CN105605957B

CN105605957B - Solid electric heat-storage device

Info

Publication number: CN105605957B
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: 2018-05-25
Anticipated expiration: 2036-04-07
Also published as: CN105605957A

Abstract

A kind of solid electric heat-storage device includes insulation shell, bearing wall, resistance heater group, heat storage, heat circulating system, foundation structure and control system, is characterized in that：In each space in insulation shell by bearing wall foundation, the resistance heater group that power supply is directly powered is installed, which is connected in series by several electrical resistor heating elements；Foundation structure is made of cable duct, bearing wall, ground；Heat storage is made of cuboid assembly array, and cuboid component is made of the cast iron or heat resisting steel of internal installation heat-storing material；Heat circulating system is provided in the sealed closed-circuit air pipeline connected and composed of circulation canal, heat exchanger, blast regulator, fan part of insulation shell appearance, can complete to export thermal energy to heat user.The solid electric heat-storage device that Billy is manufactured with the prior art can reduce equipment volume, reduce electric heating element cost, it is charged to avoid heat storage.

Description

Solid electric heat-storage device

Technical field

It is specifically a kind of direct by 66kV~500kV voltage class the present invention relates to a kind of electric heat storage technology field The solid electric heat-storage device of power supply.The invention can convert electric energy to thermal energy storage in solid heat storage body and can control hot water, Hot wind, steam output.

Background technology

In recent years, with the fast development of power industry, more and more nuclear power plant systems, wind-power electricity generation are emerged in large numbers at home Expansion of the system with installed capacity year by year, peak load regulation network contradiction also become increasingly conspicuous.The heat of heating task is undertaken in the north in winter Fired power generating unit is produced so that warm heat demand determines generated energy in Electricity Federation.Cause cogeneration of heat and power fired power generating unit when the heat demand increase of heating The increase of electricity volume often occurs that only according to the electricity volume of cogeneration of heat and power thermal power plant low ebb phase network load can be met Demand.In order to balance power grid while nuclear power have to be closed, Wind turbines cause to abandon wind, abandon core, waste substantial amounts of clean energy resource；For Production, life heat, one side also want heating plant to dissipate to combust coal and heat, cause air pollution.If it is inhaled with solid electric heat-storage device It receives and abandons wind, abandon nuclear power and can be converted into thermal energy storage in solid heat storage body, heat source is provided to produce, living, be that balance power grid is excellent Change utilization of power, reduce the effective way of fossil energy burning.

The content of the invention

The present invention provides a kind of solid electric heat-storage device in view of the above problems, the installation 66kV in insulation shell ~500kV voltage class power supplys directly heat, the resistance heater group through horizontal series wiring and installation cylinder iron, heat resisting steel, Heat storage made of composite inorganic material；Heat circulating system is additionally provided with outside insulation shell, the in vivo thermal energy of insulation cladding is made Hot water, hot wind, steam are exported to heat user.

Technical scheme is as follows：

A kind of solid electric heat-storage device, it includes insulation shell, bearing wall, resistance heater group, heat storage, heat and follows Loop system, foundation structure and control system, it is characterised in that：In each space in insulation shell by bearing wall foundation, The resistance heater group directly powered using 66kV~500kV voltage class power supplys is installed, the resistance heater group is by several A electrical resistor heating element is connected in series, and electrical resistor heating element presses stent, stratie to form by pedestal, pedestal It is to be supported on the more column electrotechnical ceramics for meeting insulating requirements made of metal and insulation section bar, on glass bar or be mounted on Platform on insulating materials building block is provided on pedestal and presses stent, and stratie is supported by stent pressing； Foundation structure is made of cable duct, bearing wall, ground；Heat storage is by cuboid or square component delamination array installation structure Into cuboid or square component are made of the cast iron or heat-resisting steel profile of internal installation composite inorganic heat-storing material；It is described Heat circulating system includes being arranged on the circulation canal outside insulation shell and the heat exchanger being arranged on circulation canal, wind Machine and blast regulator component, the circulation canal both ends high temperature air chamber and insulation cladding with insulation shell internal upper part respectively The averaging wind pipe road of internal lower part is connected.

The resistance heater group is formed by connecting by several electrical resistor heating element horizontal series.

The blast regulator with electric adjusting mechanism is arranged at the air inlet or air outlet of heat exchanger.Air quantity tune It is for adjusting the device of circulation heat exchanger air quantity to save device；Blast regulator is typically mounted at the air outlet of heat exchanger.

The bearing wall is located in insulation shell, is established resistance heater group working space and is supported accumulation of heat weight Amount, be resistant to 1000 DEG C or more high temperature build by laying bricks or stones or the component of moulding by casting.

The pressure stent is electrotechnical ceramics, glass or rhabodoid made of mica.

The resistive element is made of heating wire, electric heating piece or electrothermal tube high temperature resistance material.

The composite inorganic heat-storing material is being stored made of metal oxide and salt, bases phase-change material compatibility Below hot 850 DEG C of body in operating temperature section, have phase-transition heat-storage characteristic or agglomerate without phase-change characteristic, sintered balls, Pour building block.

The circulation canal be connected between insulation shell, heat exchanger, blast regulator, wind turbine for hot-air it is close The pipeline that the metal or heat proof material that closed loop is set are formed, divides high-temperature pipe, cryogenic piping, by-pass line, averaging wind pipe road.It is high Warm pipeline is to be resistant to the T of 800 DEG C of air themperatures to connect three-way pipeline structure, and two straight-through port of axis direction, one end passes through guarantor Warm housing is connected to the high temperature air intracavitary of heat storage, and the other end is connected with heat exchanger；Cryogenic piping is that T connects three-port structure, Its two straight-through port of axis direction, one end are connected to blast regulator, and the other end is connected with wind turbine air-vent；By-pass line is interior Metallic conduit of the portion with electric flap is connected between the T take over pipeline joints for belonging to three-port structure high-temperature pipe and cryogenic piping together； Averaging wind pipe road is connected to fan outlet and is inserted into the in vivo resistance heater group working space of insulation cladding.

The control system is to complete accumulation of heat power supply and heat management control, using PLC as the intelligent controller of core.

Present invention has the advantages that：

Solid electric heat-storage device of the present invention, in the environment of the access of more than 66kV voltages, Billy's prior art, in accumulation of heat The solid electric heat-storage device of internal array installation heating wire, can reduce equipment volume, reduce heating partial insulation costs, keep away It is charged heat storage has been exempted from.The usable metal of the present invention and the phase-change material of non-electrical insulation do heat storage, without considering heat storage Insulating requirements.It is faster than magnesia, alumina sintering heat storage heat-transfer rate, especially require high-power accumulation of heat, exothermic equipment Advantage is more obvious.The present invention is especially suitable for thermal power plant's generating set heat accumulating type peak regulation, wind field generating set heat accumulating type peak regulation, The low valley period power accumulation of heat balance power grid of solar power system heat accumulating type peak regulation, power grid.The present apparatus can be used as high-power accumulation of heat industry Heat source, can also be as winter accumulation of heat heating source.

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 the sectional view along A-A in Fig. 3 of the present invention；

Fig. 5 is the B-B direction sectional view of Fig. 3 of the present invention.

In figure, 1, insulation shell, 2, bearing wall, 3, electrotechnical ceramics, 4, bar shaped building block, 5, plate shaped building block, 6, press Stent, 7, averaging wind pipe road, 8, cuboid component, 9, cuboid stack face, 10, composite inorganic heat-storing material, 11, high temperature air Chamber, 12, heat exchanger, 13, wind turbine, 14, high-temperature pipe, 15, cryogenic piping, 16, cable duct, 17, lead-in cable, 18, zero curve 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 attached drawing, but following examples is only this hair Bright example therein, does not represent the rights protection scope that is limited of the present invention, and the scope of the present invention is to weigh Subject to sharp claim.

Specific embodiment

Embodiment 1

The structure of solid electric heat-storage device of the present invention as shown in Fig. 1~5,1 in figure be insulation shell, 2 be bearing wall, Resistance heater group, heat storage, heat circulating system, foundation structure and control system, are established in insulation shell by bearing wall Each space in, the resistance heater group directly powered using 66kV~500kV voltage class power supplys is installed, which adds Hot device group is formed by connecting by several electrical resistor heating element horizontal series, and electrical resistor heating element presses stent 6, electricity by pedestal 23, Resistance heating element 19 is formed, and the pedestal 23 is to be made with metal and insulation section bar by the more column for meeting insulating requirements electricity Work ceramics, glass bar the support or platform on insulating materials building block, is provided on pedestal 23 and presses stent 6, pressing stratie 19 is supported by stent 6；Foundation structure is made of cable duct 16, bearing wall 2, ground 22； Heat storage is made of the installation of 8 tier array of cuboid component, and cuboid component 8 is to install composite inorganic heat-storing material by inside 10 cast iron or heat-resisting steel profile are formed；The heat circulating system include being arranged on circulation canal outside insulation shell and 20 component of heat exchanger, wind turbine 13 and blast regulator being arranged on circulation canal, the circulation canal both ends respectively with guarantor The averaging wind pipe road 7 of lower part is connected in the high temperature air chamber 11 and insulation shell of warm housing internal upper part.

The resistance heater group includes pedestal 23, electrotechnical ceramics 3, bar shaped building block 4, plate shaped building block 5, presses stent 6th, resistive element 19 forms, and resistance heater group is arranged in the space of 1 internal loadbearing wall body 2 of insulation shell foundation, it is ensured that resistance Element 19 will not occur during heating work to 8 electric discharge phenomena of bearing wall 2 and cuboid component.Stent 6 is pressed in resistance There is good insulating properties in the work of 19 heating power of element.Resistive element 19, which is mounted on, presses on stent 6, through it is multigroup it is in parallel, The mode of series connection forms electrical resistor heating element.Multigroup electrical resistor heating element is concatenated connecting and composing resistance heater group.Heat storage Including cuboid component 8, cuboid stack face 9, composite inorganic heat-storing material 10, high temperature air chamber 11, heat storage cross-arm exists Upper surface between multiple bearing walls 2, cuboid component 8 should have at high operating temperatures bears hanging resistance to bending, can be 850 Internal installation composite inorganic heat-storing material 10 is born under DEG C regenerator temperature（Such as：Magnesia, alumina brick）Gravity, keep accumulation of heat The stability of body.Based on the plane formed between multiple bearing walls 2, gaps layering is waited securely to put cuboid component 8, Wherein odd-level is with perpendicular to 2 axis direction cross-arm of bearing wall, in 2 upper surface of bearing wall, even level is with parallel to load bearing wall 2 axis direction cross-arm of body is stacked the installation for completing heat storage repeatedly successively on odd-level cuboid component 8.Resistive element 19 The heat sent is communicated up along the gap between cuboid component 8, and thermal energy is absorbed during transmission by heat storage.It protects The magnitude that warm housing 1 makes the heat energy loss of heat storage to be less than 5% daily is stored in heat storage.When device needs to supply to user The wind turbine 13 that the air door that blast regulator 20 is closed in by-pass line 21 is then turned in heat circulating system is first turned on when hot, makes storage Axis direction direct piping of the thermal energy of the high temperature air chamber 11 of hot body upper end through high-temperature pipe 14 is sent into heat exchanger 12, and heat is empty Gas does work to heat transfer medium in heat exchanger 12.Air after 12 inner cooling of heat exchanger is through blast regulator 20, cryogenic piping 15 axis direction direct piping is sent into the air-vent of wind turbine 13, and wind turbine 13 is overcome the sky after cooling after heat circulating system resistance Gas is sent into averaging wind pipe road 7 from air outlet, and averaging wind pipe road 7 is being inserted into the portion of resistance heater group working space by insulation shell 1 Equal air holes is separated by, makes outlet air of the averaging wind pipe road 7 in resistance heater group working space uniform.Exposed outer of heat circulating system Surface with insulating layer, avoids heat energy loss.When device need not be first turned on to during user's heat supply in by-pass line 21 Air door, which turns off blast regulator 20, prevents hot-air inflow heat exchanger 12, and in accumulation of heat working condition, wind turbine 13 drives resistance Air flow in heater group working space drives the heat that resistive element 19 is sent to be communicated up, and circulated heated air flows through By-pass line 21 does not enter heat exchanger 12 and does work.The present apparatus is mounted on ground 22, and data are automatically performed by control system Acquisition, accumulation of heat, heat release working condition runing adjustment.

Claims

1. a kind of solid electric heat-storage device, it includes insulation shell, bearing wall, resistance heater group, heat storage, thermal cycle System, foundation structure and control system, it is characterised in that：In each space in insulation shell by bearing wall foundation, peace Equipped with the resistance heater group directly powered using 66kV~500kV voltage class power supplys, the resistance heater group is by several Electrical resistor heating element is connected in series, and electrical resistor heating element presses stent, stratie to form by pedestal, and pedestal is The more column electrotechnical ceramics for meeting insulating requirements are supported on made of metal and insulation section bar, on glass bar or mounted on exhausted Platform on edge material building block, is provided on pedestal and presses stent, and stratie is supported by stent pressing；Base Plinth structure is made of cable duct, bearing wall, ground；Heat storage is by cuboid or square component delamination array installation structure

Into cuboid or square component are made of the cast iron or heat-resisting steel profile of internal installation composite inorganic heat-storing material； The heat circulating system includes being arranged on the circulation canal outside insulation shell and the heat exchange being arranged on circulation canal Device, wind turbine and blast regulator component, the circulation canal both ends respectively with the high temperature air chamber of insulation shell internal upper part and The averaging wind pipe road of lower part is connected in insulation shell；

Resistance heater group is formed by connecting by several electrical resistor heating element horizontal series；

Blast regulator with electric adjusting mechanism is arranged at the air inlet or air outlet of heat exchanger；

The bearing wall is located in insulation shell, is established resistance heater group working space and is supported accumulation of heat body weight, 1000 DEG C or more high temperature of tolerance build by laying bricks or stones or the component of moulding by casting；

The pressure stent is electrotechnical ceramics, glass or rhabodoid made of mica；

The resistive element is made of heating wire, electric heating piece or electrothermal tube high temperature resistance material；

The composite inorganic heat-storing material is in heat storage made of metal oxide, salt or bases phase-change material compatibility In less than 850 DEG C operating temperature sections, there are phase-transition heat-storage characteristic or agglomerate without phase-change characteristic, sintered balls, pour Building block；

The circulation canal is to be connected between insulation shell, heat exchanger, blast regulator, wind turbine to follow for hot-air is closed The pipeline that the metal or heat proof material that ring is set are formed, divides high-temperature pipe, cryogenic piping, by-pass line, averaging wind pipe road；High temperature pipe Road is that the T of 800 DEG C of air themperatures of tolerance connects three-port structure, and two straight-through port of axis direction, one end is connected by insulation shell In the high temperature air intracavitary of heat storage, the other end is connected with heat exchanger；Cryogenic piping is that T connects three-port structure, axis direction Two straight-through ports, one end are connected to blast regulator, and the other end is connected with wind turbine air-vent；By-pass line is internally charged dynamic wind The metallic conduit of door, is connected between the T take over pipeline joints for belonging to three-port structure high-temperature pipe and cryogenic piping together；Averaging wind pipe road connects It is connected on fan outlet and is inserted into the in vivo resistance heater group working space of insulation cladding.