered-ore cooler so as to generate hot water and steam; and a sintering-machine waste heat boiler configured to heat all of or a part of the hot water generated by the sintered-ore-cooler waste heat boiler by introducing a high temperature part of an exhaust gas of the sintering machine so as to generate steam, wherein: the steam generated by the sintered-ore-cooler waste heat boiler and the steam generated by the sintering-machine waste heat boiler are supplied to a high-pressure stage of the multi-stage type steam turbine; a temperature of the hot water to be supplied to the sintering-machine waste heat boiler is controlled such that a temperature of the exhaust gas at an exhaust-gas outlet of the sintering-machine waste heat boiler is maintained to be higher than an acid dew point; the sintered-ore-cooler waste heat boiler includes a first evaporator, a first superheater, a first economizer and a first steam drum; the sintering-machine waste heat boiler includes at least a second evaporator, a second superheater and a second steam drum; the first economizer is configured to heat the condensate of the multi-stage type steam turbine, and the heated hot water is supplied to the first steam drum and is directly or indirectly supplied to the sintering-machine waste heat boiler; and steam generated by the first evaporator and the first superheater and steam generated by the second evaporator and the second superheater are supplied to the high-pressure stage of the multi-stage type steam turbine, the waste heat recovery power generation plant further comprising a steam extractor configured to generate steam by means of heat of the hot water supplied from the first economizer of the sintered-ore-cooler waste heat boiler and configured to supply the generated steam to the multi-stage type steam turbine, wherein hot water discharged from the steam extractor is supplied to the sintering-machine waste heat boiler; the steam extractor includes a first stage flasher configured to supply steam to an intermediate-pressure stage of the multi-stage type steam turbine, and a second stage flasher configured to supply steam to a low-pressure stage of the multi-stage type steam turbine; the first economizer is configured to heat condensate of the multi-stage type steam turbine and returned hot water of the second stage flasher, and the heated hot water is supplied to the first stage flasher and the first steam drum; and hot water discharged from the first stage flasher is supplied to the second stage flasher and the sintering-machine waste heat boiler. 2. The waste heat recovery power generation plant for sintering facility according to claim 1 , wherein: the sintering-machine waste heat boiler further includes a second economizer; the hot water discharged from the first stage flasher is supplied to the second stage flasher and the second economizer of the sintering-machine waste heat boiler; and hot water heated by the second economizer is supplied to the second steam drum. 3. The waste heat recovery power generation plant for sintering facility according to claim 2 , wherein the hot water heated by the second economizer is supplied to the second steam drum and the first stage flasher. 4. The waste heat recovery power generation plant for sintering facility according to claim 1 , wherein the temperature of the hot water to be supplied to the sintering-machine waste heat boiler is controlled such that the temperature of the exhaust gas at the exhaust-gas outlet of the sintering-machine waste heat boiler is maintained within a range between 160° C. and 200° C. 5. The waste heat recovery power generation plant for sintering facility according to claim 4 , wherein the temperature of the hot water to be supplied to the sintering-machine waste heat boiler is controlled within a range between 140° C. and 180° C. 6. A waste heat recovery power generation plant to be applied to a sintering facility including a sintering machine and a sintered-ore cooler, the waste heat recovery power generation plant comprising: a multi-stage type steam turbine including a high-pressure stage, an intermediate-pressure stage and a low-pressure stage and being joined to a power generator; a sintered-ore-cooler waste heat boiler configured to heat condensate of the multi-stage type steam turbine by introducing an exhaust gas of the sintered-ore cooler so as to generate hot water and steam; and as sintering-machine waste heat boiler configured to heat all of or a part of the hot water generated by the sintered-ore-cooler waste heat boiler by introducing a high temperature part of an exhaust gas of the sintering machine so as to generate steam, wherein: the steam generated by the sintered-ore-cooler waste heat boiler and the steam generated by the sintering-machine waste heat boiler are supplied to a high-pressure stage of the multi-stage type steam turbine; a temperature of the hot water to be supplied to the sintering-machine waste heat boiler is controlled such that a temperature of the exhaust gas at an exhaust-gas outlet of the sintering-machine waste heat boiler is maintained to be higher than an acid dew point; the sintered-ore-cooler waste heat boiler includes a first evaporator, a first superheater, a first economizer and a first steam drum; the sintering-machine waste heat boiler includes at least a second evaporator, a second superheater and a second steam drum; the first economizer is configured to heat the condensate of the multi-stage type steam turbine, and the heated hot water is supplied to the first steam drum and is directly or indirectly supplied to the sintering-machine waste heat boiler; and steam generated by the first evaporator and the first superheater and steam generated by the second evaporator and the second superheater are supplied to the high-pressure stage of the multi-stage type steam turbine; the waste heat recovery power generation plant further comprising a steam extractor configured to generate steam by means of heat of the hot water supplied from the first economizer of the sintered-ore-cooler waste heat boiler and configured to supply the generated steam to the multi-stage type steam turbine, wherein the hot water heated by the first economizer is supplied to the steam extractor, the sintering-machine waste heat boiler and the first steam drum; the steam extractor includes a first stage flasher configured to supply steam to an intermediate-pressure stage of the multi-stage type steam turbine, and a second stage flasher configured to supply steam to a low-pressure stage of the multi-stage type steam turbine; and the first economizer is configured to heat condensate of the multi-stage type steam turbine and returned hot water of the second stage flasher, and the heated hot water is supplied to the first stage flasher, the sintering-machine waste heat boiler and the first steam drum. 7. The waste heat recovery power generation plant for sintering facility according to claim 6 , wherein: the sintering-machine waste heat boiler further includes a second economizer; hot water heated by the first economizer is supplied to the first stage flasher, the second economizer of the sintering-machine waste heat boiler and the first