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Antifreeze Solution Regeneration Device and Method for High Gravity Heat Source Tower

An antifreeze solution and regeneration device technology, applied in refrigeration and liquefaction, lighting and heating equipment, machine operation and other directions, can solve the problems of low efficiency, reduced technical and economic value, many compression links, etc. The effect of techno-economic value

Active Publication Date: 2017-11-17
ZHEJIANG SCI-TECH UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

But at present, there are two problems faced by reverse osmosis regeneration of antifreeze solution: one is that due to the high concentration of antifreeze solution, in order to prevent excessive osmotic pressure, the circulation rate of dilute solution will be large. If the high-pressure concentrated solution is directly discharged, It will cause a large loss of pressure energy, but to recover the liquid pressure energy, it is necessary to use an expensive liquid energy recovery device, which greatly reduces the technical and economic value
On the other hand, the high-pressure water pump used in the reverse osmosis process has the disadvantages of many compression links, large dynamic and static conversion losses, and low efficiency. Moreover, since the amount of water required for reverse osmosis in the heat source tower heat pump system is small, it is difficult to select a suitable high pressure pump. Pump

Method used

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  • Antifreeze Solution Regeneration Device and Method for High Gravity Heat Source Tower
  • Antifreeze Solution Regeneration Device and Method for High Gravity Heat Source Tower

Examples

Experimental program
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Effect test

Embodiment 1

[0022] Embodiment 1, Figure 1 ~ Figure 2 A high gravity heat source tower antifreeze solution regeneration device and method are presented. The high gravity heat source tower antifreeze solution regeneration device includes a heat source tower 1, a dilute solution pump 2, a regenerator 3, a heater 4 and a high gravity regenerator 7.

[0023] The dilute solution outlet of the heat source tower of the heat source tower 1, the dilute solution pump 2, the heat-absorbing pipeline of the regenerator 3, the heat-absorbing pipeline of the heater 4, and the dilute solution inlet 6 of the supergravity regenerator 7 are connected to each other in sequence. The concentrated solution outlet 5 of the supergravity regenerator 7, the heat release pipe of the regenerator 3, and the concentrated solution inlet of the heat source tower 1 are connected to each other in sequence.

[0024] The above-mentioned high gravity regenerator 7 includes a reverse osmosis device 72 , a dilute solution inle...

Embodiment 1

[0038] The calculation parameters of implementation example 1 are shown in Table 1 (for discharging 1 kg of water). The design conditions are: the radius of gyration of the system is 0.5m, the antifreeze solution of the heat source tower is calcium chloride solution, the outlet concentration of the dilute solution is 17.5%, the temperature is -8°C, the temperature of the dilute solution behind the heater is 10°C, and the circulation rate of the dilute solution is 8 (defined as the ratio of dilute solution circulation to the water discharged by reverse osmosis), the heat recovery efficiency of the regenerator is 60%, the pressure loss of the supergravity regenerator is 0.5Mpa, the pressure loss of the dilute solution pump pipeline is 0.1Mpa, and the concentrated solution pump The pipeline pressure loss is 0.1Mpa, the pump efficiency of the dilute solution is 70%, the pump efficiency of the concentrated solution is 80%, the shaft work efficiency of the supergravity system (define...

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Abstract

The invention discloses an antifreeze solution regeneration device for a supergravity heat source tower, which comprises a heat source tower (1), a dilute solution pump (2), a regenerator (3), a heater (4) and a supergravity regenerator (7); The heat source tower dilute solution outlet of the heat source tower (1), the dilute solution pump (2), the heat absorption pipeline of the regenerator (3), the heat absorption pipeline of the heater (4), the supergravity regenerator (7) The dilute solution inlets (6) are sequentially connected to each other; the concentrated solution outlet (5) of the supergravity regenerator (7), the heat release pipe of the regenerator (3), and the heat source tower concentrated solution inlet of the heat source tower (1) successively connected to each other.

Description

technical field [0001] The invention relates to the technical field of power equipment, in particular to a device and method for regenerating antifreeze solution of a supergravity heat source tower. Background technique [0002] The heat source tower heat pump system can use outdoor air as a low-temperature heat source in winter, absorb low-grade heat from the air, work in the heat pump mode, run stably, and have good technical and economic potential. It has received more attention and application in recent years. Its main The feature is that the antifreeze solution and air are used to exchange heat and mass in the heat source tower, which can effectively absorb sensible heat and latent heat in the air, and is not affected by frost after condensation of water vapor, avoiding defrosting operation during operation. Since the antifreeze solution absorbs the moisture in the air, it needs to be regenerated. The regeneration methods include thermal regeneration and reverse osmosis...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): F25B29/00F25B41/00F25B41/42
CPCF25B29/00F25B41/40
Inventor 王厉
Owner ZHEJIANG SCI-TECH UNIV
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