PL415182A1 - Method for feeding the two speed ORC power plant and the arrangement of the the two speed ORC power plant - Google Patents

Abstract

The way of feeding the ORC two-cycle power plant system, consisting of supplying the system from two different heat sources, is characterized by the fact that the steam stream after leaving the evaporator (4) is divided into two streams. The first is directed to the saturated steam circuit for the first turbogenerator (7), and the second to the superheated steam circuit to the superheater (3) and the second turbogenerator (6). Both streams are combined after or before passing through the condenser (8) and the circulation pump and the combined stream is directed to the evaporator (4) and the preheater (5). The evaporator (4) and the heater (5) are supplied with heat from the first heat source (1), via the superheater (3), and from the second heat source (2). The method uses a first heat source (1) with a higher temperature than the second heat source (2). The ORC hybrid power system, contains the Clausius-Rankine cycle and is powered by two different temperature sources of heat, characterized by the fact that it has two Clausius-Rankine cycles, where the first Clausius-Rankine cycle is a dry saturated cycle, and the second Clausius-Rankine cycle is a superheated pair circuit. The first circuit contains successively connected to each other heater (5), evaporator (4), first turbogenerator (7). The second circuit contains successively connected to each other heater (5), evaporator (4), superheater (3), second turbogenerator (6). Both turbogenerators (7, 6) are connected to a common condenser and circulation pump, or to the first and second condenser and circulation pump, respectively. The first heat source (1) is connected to the superheater (3), evaporator (4) and heater (5). The second heat source (2) is connected to the evaporator (4) and the heater (5). The heat carrier circuits of both different temperature heat sources (1, 2) are connected after the superheater (3) and separated after the preheater (5). The heat carrier from the first heat source (1) has a higher temperature than the carrier from the second heat source (2).