CN105605957A

CN105605957A - Solid electric heat accumulation device

Info

Publication number: CN105605957A
Application number: CN201610212044.XA
Authority: CN
Inventors: 朱建新
Original assignee: Individual
Current assignee: SHENYANG SIGNJAMMER Ltd
Priority date: 2016-04-07
Filing date: 2016-04-07
Publication date: 2016-05-25
Anticipated expiration: 2036-04-07
Also published as: CN105605957B

Abstract

The invention relates to a solid electric heat accumulation device which comprises a thermal-insulation shell, a load-bearing wall, a resistance heater set, a heat accumulator, a thermal circulation system, a basic structure and a control system. The technical scheme is as follows: the resistance heater set directly powered by a power source is installed in each space established by the load-bearing wall in the thermal-insulation shell; the resistance heater set is formed by connecting a plurality of resistance heating units in series; the basic structure is composed of a cable trench, a load-bearing wall and a foundation; the heat accumulator is composed of a rectangular-solid assembly array; the rectangular-solid assembly is made of cast iron or refractory steel, the inside of which is provided with a heat accumulation material; and the thermal circulation system is a closed air duct formed by tightly connecting a circulating path, a heat exchanger, an air regulator and a fan component arranged on the external surface of the thermal-insulation shell, thereby completing the output of the heat energy to the heat user. Compared with the solid electric heat accumulation device manufactured by the prior art, the solid electric heat accumulation device provided by the invention can reduce the equipment volume, lowers the cost for electric heating components, and prevents the heat accumulator from being electrically charged.

Description

Solid electric heat-storage device

Technical field

The present invention relates to a kind of electric heat storage technology field, specifically a kind of solid electric heat-storage device of directly being powered by 66kV～500kV electric pressure. This invention can convert electric energy to thermal energy storage also can control hot water, hot blast, steam output in solid heat storage body.

Background technology

In recent years, along with the fast development of power industry, emerge in large numbers at home increasing nuclear power plant system, wind generator system along with installed capacity expansion year by year, peak load regulation network contradiction also becomes increasingly conspicuous. The northern cogeneration of heat and power fired power generating unit of undertaking heating task is determined generated energy with heating heat demand in the winter time. In the time that the heat demand of heating increases, cause the increase of cogeneration of heat and power fired power generating unit electricity volume, often occur just can meeting only according to the electricity volume of cogeneration of heat and power thermal power plant the demand of low ebb phase network load. Have to close on one side nuclear power, wind-powered electricity generation unit for balance electrical network and cause and abandon wind, abandon core, waste a large amount of clean energy resourcies; In order to produce, to live by heat, also want on one side heating plant to fall apart to combust coal to heat, cause air pollution. Abandon wind if receive by solid electric heat-storage device, abandon nuclear power energy energy transform into heat energy and be stored in solid heat storage body, for producing, life provides thermal source, is balance network optimization utilization of power, reduces the effective way of fossil energy burning.

Summary of the invention

The problem that the present invention is directed to above-mentioned existence provides a kind of solid electric heat-storage device, in insulation shell, install and directly heat with 66kV～500kV electric pressure power supply, through the resistance heater group of horizontal series wiring and installation cylinder iron, the heat storage made of heat resisting steel, composite inorganic material; Also be provided with heat circulating system outward at insulation shell, the heat energy in insulation shell made to hot water, hot blast, steam and export to hot user.

Technical scheme of the present invention is as follows:

A kind of solid electric heat-storage device, it includes insulation shell, bearing wall, resistance heater group, heat storage, heat circulating system, foundation structure and control system, it is characterized in that: in each space of being set up by bearing wall in insulation shell, be provided with and adopt the directly resistance heater group of power supply of 66kV～500kV electric pressure power supply, this resistance heater group is formed by connecting by several resistance heated units in series, resistance heated unit is by pedestal, all press support, stratie forms, pedestal is the many column electrotechnical ceramics that meet insulating requirements that are supported on made from metal and insulation section bar, on glass bar or be arranged on the platform on insulating materials building block, on pedestal, be provided with and all press support, on support, be supported with stratie all pressing, foundation structure is made up of cable duct, bearing wall, ground, heat storage is to be installed and formed by cuboid or square assembly tier array, and cuboid or square assembly are to be made up of cast iron or the heat resisting steel section bar of inside installation composite inorganic heat-storing material, described heat circulating system comprises the circulation canal that is arranged on insulation shell outside, and being arranged on heat exchanger, blower fan and the blast regulator parts on circulation canal, described circulation canal two ends are connected with the averaging wind pipe road of bottom in the high temperature air chamber of insulation shell internal upper part and insulation shell respectively.

Described resistance heater group is connected in series and is formed by several resistance heated unit horizontal.

The described blast regulator with electric adjusting mechanism is arranged on air inlet or the air outlet place of heat exchanger. Blast regulator is the device for regulating circulation heat exchanger air quantity; Blast regulator is generally arranged on the air outlet place of heat exchanger.

Described bearing wall is provided in a side of in insulation shell, sets up resistance heater group working space and supports heat storage weight, tolerates building by laying bricks or stones or the member of moulding by casting of 1000 DEG C or above high temperature.

The described support of all pressing is the rhabodoid that electrotechnical ceramics, glass or mica are made.

Described resistive element is to be made up of heating wire, electric heating piece or electrothermal tube high temperature resistance material.

Described composite inorganic heat-storing material be made by metal oxide and salt, bases phase-change material compatibility in 850 DEG C of following operating temperature intervals of heat storage, there is phase-transition heat-storage characteristic or do not have phase-change characteristic agglomerate, sintered balls, build building block.

Described circulation canal is to be connected to the pipeline that between insulation shell, heat exchanger, blast regulator, blower fan, metal or the heat proof material for the setting of hot-air sealing and circulating forms, point high-temperature pipe, cryogenic piping, by-pass line, averaging wind pipe road. High-temperature pipe is that the T that can tolerate 800 DEG C of air themperatures connects three-way pipeline structure, its axis direction two straight-through ports, and one end is connected in the high temperature air chamber of heat storage by insulation shell, and the other end is connected with heat exchanger; Cryogenic piping is that T connects three-port structure, its axis direction two straight-through ports, and one end is connected to blast regulator, and the other end is connected with blower fan air-vent; By-pass line is the metallic conduit of internally charged moving air door, is connected between the T adapter pipeline joint that belongs to three-port structure high-temperature pipe and cryogenic piping together; Averaging wind pipe road is connected to fan outlet and inserts the resistance heater group working space in insulation shell.

Described control system has been accumulation of heat power supply and heat management control, the intelligent controller taking PLC as core.

Beneficial effect of the present invention is:

Solid electric heat-storage device of the present invention, under the environment of the above voltage access of 66kV, Billy's prior art, in heat storage, array is installed the solid electric heat-storage device of heating wire, can reduce equipment volume, reduce heating partial insulation costs, avoid heat storage charged. The present invention can use the phase-change material of metal and non-electric insulation to do heat storage, does not consider the insulating requirements of heat storage. Faster than magnesia, alumina sintering heat storage heat-transfer rate, especially require the equipment advantage of high-power accumulation of heat, heat release more obvious. The present invention is specially adapted to thermal power plant's generating set heat accumulating type peak regulation, wind field generating set heat accumulating type peak regulation, solar power system heat accumulating type peak regulation, the low valley period power accumulation of heat of electrical network balance electrical network. This device can be as high-power accumulation of heat industrial heat resources, also can be as accumulation of heat in winter heating source.

Brief description of the drawings

Fig. 1 is solid electric heat-storage device structural front view of the present invention;

Fig. 2 is the right view of solid electric heat-storage device structural front view of the present invention;

Fig. 3 is the top view of solid electric heat-storage device structural front view of the present invention;

Fig. 4 is that A-A in Fig. 3 of the present invention is to cutaway view;

Fig. 5 is that the B-B of Fig. 3 of the present invention is to cutaway view.

In figure, 1, insulation shell, 2, bearing wall, 3, electrotechnical ceramics, 4, bar shaped building block, 5, plate shaped building block, 6, all press support, 7, averaging wind pipe road, 8, cuboid assembly, 9, cuboid assembly end face, 10, composite inorganic heat-storing material, 11, high temperature air chamber, 12, heat exchanger, 13, blower fan, 14, high-temperature pipe, 15, cryogenic piping, 16, cable duct, 17, lead-in cable, 18, zero line cable, 19, stratie, 20, blast regulator, 21, by-pass line, 22, ground, 23, pedestal.

The present invention is described in further detail by example below in conjunction with accompanying drawing, but following example is only the present invention's example wherein, do not represent the rights protection scope that the present invention limits, the scope of the present invention is as the criterion with claims.

Detailed description of the invention

Embodiment 1

The structure of solid electric heat-storage device of the present invention is as shown in Fig. 1～5, in figure 1 is insulation shell, 2 is bearing wall, resistance heater group, heat storage, heat circulating system, foundation structure and control system, in each space of being set up by bearing wall in insulation shell, be provided with and adopt the directly resistance heater group of power supply of 66kV～500kV electric pressure power supply, this resistance heater group is connected in series and is formed by several resistance heated unit horizontal, resistance heated unit is by pedestal 23, all press support 6, stratie 19 forms, described pedestal 23 is to make with metal and insulation section bar the column electrotechnical ceramics that meets insulating requirements by many, glass bar support or be arranged on the platform on insulating materials building block, on pedestal 23, be provided with and all press support 6, on support 6, be supported with stratie 19 all pressing, foundation structure is made up of cable duct 16, bearing wall 2, ground 22, heat storage is to be installed and formed by cuboid assembly 8 tier arrays, and cuboid assembly 8 is to be made up of cast iron or the heat resisting steel section bar of inside installation composite inorganic heat-storing material 10, described heat circulating system comprises the circulation canal that is arranged on insulation shell outside, and being arranged on heat exchanger, blower fan 13 and blast regulator 20 parts on circulation canal, described circulation canal two ends are connected with the averaging wind pipe road 7 of bottom in the high temperature air chamber 11 of insulation shell internal upper part and insulation shell respectively.

Described resistance heater group comprises pedestal 23, electrotechnical ceramics 3, bar shaped building block 4, plate shaped building block 5, all presses support 6, resistive element 19 to form, resistance heater group is arranged in the space that insulation shell 1 internal loadbearing wall body 2 sets up, and guarantees that resistive element 19 can not occur bearing wall 2 and cuboid assembly 8 electric discharge phenomena during heating work. All press support 6 to there is good insulating properties in resistive element 19 heating power work. Resistive element 19 is arranged on all presses on support 6, forms resistance heated unit through many groups mode in parallel, series connection. Many groups resistance heated unit forms resistance heater group through being connected in series. Heat storage comprises cuboid assembly 8, cuboid assembly end face 9, composite inorganic heat-storing material 10, high temperature air chamber 11, the upper surface of heat storage cross-arm between multiple bearing walls 2, cuboid assembly 8 should have and bears unsettled resistance to bending under the condition of high temperature, can under 850 DEG C of regenerator temperatures, bear the inner composite inorganic heat-storing material 10(of installing as magnesia, alumina brick) gravity, keep the stability of heat storage. Taking between multiple bearing walls 2 form plane as basis, firmly put cuboid assembly 8 Deng gap layering, wherein odd-level with perpendicular to bearing wall 2 axis direction cross-arms in bearing wall 2 upper surfaces, even level to be to be parallel to bearing wall 2 axis direction cross-arms on odd-level cuboid assembly 8, the stacked installation that completes heat storage repeatedly successively. The heat that resistive element 19 sends upwards transmits along the gap between cuboid assembly 8, and heat energy is absorbed by heat storage in the process of transmitting. Insulation shell 1 makes the heat energy loss of heat storage be kept in heat storage to be less than 5% value every day. In the time that device need to be to user's heat supply, first open the air door that blast regulator 20 cuts out in by-pass line 21 and open again the blower fan 13 in heat circulating system, make the heat energy in the high temperature air chamber 11 of heat storage upper end send into heat exchanger 12 through the axis direction direct piping of high-temperature pipe 14, hot-air is to heat transfer medium acting in heat exchanger 12. Air after 12 li of coolings of heat exchanger is sent into the air-vent of blower fan 13 through the axis direction direct piping of blast regulator 20, cryogenic piping 15, blower fan 13 is sent into averaging wind pipe road 7 by the air after cooling from air outlet after overcoming heat circulating system resistance, averaging wind pipe road 7 has equal wind hole in the part of inserting resistance heater group working space by insulation shell 1, makes the air-out of averaging wind pipe road 7 in resistance heater group working space even. The exposed outer surface of heat circulating system, all with heat-insulation layer, is avoided heat energy loss. In the time that device does not need to user's heat supply, first opening air door in by-pass line 21 closes blast regulator 20 again and prevents that hot-air from flowing into heat exchanger 12, in the time of accumulation of heat duty, blower fan 13 drives the Air Flow in resistance heater group working space, the heat that drives resistive element 19 to send upwards transmits, and thermal cycle air stream does not enter heat exchanger 12 through by-pass line 21 and does work. This device is arranged on ground 22, is regulated by the automatic data acquisition of control system, accumulation of heat, the operation of heat release duty.

Claims

1. a solid electric heat-storage device, it includes insulation shell, bearing wall, resistance heater group, heat storage, heat circulating system, foundation structure and control system, it is characterized in that: in each space of being set up by bearing wall in insulation shell, be provided with and adopt the directly resistance heater group of power supply of 66kV～500kV electric pressure power supply, this resistance heater group is formed by connecting by several resistance heated units in series, resistance heated unit is by pedestal, all press support, stratie forms, pedestal is the many column electrotechnical ceramics that meet insulating requirements that are supported on made from metal and insulation section bar, on glass bar or be arranged on the platform on insulating materials building block, on pedestal, be provided with and all press support, on support, be supported with stratie all pressing, foundation structure is made up of cable duct, bearing wall, ground, heat storage is to be installed and formed by cuboid or square assembly tier array, and cuboid or square assembly are to be made up of cast iron or the heat resisting steel section bar of inside installation composite inorganic heat-storing material, described heat circulating system comprises the circulation canal that is arranged on insulation shell outside, and being arranged on heat exchanger, blower fan and the blast regulator parts on circulation canal, described circulation canal two ends are connected with the averaging wind pipe road of bottom in the high temperature air chamber of insulation shell internal upper part and insulation shell respectively.

2. solid electric heat-storage device according to claim 1, is characterized in that: described resistance heater group is connected in series and is formed by several resistance heated unit horizontal.

3. solid electric heat-storage device according to claim 1, is characterized in that: the described blast regulator with electric adjusting mechanism is arranged on air inlet or the air outlet place of heat exchanger.

4. solid electric heat-storage device according to claim 1, it is characterized in that: described bearing wall is provided in a side of in insulation shell, set up resistance heater group working space and support heat storage weight, tolerate building by laying bricks or stones or the member of moulding by casting of 1000 DEG C or above high temperature.

5. solid electric heat-storage device according to claim 1, is characterized in that: the described support of all pressing is the rhabodoid that electrotechnical ceramics, glass or mica are made.

6. solid electric heat-storage device according to claim 1, is characterized in that: described resistive element is to be made up of heating wire, electric heating piece or electrothermal tube high temperature resistance material.

7. solid electric heat-storage device according to claim 1, it is characterized in that: described composite inorganic heat-storing material be made by metal oxide, salt or bases phase-change material compatibility in 850 DEG C of following operating temperature intervals of heat storage, there is phase-transition heat-storage characteristic or do not have phase-change characteristic agglomerate, sintered balls, build building block.

8. solid electric heat-storage device according to claim 1, it is characterized in that: described circulation canal is to be connected to the pipeline that between insulation shell, heat exchanger, blast regulator, blower fan, metal or the heat proof material for the setting of hot-air sealing and circulating forms, point high-temperature pipe, cryogenic piping, by-pass line, averaging wind pipe road; High-temperature pipe is that the T of 800 DEG C of air themperatures of tolerance connects three-port structure, its axis direction two straight-through ports, and one end is connected in the high temperature air chamber of heat storage by insulation shell, and the other end is connected with heat exchanger; Cryogenic piping is that T connects three-port structure, its axis direction two straight-through ports, and one end is connected to blast regulator, and the other end is connected with blower fan air-vent; By-pass line is the metallic conduit of internally charged moving air door, is connected between the T adapter pipeline joint that belongs to three-port structure high-temperature pipe and cryogenic piping together; Averaging wind pipe road is connected to fan outlet and inserts the resistance heater group working space in insulation shell.