A power plant system is disclosed. The power plant system includes a combustor, a turbine configured to generate electricity, a carbon capture system configured to remove at least a portion of carbon-based gasses from the flue gas downstream from the combustor, and a thermal storage system including a hot storage unit configured to store heat generated at least by resistively-heated gas at a hot temperature, the hot temperature greater than ambient temperature. The power plant is configured to operate in at least a first mode for storing thermal energy in the thermal storage system and a second mode for releasing the stored thermal energy from the thermal storage system and during the second mode, heat stored in the hot storage unit is transferred to the carbon capture system.

A method and an apparatus for detecting breakage of piping, the method including the steps of: closing an outlet of heat exchanger tubes with an outlet-side shutoff valve; supplying high-temperature water into the heat exchanger tubes with a desalinated water pump; closing an inlet of the heat exchanger tubes with an inlet-side main shutoff valve and an inlet-side auxiliary shutoff valve with the heat exchanger tubes filled with the high-temperature water; and determining breakage of the heat exchanger tubes based on a change in the pressure of the high-temperature water in the heat exchanger tubes with the inlet and the outlet closed.

A turbine engine assembly includes a core engine that generates an exhaust gas flow, a condenser where water is extracted from the exhaust gas flow, an evaporator where heat is input into the water that is extracted by the condenser to generate a first steam flow, a first steam turbine where the first steam flow is expanded and cooled to generate a first cooled flow, a bypass passage that defines a path for the first steam flow around the first steam turbine, and a superheater where at least one of the first steam flow and the first cooled flow is reheated to generate a second steam flow.