Boiler, steam-generating plant provided with same, and method for operating boiler

The invention claimed is: 1. A boiler comprising: a boiler outer frame through which a combustion gas flows toward a downstream side which is an exhaust port side; one or more evaporators having at least a portion thereof located in the boiler outer frame and configured to heat water with the combustion gas to generate steam; an economizer located on the downstream side of the most downstream evaporator which is an evaporator at the most downstream side among the one or more evaporators in the boiler outer frame and configured to heat water sent to the most downstream evaporator with the combustion gas; a low-temperature heat exchanger located on the downstream side of the economizer, having an inlet which receives water from the outside, and configured to heat the water introduced from the inlet and sent to the economizer with the combustion gas; and a mist separator which separates mist liquefied from moisture contained in the combustion gas from the combustion gas, wherein the mist separator is disposed in a region in which the low-temperature heat exchanger is disposed and/or on the downstream side of the region in upstream and downstream directions in which the combustion gas flows and is away from the low-temperature heat exchanger, wherein the low-temperature heat exchanger includes a plurality of low-temperature heat exchange portions arranged in the upstream and downstream directions, wherein the mist separator is disposed at least at one interval among intervals between the plurality of low-temperature heat exchange portions in the upstream and downstream directions, and wherein the mist separator is disposed at least at a plurality of positions including the intervals between the plurality of low-temperature heat exchanger portions, and the downstream side of the low-temperature heat exchanger portion disposed at the most downstream side in the upstream and the downstream directions. 2. A method for operating a boiler, the boiler including: a boiler outer frame through which a combustion gas flows toward a downstream side which is an exhaust port side; one or more evaporators having at least a portion thereof located in the boiler outer frame and configured to heat water with the combustion gas to generate steam; an economizer located on the downstream side of the most downstream evaporator which is an evaporator at the most downstream side among the one or more evaporators in the boiler outer frame and configured to heat water sent to the most downstream evaporator with the combustion gas; and a low-temperature heat exchanger located on the downstream side of the economizer and configured to heat water sent to the economizer with the combustion gas, the method including executing: an economizer heat exchange process of causing the economizer to exchange heat between the combustion gas and water flowing therein to cool the combustion gas to a temperature higher than a dew point temperature of the combustion gas while heating the water; a low-temperature heat exchange process of causing the low-temperature heat exchanger to exchange heat between the combustion gas cooled by heat exchange in the economizer and water flowing therein to cool the combustion gas until the combustion gas is condensed at least in a part of the low-temperature heat exchanger while heating the water; and a mist separation process of separating mist liquefied from moisture by a mist separator in a region in which the low-temperature heat exchanger is disposed and/or on the downstream side of the region in upstream and downstream directions in which the combustion gas flows, the moisture being contained in the combustion gas from the combustion gas, wherein the mist separator is away from the low-temperature heat exchanger, wherein the low-temperature heat exchanger includes a plurality of low-temperature heat exchange portions arranged in the upstream and downstream directions, wherein the mist separator is disposed at least at one interval among intervals between the plurality of low-temperature heat exchange portions in the upstream and downstream directions, and wherein the mist separator is disposed at least at a plurality of positions including the intervals between the plurality of low-temperature heat exchanger portions, and the downstream side of the low-temperature heat exchanger portion disposed at the most downstream side in the upstream and the downstream directions.