RU2010118930A - COGENERATION PLANT WITH INTERNAL COMBUSTION ENGINE AND STIRLING ENGINE - Google Patents

Abstract

 A cogeneration plant containing a Stirling engine with an electric generator on one shaft, hydraulic lines, a Stirling engine cooling system with a pump, a Stirling engine combustion chamber, a heat exchanger for transferring heat energy to consumers, heat recovery heat exchangers for Stirling engine cooling systems, exhaust gases, a gasifier, a gas generator line, exhaust gas line, characterized in that the installation further comprises an internal combustion engine with an electric generator for one the shaft with it, its cooling system with a pump, an absorption type heat pump, a heat recovery system pump, consisting of heat recovery heat exchangers of an internal combustion engine and a Stirling engine, exhaust gases, a heat exchanger for transferring heat to consumers, a valve, while the pump is an internal engine cooling system the combustion is connected to a heat exchanger utilizing its heat, and the pump of the heat utilization system is connected in series using hydraulic lines to the heat exchangers of this system and heating the body of the Stirling engine, while the exhaust gases of the internal combustion engine are fed through the exhaust gas line to a heat exchanger utilizing their heat, after which they are sent to the combustion chamber of the Stirling engine connected to its heater, to which, in addition, gas from the gasifier utilizing industrial waste of organic origin, exhaust gases from the combustion chamber of the Stirling engine go to an absorption heat pump that performs

Claims (1)

A cogeneration plant containing a Stirling engine with an electric generator on one shaft, hydraulic lines, a Stirling engine cooling system with a pump, a Stirling engine combustion chamber, a heat exchanger for transferring heat energy to consumers, heat recovery heat exchangers for Stirling engine cooling systems, exhaust gases, a gasifier, a gas generator line, exhaust gas line, characterized in that the installation further comprises an internal combustion engine with an electric generator for one a shaft with it, a cooling system with a pump, an absorption type heat pump, a heat recovery system pump consisting of heat recovery heat exchangers of an internal combustion engine and a Stirling engine, exhaust gases, a heat exchanger for transferring heat to consumers, a valve, while an internal engine cooling system pump the combustion is connected to a heat recovery heat exchanger, and the heat recovery system pump is connected in series using hydraulic lines to the heat exchangers of this system and heating the body of the Stirling engine, while the exhaust gases of the internal combustion engine are fed through the exhaust gas line to a heat exchanger utilizing their heat, after which they are sent to the combustion chamber of the Stirling engine connected to its heater, to which, in addition, gas from the gasifier utilizing industrial waste of organic origin, exhaust gases from the combustion chamber of the Stirling engine go to an absorption heat pump that performs the role of the air conditioner in the machine room, in which the cogeneration unit is installed, while the heat energy generated by the heat pump is also supplied to the Stirling engine heater, and the Stirling engine cooling system is connected via hydraulic lines to the pump of this system and the heat exchanger using the heat of the internal combustion engine.