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Molten salt heat storage single-tank internal arrangement heat exchange off-peak electricity steam boiler and heat exchange method

A technology of steam boiler and molten salt, applied in the field of electric steam boiler, can solve problems such as high cost, achieve the effect of saving material cost and preventing clogging

Active Publication Date: 2016-06-01
SHENZHEN AINENGSEN EQUIP TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] At present, molten salt heat storage boilers are mainly used in solar thermal power generation. Existing solar thermal power generation heat storage and heat exchange generally adopt a double-tank external heat exchange scheme (ie, high-temperature tank, low-temperature tank, and heat exchanger). The scheme has the following problems and disadvantages when applied to medium and low temperature industrial boilers: both tanks need high temperature and corrosion resistant steel plate materials and good performance insulation materials, which are relatively expensive; the flow control of the molten salt pump requires precision; the heat exchanger And pipelines need good measures to prevent molten salt from solidifying and clogging pipelines; valves and measuring instruments that are resistant to high temperature and corrosion are required

Method used

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  • Molten salt heat storage single-tank internal arrangement heat exchange off-peak electricity steam boiler and heat exchange method
  • Molten salt heat storage single-tank internal arrangement heat exchange off-peak electricity steam boiler and heat exchange method
  • Molten salt heat storage single-tank internal arrangement heat exchange off-peak electricity steam boiler and heat exchange method

Examples

Experimental program
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Effect test

Embodiment 1

[0029] Such as figure 1 As shown, this embodiment provides a single-tank built-in heat exchange valley electric steam boiler for molten salt heat storage, including a molten salt tank 1, an electric heater 2 and a steam generator 3, and the electric heater 2 is arranged on the The electric heating zone 4 inside the molten salt tank 1, the steam generator 3 is arranged in the heat exchange zone 5 inside the molten salt tank 1, and the molten salt in the molten salt tank 1 passes through the electric heating zone 4 The electric heater 2 flows to the heat exchange area 5 after being heated to realize heat release, and the cooled molten salt circulates to the electric heating area 4 through the molten salt transmission pipeline 6 .

[0030] The molten salt tank 1 also includes a low-temperature zone 7 and a low-temperature suction zone 8. The low-temperature zone 7, the electric heating zone 4, the heat exchange zone 5 and the low-temperature suction zone 8 are sequentially divide...

Embodiment 2

[0044] Such as figure 2 As shown, this embodiment provides a method for molten salt heat storage and heat exchange, including:

[0045] S101, providing a single-tank built-in heat exchange valley electric steam boiler for molten salt heat storage, including a molten salt tank, an electric heater and a steam generator, and the electric heater is arranged in an electric heating area inside the molten salt tank , the steam generator is arranged in the heat exchange area inside the molten salt tank.

[0046] S102, the molten salt in the molten salt tank flows to the heat exchange area after being heated by the electric heater in the electric heating area.

[0047] S103, the heated molten salt exchanges heat with the steam generator in the heat exchange area to realize heat release, and the cooled molten salt circulates to the electric heating area through the molten salt transmission pipeline.

[0048] Among them, such as image 3 As shown, the production of steam by heat stor...

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Abstract

The invention discloses a molten salt heat storage single-tank internal arrangement heat exchange off-peak electricity steam boiler and a heat exchange method. The electricity steam boiler comprises a molten salt tank, an electric heater and a steam generator; the electric heater is arranged in an electric heating area inside the molten salt tank, and the steam generator is arranged in a heat exchange area inside the molten salt tank; molten salt in the molten salt tank is heated by the electric heater in the electric heating area and then flows to the heat exchange area to achieve heat releasing; and the cooled molten salt circulates to the electric heating area through a molten salt conveying pipeline. The single-tank internal arrangement heat exchange scheme is adopted, the heated molten salt flows in the molten salt tank, heat exchange between the molten salt and a heat exchanger can be achieved in the molten salt tank, material cost is effectively saved, and molten salt solidification and pipeline blockage can be effectively prevented.

Description

technical field [0001] The invention relates to the field of electric steam boilers, in particular to a single-tank built-in heat exchange valley electric steam boiler for molten salt heat storage and a heat exchange method. Background technique [0002] At present, molten salt heat storage boilers are mainly used in solar thermal power generation. Existing solar thermal power generation heat storage and heat exchange generally adopt a double-tank external heat exchange scheme (ie, high-temperature tank, low-temperature tank, and heat exchanger). The scheme has the following problems and disadvantages when applied to medium and low temperature industrial boilers: both tanks need high temperature and corrosion resistant steel plate materials and good performance insulation materials, which are relatively expensive; the flow control of the molten salt pump requires precision; the heat exchanger And pipelines need good measures to prevent molten salt from solidifying and cloggi...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F22B1/16F24H7/02F24H9/20
CPCF22B1/16F24H7/0233F24H9/2014
Inventor 曾智勇周厚国赵士良徐慧芬
Owner SHENZHEN AINENGSEN EQUIP TECH
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