RU2013145811A - SYSTEM FOR HEATING OIL AS A HEAT CARRIER USING WASTE HEATED BOILER GAS - Google Patents

Abstract

1. The heating oil heating system using the heat of the exhaust boiler flue gases, while the system contains an economizer (3) and an air heater (4) located inside the chimney (1) in the direction of the flue gas flow, characterized in that the heating system additionally contains an oil heater heat transfer (2); the heat transfer oil heater (2) is located inside the chimney (1) at the front of the economizer (3); the heat transfer oil heater (2) is connected to the heat consuming device (19) through the first circulating pipe; and a circulation pump (12) located on the first circulation pipe. The system according to claim 1, characterized in that the system further comprises an exhaust heat recovery device; the exhaust gas heat recovery device comprises a heat absorption element (5) and a heat release element (6), communicating with each other through the second circulating pipe; the heat absorption element (5) is located inside the chimney behind the air heater (4); heat outlet element (6) located on the inlet pipe for water from the economizer (3) or inside the air inlet duct of the air heat exchanger (4).3. The system according to claim 2, characterized in that the heat release element (6) is located on the water supply line from the economizer (3), the water supply pipe from the economizer is equipped with a deaerator (14) and a high pressure heater (11) to allow the feed water boiler to pass through the heat release element (6) of the deaerator (14) and the high pressure heater (11), respectively, to enter the economizer (3).4. The system according to claim 3, characterized in that the feed water pump

Claims (9)

1. The heating system of the oil coolant using the heat of the exhaust boiler flue gas, the system contains an economizer (3) and an air heater (4) located inside the chimney (1) in the direction of the flue gas stream, characterized in that the heating system further comprises an oil heat transfer heater (2); heat transfer oil heater (2) is located inside the chimney (1) in front of the economizer (3); the heat transfer oil heater (2) is connected to the heat consumption device (19) through the first circulating pipe; and a circulation pump (12) located on the first circulation pipe. 2. The system according to p. 1, characterized in that the system further comprises an exhaust heat recovery device; the exhaust heat recovery device includes a heat absorption element (5) and a heat release element (6), communicating with each other through a second circulating pipe; a heat absorption element (5) is located inside the chimney behind the air heater (4); and a heat-exhaust element (6) located on the inlet pipe for water from the economizer (3) or inside the inlet air channel of the air heat exchanger (4). 3. The system according to p. 2, characterized in that the heat release element (6) is located on the water supply line from the economizer (3), the water supply pipe from the economizer is equipped with a deaerator (14) and a high pressure heater (11) to provide the boiler with power water pass through the heat release element (6) of the deaerator (14) and the high-pressure heater (11), respectively, to enter the economizer (3). 4. The system according to claim 3, characterized in that the feed water pump (7) is located on the water supply, through which the deaerator (14) and the high pressure heater (11) are connected. 5. The system according to claim 3, characterized in that the inlet of the steam pipe from the high pressure heater (11) and the inlet steam pipe of the deaerator (14) are communicated; the condensate drain pipe from the high pressure heater (11) is connected to the deaerator (14). 6. The system according to p. 5, characterized in that the system further comprises a control system for two temperature sensors (8, 10) and a plurality of flow control valves (9, 13, 21); temperature sensors and flow control valves are connected to the control system; the first temperature sensor (8) is located on the heat absorption element (5), and the second temperature sensor (10) located on the gas duct between the economizer (3) and the air heater (4) or at the outlet of the pipe from the economizer (3); one branch of the feedwater boiler passes through the first flow control valve (21) and enters the deaerator, and the other branch of the feedwater boiler passes through the second flow regulator (9) and the heat element (6) and enters the deaerator; and control of the third valve flow (13) is located on the steam inlet pipe to the high pressure heater. 7. The system of claim. 2, characterized in that a heat release element (6) is located inside the inlet air channel of the air heat exchanger (4); the system further comprises a control system, a temperature sensor (8) and a flow control damper (20); a temperature sensor (8) and flow control valves (20) are connected to the control system; and the temperature sensor (8) is made on the absorption heat element (5), the flow control damper (20) is located inside the inlet air channel of the air heat exchanger in front of the heat release element (6) along the supply air flow direction. 8. The system according to claim 1, characterized in that the system further comprises an oil and gas separator (18), which is located on the first circulating pipe between the heat transfer oil heater (2) and the heat consumption device (19). 9. The system according to claim 8, characterized in that the oil and gas separator (18) is connected to the expansion slot (17), and the expansion slot (17) is connected to the lubricating pump (16).