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Deep recovery device for flue gas heat of power station boiler and method of deep recovery device

A recovery device and power plant boiler technology, applied in heat pumps, indirect heat exchangers, heat exchanger shells, etc., can solve problems such as heating attenuation and difficulty in starting lithium bromide at low temperatures

Pending Publication Date: 2019-06-07
NORTH CHINA ELECTRIC POWER UNIV (BAODING)
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In actual operation, affected by the low temperature of the low-temperature heat source, a type of lithium bromide absorption heat pump has problems such as difficulty in starting at low temperature and serious heating attenuation. In severe cases, the COP of the heat pump is only 1

Method used

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  • Deep recovery device for flue gas heat of power station boiler and method of deep recovery device
  • Deep recovery device for flue gas heat of power station boiler and method of deep recovery device
  • Deep recovery device for flue gas heat of power station boiler and method of deep recovery device

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Embodiment 1

[0029] Example 1: A deep recovery device for exhaust waste heat of power plant boilers, including sensible heat exchangers, latent heat exchangers, flue gas heaters, hot water absorption heat pumps, plate heat exchangers, water pipes and flue , the sensible heat of the utility boiler exhaust flue gas is firstly recovered by the sensible heat exchanger, the flue gas inlet of the sensible heat exchanger is connected with the flue gas outlet of the air preheater, and the flue gas outlet of the sensible heat exchanger is connected with the flue gas inlet of the dust collector, The outlet of the circulating water in the sensible heat exchanger is connected to the inlet of the heat source driven by the absorption heat pump generator, and then the flue gas from the power station boiler enters the latent heat exchanger after being desulfurized by the desulfurization tower, and the latent heat of vaporization of the water vapor in the flue gas is recovered and used for latent heat exchan...

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Abstract

The invention discloses a deep recovery device for flue gas heat of a power station boiler and a method of the deep recovery device. The recovery device comprises an air preheater, a sensible heat exchanger, a desulfurization tower, a latent heat exchanger, a flue gas heater, a plate heat exchanger, a lithium bromide absorption heat pump generator, a lithium bromide absorption heat pump condenser,a lithium bromide absorption heat pump evaporator and a lithium bromide absorption heat pump absorber. Compared with an existing thermal power plant flue gas heat recovery system, by the adoption ofthe deep recovery device and the method, on the premise of satisfying the user load, by adopting the coupling use of the lithium bromide absorption heat pump and a low-pressure heater, sensible heat of flue gas after the air preheater in a thermal power plant can be recycled, and latent heat of vaporization of moisture in flue gas after the desulfurization tower can be also recycled, so that the coal consumption for power generation is reduced, meanwhile moisture carried by flue gas is reduced, colored smoke plume is eliminated, and the device and the method better respond to the policy requirements on energy saving and emission reduction in China.

Description

technical field [0001] The invention relates to the technical field of energy saving and emission reduction in thermal power plants, in particular to a deep recovery device and method for waste heat exhausted by power plant boilers. Background technique [0002] As of the end of 2017, China's total installed capacity was 1,777.03 million kilowatts, of which thermal power was 1,106.64 million kilowatts, accounting for 62.27%; in 2017, power generation was 6,417.9 billion kwh, of which thermal power was 4,551.3 billion kwh, accounting for 70.92%. It can be seen that thermal power still occupies a dominant position in the domestic power market, while power plant boilers consume a large amount of fossil energy. The incidental losses caused by flue gas exhaust from power plant boilers account for 50% of the total losses of the boiler, and at the same time account for about 3%-6% of the boiler’s input fuel heat; if the boiler flue gas discharge temperature is effectively reduced b...

Claims

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Application Information

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IPC IPC(8): F23J15/06F25B30/04F25B15/06F23J15/02F28D9/00F28D7/08F23J15/08F28F9/24
CPCY02B30/62Y02A30/27Y02E20/30
Inventor 滕达李昂李铁林陈海平安连锁沈国清张世平
Owner NORTH CHINA ELECTRIC POWER UNIV (BAODING)
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