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A Centralized Heat Supply System for Cooling Circulating Water Multi-channel Backwater Sectional Cooling

A technology of cooling circulating water and segmental cooling, which is applied in hot water central heating systems, heating systems, household heating, etc., and can solve the problems of heat users that it is difficult to ensure the temperature parameters of the process medium and consume large amounts of energy, and achieve the solution of equipment location and pipeline routing, energy saving, and resource consumption reduction

Active Publication Date: 2020-12-04
陈连祥
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] At present, the heat energy contained in the cooling process medium required by energy-consuming enterprises is mostly transferred from the water-cooled heat exchanger to the cooling circulating water, and discarded from the cooling tower to the environment. The discharge process consumes a lot of water, electricity, and chemical resources. This process makes the original Thermal energy that can be directly used becomes a huge burden for enterprises
Existing heat pump technology requires a large amount of investment, and driving energy is required for operation; although the "centralized heating system using cascaded condensation and cooling heat" can obtain heat energy that can be directly used, it requires the construction of a large number of pipelines and heat exchange equipment, while the medium water The impact on the process medium, the fluctuation of the heat user load is difficult to ensure the temperature parameters of the process medium and other reasons, so it is difficult to implement

Method used

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  • A Centralized Heat Supply System for Cooling Circulating Water Multi-channel Backwater Sectional Cooling
  • A Centralized Heat Supply System for Cooling Circulating Water Multi-channel Backwater Sectional Cooling
  • A Centralized Heat Supply System for Cooling Circulating Water Multi-channel Backwater Sectional Cooling

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0043] A centralized heating system with multi-return water segmental cooling of cooling circulating water, as shown in Figure 2(a), includes a cooling circulating water supply line 1 that passes through a cooling circulating water supply line 3 of a heat exchange device A to communicate with the heat exchange device A, the cooling circulating water return line 2 is connected to the heat exchange device A through the cooling circulating water return line 4 of the heat exchange device A, and the cooling circulating water return line 4 of the heat exchange device A passes through the pipeline 9 to control the valve 23, heat exchange The high-temperature cooling circulating water supply pipeline 9 of device B is connected to the heat exchange device B, and the heat exchange device B is connected to the waste heat energy allocation center D through the high temperature cooling circulating water return line 10 of the heat exchange device B, and the waste heat energy allocation center...

Embodiment 2

[0058] According to the method shown in embodiment 1, such as image 3 , the waste heat energy allocation center D is connected to the water quality temperature monitoring and control equipment E through the high temperature cooling circulating water return pipeline 14 of the waste waste heat energy allocation center D, and the water quality temperature monitoring and control equipment E passes through the pipeline 25 to control the valve 24 and the water quality temperature monitoring and control equipment in turn The cooling circulating water return line 25 of E is connected to the circulating water return line 2 , and the water quality temperature monitoring and control equipment E is connected to the heat exchange device B through the cooling circulating water closed circulation line 26 .

[0059] The cooling circulating water in the high-temperature cooling circulating water return line 14 of the waste heat energy allocation center D passes through the water quality temper...

Embodiment 3

[0063] According to the method described in embodiment 1, such as Figure 4 As shown, the heat exchange device B is connected to the reheater C through the high-temperature cooling circulating water return line 10 of the heat exchange device B, and the reheater C is connected to the waste heat through the high-temperature cooling circulating water inlet line 13 of the waste heat energy allocation center D Can deploy center D.

[0064] The reheater C is connected to the higher temperature process medium inlet pipeline 11 and the higher temperature process medium return pipeline 12 .

[0065] The high-temperature cooling circulating water in the high-temperature cooling circulating water return line 10 of the heat exchange device B enters the reheater C from the high-temperature cooling circulating water return line 10 of the heat exchange device B and continues to serve as a cooling cold source after heat exchange and heating The high-temperature cooling circulating water inco...

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Abstract

The invention relates to a central heating system for segmented cooling of multipath backwater of circulating cooling water. The system comprises a heat exchange device, a reheater, a waste heat energy allocating center and water quality and temperature monitoring control equipment. The system is characterized in that the circulating cooling water in a circulating water pipeline successively exchanges heat through the heat exchange device and the reheater to obtain directly used heat, heat is then released in the waste heat energy allocating center, and finally, a closed cycle is formed by means of the water quality and temperature monitoring control equipment. According to the system provided by the invention, waste heat of a process medium originally discharged to an environment througha cooling tower becomes a direct heat source output by the waste heat energy allocating center to surrounding heat consumers, so that a lot of energy sources used for heating are saved, and meanwhile,the resource consumption for treating the circulating cooling water is reduced greatly.

Description

technical field [0001] The invention designs a centralized heating system that uses energy-consuming enterprises to discharge condensation and cool heat energy through cooling circulating water. Specifically, it is a centralized heating system with multi-channel water return and section cooling of cooling circulating water. Background technique [0002] At present, the heat energy contained in the cooling process medium required by energy-consuming enterprises is mostly transferred from the water-cooled heat exchanger to the cooling circulating water, and discarded from the cooling tower to the environment. The discharge process consumes a lot of water, electricity, and chemical resources. This process makes the original The thermal energy that can be directly used becomes a huge burden for enterprises. Existing heat pump technology requires a large amount of investment, and driving energy is required for operation; although the "centralized heating system using cascaded co...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): F24D3/18F24D3/10F24D19/10
CPCF24D3/1058F24D3/18F24D19/1015F24D19/1039Y02B30/12
Inventor 陈连祥陈克秀马琦轩黄博皓
Owner 陈连祥
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