Medium-length layer geothermal energy absorption and compression type integrated concentration heat supply system

A central heating and absorption heat pump technology, applied in hot water central heating systems, heating systems, geothermal energy, etc., can solve obstacles to the indirect use of deep geothermal resources, limit the flexibility and actual operation effect of compression heat pumps, etc. problems, to achieve the effect of reducing the design capacity and length of pipe network laying, improving comprehensive utilization efficiency and reducing energy consumption

Pending Publication Date: 2019-01-18
TONGFANG KAWASAKI ADVANCED ENERGY SAVING MACHINE
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] At present, compression heat pumps use shallow geothermal resources indirectly. Because of the increasingly serious environmental protection problems, it is necessary to ensure the thermal balance of shallow geothermal heat throughout the year. In summer, all of them must be discharged back into the ground, which greatly limits the flexibility and actual operation effect of compression heat pumps in utilizing shallow geothermal resources.
For mid-deep geothermal resources, although there is no need to consider the problem of annual heat balance, the temperature of the middle-deep water outlet is relatively high, and the compression heat pump has certain restrictions on the temperature of low-temperature heat sources, which hinders the indirect utilization of mid-deep geothermal energy. application of resources

Method used

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  • Medium-length layer geothermal energy absorption and compression type integrated concentration heat supply system
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  • Medium-length layer geothermal energy absorption and compression type integrated concentration heat supply system

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Embodiment 1

[0029] Such as figure 1As shown, this embodiment provides a middle-deep geothermal energy absorption and compression integrated central heating system, including a middle-deep geothermal well and an absorption-compression integrated unit 1, the middle-deep geothermal well is set at the middle-deep geothermal source, and the middle-deep geothermal energy The deep geothermal well is used to transport the mid-deep geothermal source to the absorption compression integrated unit 1; the absorption compression integrated unit 1 includes a stepped absorption heat pump 2, a two-stage compression heat pump 3 and a three-stage compression heat pump 4 , the middle-deep geothermal well is connected to the low-heat end inlet of the absorption heat pump 2 through the heat source well water supply pipe 6, the low-heat end outlet of the absorption heat pump 2 is connected to the low-heat end inlet of the two-stage compression heat pump 3, and the two-stage compression heat pump 3 The outlet of...

Embodiment 2

[0042] Such as figure 2 As shown, the mid-deep geothermal source in this embodiment is the mid-deep hot dry rock heat source, and the mid-deep geothermal well extracts the heat energy in the dry hot rock layer through the circulating heat exchange medium, and then transports the circulating heat exchange medium carrying the heat energy to the absorption Compression integrated unit. Compared with Embodiment 1, Embodiment 2 is only different in the form of the mid-deep geothermal energy source, and the structure and working principle of the entire mid-deep geothermal energy absorption and compression integrated central heating system are the same as those in Embodiment 1.

[0043] Carry out concrete instruction to present embodiment two below:

[0044] Firstly, use the circulating heat exchange medium to fully extract the heat energy in the dry hot rock formation of the medium-deep hot dry rock heat source 11, and form a heat exchange medium with a high temperature of about 15...

Embodiment 3

[0050] Such as image 3 As shown, the medium-deep geothermal sources in this embodiment are medium-deep hot water geothermal sources 10 and medium-deep hot dry rock heat sources 11, and a center Deep geothermal wells, and the mid-deep geothermal wells at 10 mid-deep hot water geothermal sources and the mid-deep geothermal wells at 11 mid-deep hot dry rock heat sources are connected in parallel through pipelines, that is, the mid-deep geothermal wells at 10 mid-deep hot water geothermal sources The heat source well water supply pipe of the well is connected in parallel with the heat source well water supply pipe of the mid-deep geothermal well at the mid-deep hot dry rock heat source 11, and the heat source well return pipe of the mid-deep geothermal well at the mid-deep hot water geothermal source 10 is connected with the mid-deep dry heat The heat source well return pipes of the mid-deep geothermal well at the rock heat source 11 are connected in parallel, and in order to pre...

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Abstract

The invention discloses a medium-length layer geothermal energy absorption and compression type integrated concentration heat supply system, and relates to the field of geothermal energy heat supply engineering. Due to stepped arrangement of an absorption heat pump, a two-stage compression heat pump and a three-stage compression heat pump, geothermal energy can be extracted in a multi-stage and gradient mode, extra medium temperature heat is added for heating secondary net circulating water, heat is supplied to a user, compared with a conventional concentration heat supply mode and the geothermal energy utilization mode, the system can achieve deep stepped utilization of medium-length geothermal resources, the heat supply capability and the unit heat obtaining amount of the system are increased, the heat supply area is increased, the geothermal energy comprehensive utilization rate is increased, the high-grade energy dissipation is lowered, no fossil energy is needed, no heat source plant is needed, meanwhile, a heat source plant, an origin station and a heat exchange station are combined into one, the concentration heat source design capacity and pipe network laying length are lowered, the building cost of a heat supply system is lowered, the heat supply process is simplified, the technical effect of efficiently utilizing medium-length layer geothermal resources is achieved, and practicability is high.

Description

technical field [0001] The invention relates to the field of geothermal energy heating engineering, in particular to a medium-deep geothermal energy absorption and compression integrated central heating system. Background technique [0002] The reserve of geothermal resources in my country is one-sixth of the total geothermal resources in the world. Among them, the amount of mid-deep geothermal resources is equivalent to 853 billion tons of standard coal, and now 640 million tons of standard coal can be used every year. The amount of mid-deep geothermal resources replaces the standard coal, which can reduce 1.3 billion tons of carbon dioxide emissions; the amount of hot dry rock resources is equivalent to 860 trillion tons of standard coal, equivalent to 260,000 times the current national energy consumption, and is in the development and utilization research stage. [0003] At present, my country's heating methods using geothermal resources can be divided into two types: dire...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F24D3/18
CPCF24D3/18F24D2200/11F24D2200/12Y02B10/40
Inventor 王晓东韩爽刘浩鹏刘大庆张卫东赵岩赵云
Owner TONGFANG KAWASAKI ADVANCED ENERGY SAVING MACHINE
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