CN104315734A - Method for processing inner surface of solar-thermal power generation thermal storage device - Google Patents

Abstract

The invention relates to a method for processing the inner surface of a solar-thermal power generation thermal storage device. A layer of graphene nanofilm is formed on the inner surface of a structural material forming the solar-thermal power generation thermal storage device, is 0.05-2mu m in thickness, and is formed with a mechanical method, a chemical method and a surface spraying method. The mechanical structural strength of the thermal storage device is improved, the wear resistance and the corrosion resistance of the thermal storage device are improved, the material cost and the processing cost are reduced, and the service life of the thermal storage device is prolonged.

Description

Solar light-heat power-generation heat-storing device internal surface treatment method

Technical field

The present invention relates to solar light-heat power-generation technical field of energy storage, especially a kind of solar light-heat power-generation heat-storing device internal surface treatment method.

Background technology

In solar light-heat power-generation energy-storage system, heat-storage medium mostly is high-temperature medium, and the need stress of the structural material of heat-storing device reduces with the rising of medium temperature, badly influences the safety of heat-storing device and whole solar-thermal generating system;

The conventional solution method thickening heat-storing device structural thickness that adopts carries out intensity compensation more, and this method not only increases material cost, also add processing and manufacturing difficulty simultaneously.

Summary of the invention

The technical problem to be solved in the present invention is: propose a kind of solar light-heat power-generation heat-storing device internal surface treatment method, solves a difficult problem for solar light-heat power-generation energy storage device selection.

The technical solution adopted in the present invention is: a kind of solar light-heat power-generation heat-storing device internal surface treatment method, forms one deck graphene nano film at the inner surface of the structural material making solar light-heat power-generation heat-storing device; The thickness of described graphene nano film is 0.05 μm ~ 2 μm; Described graphene nano film is formed by the method for mechanical means, chemical method and surface spraying.Described mechanical means comprises micromechanics partition method, epitaxy method and superficial growth method.Described chemical method comprises oxidation and subtracts slice method, chemical vapour deposition technique and hydrazine reducing process.

The invention has the beneficial effects as follows: the Mechanical Structure Strength adding heat-storing device, improve the wearability of heat-storing device, corrosion resistance, reduce material cost and processing cost, improve the service life of heat-storing device.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the present invention is further described.

Fig. 1 is structural representation of the present invention;

In figure: 1, heat-storing device structural material; 2, graphene nano film.

Detailed description of the invention

The present invention is further detailed explanation with preferred embodiment by reference to the accompanying drawings now.These accompanying drawings are the schematic diagram of simplification, only basic structure of the present invention are described in a schematic way, and therefore it only shows the formation relevant with the present invention.

Embodiment one

As shown in Figure 1, one deck graphene nano film is formed at the inner surface of the structural material making solar light-heat power-generation heat-storing device; The thickness of described graphene nano film is 0.05 μm; Graphene nano film is formed by the method for mechanical means, chemical method and surface spraying.Mechanical means comprises micromechanics partition method, epitaxy method and superficial growth method.Chemical method comprises oxidation and subtracts slice method, chemical vapour deposition technique and hydrazine reducing process.

Embodiment two

One deck graphene nano film is formed at the inner surface of the structural material making solar light-heat power-generation heat-storing device; The thickness of described graphene nano film is 2 μm; Graphene nano film is formed by the method for mechanical means, chemical method and surface spraying.Mechanical means comprises micromechanics partition method, epitaxy method and superficial growth method.Chemical method comprises oxidation and subtracts slice method, chemical vapour deposition technique and hydrazine reducing process.

By the process to solar light-heat power-generation energy storage device structure material inner surface, graphene nano thin layer is formed at material inner surface, the mechanical strength of solar light-heat power-generation energy storage device structure material, anticorrosive intensity can be strengthened greatly, heighten the service life of solar light-heat power-generation energy storage device.

The just the specific embodiment of the present invention described in above description, various illustrating is not construed as limiting flesh and blood of the present invention, person of an ordinary skill in the technical field after having read description can to before described detailed description of the invention make an amendment or be out of shape, and do not deviate from the spirit and scope of the invention.

Claims (3)

1. a solar light-heat power-generation heat-storing device internal surface treatment method, is characterized in that: form one deck graphene nano film at the inner surface of the structural material making solar light-heat power-generation heat-storing device; The thickness of described graphene nano film is 0.05 μm ~ 2 μm; Described graphene nano film is formed by the method for mechanical means, chemical method and surface spraying.

2. solar light-heat power-generation heat-storing device internal surface treatment method as claimed in claim 1, is characterized in that: described mechanical means comprises micromechanics partition method, epitaxy method and superficial growth method.

3. solar light-heat power-generation heat-storing device internal surface treatment method as claimed in claim 1, is characterized in that: described chemical method comprises oxidation and subtracts slice method, chemical vapour deposition technique and hydrazine reducing process.