Steam power cycle system

摘要

There is provided a steam power cycle system that permits to perform an appropriate heat exchange between a working fluid that is a non-azeotropic mixture and a heat source, to enhance the performance of the whole system. More specifically, a plurality of condensers are provided so as to be connected to each other in series, and the working fluid in a gas phase from the expander is introduced into the respective condensers. Consequently, the ratio of a low boiling point substance of the working fluid becomes higher toward the posterior condenser, it is possible to make the condensation temperature of the working fluid lower than that of the anterior condenser. It is therefore possible to make the temperature of the working fluid possibly close to the temperature of the low-temperature fluid, thus permitting an effective use of the difference in temperature of the heat source.

主权项

1. A steam power cycle system, which comprises:
an evaporator that causes a working fluid of non-azeotropic mixture to make heat exchange with a predetermined high-temperature fluid and evaporates at least part of said working fluid; a gas-liquid separator that separates the working fluid having a high temperature and obtained by said evaporator into a gas phase substance and a liquid phase substance; an expander that receives the gas phase substance of said working fluid as introduced to convert heat energy held by a fluid into a power; a condenser that causes the working fluid in a gas phase from said expander and the working fluid in a liquid phase from said gas-liquid separator together to make heat exchange with a predetermined low-temperature fluid and condenses the gas phase substance; and a pump that pumps the working fluid from said condenser toward said evaporator, wherein: the condenser is configured as a plurality of condensers, each condenser of said plurality of condensers having a flow channel on a working fluid side, which is connected in series and each condenser of said plurality of condensers having a flow channel on a low-temperature fluid side, which is connected in series, so as to provide a flow channel design in which the low-temperature fluid passes through the respective plurality of condensers in reverse order to an order in which the working fluid passes through the plurality of condensers; the plurality of condensers comprising a first stage condenser and a second stage condenser, the first stage condenser being adjacent to the second stage condenser; a part of the working fluid in the gas phase from said expander is drawn from an outlet of the expander and is directly joined together with the working fluid which is discharged from the first stage condenser at the flow channel between the first and the second stage condensers of the plurality of condensers; and the working fluid in the gas phase is condensed by the first stage condenser of the plurality of condensers which is disposed in proximity to the outlet of said expander in the flow channel for the working fluid, and the working fluid in the gas phase is joined together with the working fluid at the location between the first and the second condensers of the plurality of condensers and the working fluid is also condensed by the second stage condenser, the second stage condenser being distinct from the first stage condenser.