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Thermal energy efficient heat-exchanging device

A heat exchange device and geothermal energy technology, applied in geothermal energy, geothermal power generation, geothermal collectors, etc., can solve the problem of increased geothermal resource collection costs and equipment maintenance costs, affecting the efficiency and quality of geothermal resource collection operations, and geothermal resource collection Pipeline blockage and other problems, to achieve the effect of eliminating secondary geological disasters, geological subsidence, and simple structure

Inactive Publication Date: 2018-09-18
芜湖智为有道信息技术有限公司
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  • Abstract
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  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] At present, in the development and utilization of geothermal energy, it is mainly obtained by directly mining and extracting resources such as hot and high-temperature water, water vapor, and hot dry rock deep in the formation. Although it can meet the needs of geothermal resource collection, in actual It was found in the geothermal energy collection operation that in the current collection method, due to the direct extraction of hot and high-temperature water and water vapor, it is very easy to cause serious pollution to geothermal resources by impurities such as sediment in hot and high-temperature water and water vapor. It even leads to the blockage of geothermal resource collection pipelines, which seriously affects the efficiency and quality of geothermal resource collection operations. At the same time, it needs to be equipped with a large number of auxiliary equipment such as filtering equipment, which also leads to increased geothermal resource collection costs and daily equipment maintenance costs. At the same time, due to the direct mining of resources such as hot and high-temperature water, water vapor, and hot dry rock, it is very easy to cause hollow areas in the deep underground, resulting in unstable geological structures, poor bearing capacity, and even geological subsidence in severe cases The occurrence of secondary geological disasters, such as secondary geological disasters, has great potential safety hazards and has a great impact on the construction of surface structures such as roads and buildings. Therefore, in view of this situation, it is urgent to develop a new geothermal heat exchange equipment to meet practical needs

Method used

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Embodiment Construction

[0015] In order to make the technical means, creative features, goals and effects achieved by the present invention easy to understand, the present invention will be further described below in conjunction with specific embodiments.

[0016] Such as figure 1 The high-efficiency heat exchange device for geothermal energy includes a bearing keel 1, a heat exchange plate 2, a heat exchange tube 3, a draft tube 4, a temperature sensor 5, and a pressure sensor 6. The bearing keel 1 includes a positioning frame 101, a guide slide Rail 102, chute 103, hoisting ring 104, wherein at least one locating frame 101 is a frame structure with a rectangular cross section, chute 103 and hoisting ring 104 are at least two, and are evenly distributed on the positioning frame 101 around the axis of locating frame 101 On the outer surface, a number of guide rails 102 are embedded in the bearing keel 1 and distributed symmetrically about the axis of the bearing keel 1. At least one heat exchange pla...

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Abstract

The invention relates to a thermal energy efficient heat-exchanging device which comprises a bearing keel, heat-exchanging plates, heat-exchanging pipes, flow guide pipes, at least three temperature sensors and at least two pressure sensors, wherein the bearing keel comprises a positioning rack, a guide slide rail, a chute and a hoisting ring; the heat-exchanging plate is embedded into the positioning rack; the heat-exchanging pipes are separately mounted on the upper surface and the lower surface of each heat-exchanging plate; two ends of the heat-exchanging plate communicate to the flow guide pipes, separately; at least one of the at least three temperature sensors is embedded into the outer surface of each heat-exchanging plate; the rest temperature sensors are separately located in theconnecting positions of two ends of the heat-exchanging plates and the flow guide pipes; and the at least two pressure sensors are uniformly arranged on the outer surface of the positioning rack around the axis of the positioning rack. On the one hand, the thermal energy efficient heat-exchanging device can improve the work efficiency of a thermal energy resource collecting operation effectivelyand lower the construction cost of the collecting operation, and on the other hand, can simplify the structure of thermal energy resource collecting equipment effectively, so that the purposes of improving the thermal energy resource collecting reliability and stability and lowering the operating cost are achieved.

Description

technical field [0001] The invention relates to a device for developing and utilizing geothermal energy, in particular to a high-efficiency heat exchange device for geothermal energy. Background technique [0002] At present, in the development and utilization of geothermal energy, it is mainly obtained by directly mining and extracting resources such as hot and high-temperature water, water vapor, and hot dry rock deep in the formation. Although it can meet the needs of geothermal resource collection, in actual It was found in the geothermal energy collection operation that in the current collection method, due to the direct extraction of hot and high-temperature water and water vapor, it is very easy to cause serious pollution to geothermal resources by impurities such as sediment in hot and high-temperature water and water vapor. It even leads to the blockage of geothermal resource collection pipelines, which seriously affects the efficiency and quality of geothermal reso...

Claims

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Application Information

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IPC IPC(8): F24T10/10
CPCY02E10/10
Inventor 熊志
Owner 芜湖智为有道信息技术有限公司
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