CN208349901U - A kind of interior circulation bidirectional heating integral type energy storage heat-releasing apparatus - Google Patents

Abstract

The utility model discloses a kind of interior circulation bidirectionals to heat integral type energy storage heat-releasing apparatus, wall surface heater, internal heater, spiral tube exchanger bracket, spiral coil water segregator, spiral coil water collector, helical coiled pipe heat exchanger, fused salt, return circulating pump, water supply side transfer tube, temperature sensor, feeding inlet, discharge port, return water interface tube, the interface tube that catchments, storage tank fixed frame, breather valve, internal heater installing port, molten salt energy-storage tank.The utility model uses inside and outside two heaters, reduces the heating power of wall surface heater, improves the safety coefficient of equipment；Simultaneously it is that fused salt heats using internal heater and wall surface heater, accelerates molten salt energy-storage rate, improve molten salt energy-storage tank heat accumulation efficiency；Since the internal heater of this equipment is inserted into inside molten salt energy-storage heat exchange tank, electric heating amount is all absorbed by fused salt, reduces heat dissipation of the wall surface heater to environment, the more conducively fast energy storage of fused salt.

Description

A kind of interior circulation bidirectional heating integral type energy storage heat-releasing apparatus

Technical field

The utility model relates to high-efficiency energy-storage, exothermic technology field, specifically a kind of interior circulation bidirectional heating integral type storage Can heat-releasing apparatus, using inside and outside Bidirectional heating device be that fused salt is heated, at the same using the multiple groups spiral coil in energy storage canister into Heat exchange, is the new and effective energy storage heat-releasing apparatus for integrating a kind of heat accumulation, exothermic technology in row tank.

Background technique

During RECENT DEVELOPMENTS, the mankind are undergoing development most fast since the dawn of human civilization, with being constantly progressive for development, energy The application mode in source also more and more obtains the concern of people.And with China's rapid development of economy, people's lives are in spirit Becoming increasingly abundant on upper and substance, China becomes increasing to the demand of the energy.During economical production, different industries The energy is had different needs, some industries need electric heating to provide a large amount of steam to maintain daily production in process of production Demand can be carried out molten salt energy-storage using paddy valence electricity using energy storage technology at this time, the electricity consumption of daily production is substantially reduced with this Expense, and do not generate any pollutant in the process；Furthermore the energy conservation of gradually increasing with China's civil buildings, civil construction supplies Heat also has become an important topic in China, the convenience of energy storage technology, and spatter property will become resident collective and clean heat supply Selection well.It is computed, a small-sized molten salt energy-storage tank can provide daily for a small-sized dried beef processing factory The heat of need of work；Also can for cell with can peak period comparable heat is being provided, reduce main system for thermal pressure.

In the development process of cleaning energy supply, efficient, convenient and fast energy storage heat exchange equipment will greatly promote heating system Reliability, simplification.A kind of interior circulation bidirectional heating integral type energy storage heat-releasing apparatus is anxious during era development, energy development The energy storage heat exchange equipment needed.

Utility model content

The utility model in view of the deficiencies of the prior art, proposes that a kind of interior circulation bidirectional heating integral type energy storage heat release is set It is standby.This equipment integrates energy storage and heat exchange, mainly by phases such as fused salt tank, wall surface heater, internal heater, spiral tube exchangers Part is closed to constitute.

The technical solution that the utility model solves the technical problem is to design a kind of interior circulation bidirectional heating integral type storage Energy heat-releasing apparatus, wall surface heater, internal heater, spiral tube exchanger bracket, spiral coil water segregator, spiral coil catchment Device, fused salt, return circulating pump, water supply side transfer tube, temperature sensor, feeding inlet, discharge port, returns at helical coiled pipe heat exchanger Waterpipe jointing, the interface tube that catchments, storage tank fixed frame, breather valve, internal heater installing port, molten salt energy-storage tank；

Fused salt is filled with inside the molten salt energy-storage tank, top is provided with feeding inlet, and bottom is provided with discharge port, and Bottom lower surface is equipped with storage tank fixed frame；Molten salt energy-storage tank top is also equipped with breather valve, for adjusting in molten salt energy-storage tank The air pressure in portion；

The wall surface heater is fixed in the outside wall surface of molten salt energy-storage tank, and one end of internal heater is fixed on molten salt energy-storage The top of tank, the other end protrude into inside molten salt energy-storage tank, and multiple internal heater uniform weeks are distributed in molten salt energy-storage tank top 1/3 half At diameter；

Helical coiled pipe heat exchanger is also disposed on the inside of molten salt energy-storage tank, and the multilayer pipeline of helical coiled pipe heat exchanger exists The inside of molten salt energy-storage tank arranges that spiral tube exchanger bracket, which is provided at its inner portion, fixes support to it from top to bottom；Helical disk The arrival end of pipe in pipe is connected to by a spiral coil water segregator with backwater circulation transfer tube, and spiral coil water segregator is set Be equipped with return connector identical with the number of plies of helical coiled pipe heat exchanger, each return connector respectively with helical coiled pipe heat exchanger The arrival end of each layer pipeline is connected to；The water of backwater circulation transfer tube output is entered by each return connector of spiral coil water segregator Into each layer pipeline of helical coiled pipe heat exchanger；It is connect between backwater circulation transfer tube and spiral coil water segregator by return pipe Mouth connection；

The outlet end of helical coiled pipe heat exchanger is connected to by a spiral coil water collector with water supply side transfer tube；Spiral shell Capstan pipe water collector is provided with water collecting joint identical with the number of plies of helical coiled pipe heat exchanger, each water collecting joint respectively with spiral The outlet end of each layer pipeline of coil heat exchanger is connected to；Water in each layer pipeline of helical coiled pipe heat exchanger passes through helical disk Pipe water collector, which drives after bringing together through water supply side transfer tube, flows out molten salt energy-storage tank；Water supply side transfer tube and spiral coil collection Pass through collector pipe orifice between hydrophone；

The temperature sensor being also equipped at the top of molten salt energy-storage tank inside insertion fused salt；

Wall surface heater, internal heater, return circulating pump, water supply side transfer tube, temperature sensor are electrically connected with controller It connects, controller reads the temperature information inside the molten salt energy-storage tank that temperature sensor measures, to regulate and control wall surface heater, interior heating The heating power of device is so that the temperature inside molten salt energy-storage tank maintains in safe range；Controller adjustable backwater circulating pump, The open and close of water supply side transfer tube.

Compared with existing conventional apparatus, the beneficial effect that the utility model utility model patent has is:

1) compared to the molten salt energy-storage tank of traditional wall surface heat form, the utility model uses inside and outside two heaters, reduces The heating power of wall surface heater, improves the safety coefficient of equipment；It is simultaneously fused salt using internal heater and wall surface heater Heating accelerates molten salt energy-storage rate, improves molten salt energy-storage tank heat accumulation efficiency；Due to the internal heater of this equipment be inserted into it is molten Inside salt energy storage heat exchange tank, electric heating amount is all absorbed by fused salt, reduces heat dissipation of the wall surface heater to environment；Same phase Than plug-in type molten salt energy-storage tank, this equipment has higher heating efficiency, the more conducively fast energy storage of fused salt.

2) this molten salt energy-storage heat exchange equipment is simultaneously that fused salt is heated by internal heater and outer heating device, fused salt in tank Heat transfer distances shorten, and heat exchange rate is accelerated, this heating structure keeps the temperature of fused salt during heating more uniform, to subtract Local temperature difference in small molten salt energy-storage heat exchange tank, is more advantageous to the equilibrium of bulk temperature in storage tank.

3) this equipment merges energy storage and exothermic technology within one device, is heated by electric heater to fused salt, Complete molten salt energy-storage；The medium in heat exchanger is completed and the heat exchange of high-temperature molten salt in storage tank simultaneously.Compared to fused salt storage tank with change Hot device equipment separately carries out heat storage and exchange system, and completely in storage tank, the heat of fused salt will not generate in transmission process heat exchanger Dissipation, fused salt heat is entirely delivered to medium, improves the heat exchange efficiency of fused salt and medium.

4) since molten salt energy-storage tank and heat exchanger skid are at an equipment, the two integrated degree is greatly improved, equipment ruler Very little reduction improves the convenience of equipment；Due to the reduction of equipment size, it is more advantageous to the design of system installation diagram；Equally by In the combination of heat storage and exchange technology, difficulty is reduced for the construction of whole system, reduces occupied area, for building for system If providing many convenience.

5) horizontal homogeneous is distributed multiple groups spiral coil from top to bottom in fused salt tank, because of the structure of spiral coil heat exchanger, Keep the rate of temperature fall of high-temperature molten salt temperature constant, guarantees that temperature of molten salt is uniform in tank.Since spiral coil tube side is longer, return water exists Process in helix tube is longer, and heat exchange area increases, and return water temperature can be heated to higher temperature.

6) high integration of the present apparatus greatlies simplify the system process of heat accumulation heat supply.Compared to wall surface plus The energy storage heat-exchange system of heating fused salt tank and heat exchanger composition, this equipment have in terms of cost investment in hot melt salt cellar, tank Comparable advantage.Reduce the expenses such as labour cost and pipeline consumptive material in the construction process simultaneously.

Detailed description of the invention

Fig. 1 is the cross-sectional knot that a kind of interior circulation bidirectional of the utility model heats a kind of embodiment of integral type energy storage heat-releasing apparatus Structure schematic diagram.

Fig. 2 is that a kind of a kind of interior circulation bidirectional heating the perpendicular of embodiment of integral type energy storage heat-releasing apparatus of the utility model cuts open knot Structure schematic diagram (top for having removed molten salt energy-storage tank).

Fig. 3 is that a kind of a kind of interior circulation bidirectional heating entirety of embodiment of integral type energy storage heat-releasing apparatus of the utility model is shown It is intended to.

In figure: 1- wall surface heater；2- internal heater；3- spiral tube exchanger bracket；4- spiral coil water segregator；5- spiral shell Capstan pipe water collector；6- helical coiled pipe heat exchanger；7- fused salt；8- return circulating pump；9- water supply side transfer tube；10- temperature passes Sensor；11- feeding inlet；12- discharge port；13- return water interface tube；14- catchments interface tube；15- storage tank fixed frame；16- breather valve； 17- internal heater installing port；18- molten salt energy-storage tank.

Specific embodiment

It is right below to make those skilled in the art more easily understand the two-way quick heat storage and exchange fused salt tank of the utility model The process flow of two-way quick heat storage and exchange fused salt tank is illustrated, the specific installation site of internal heater and calculating in elaborate process As a result related to the factors such as mounting process, the qualifications of patent are not intended as at about 1/3 radius of appearance, other " three tunnels ", The words such as " six ", " top " are ibid depending on the circumstances.

The utility model provides a kind of interior circulation bidirectional heating integral type energy storage heat-releasing apparatus, wall surface heater 1, interior heating Device 2, spiral tube exchanger bracket 3, spiral coil water segregator 4, spiral coil water collector 5, helical coiled pipe heat exchanger 6, fused salt 7, return circulating pump 8, water supply side transfer tube 9, temperature sensor 10, feeding inlet 11, discharge port 12, return water interface tube 13, catchment Interface tube 14, storage tank fixed frame 15, breather valve 16, internal heater installing port 17, molten salt energy-storage tank 18.

Fused salt 7 is filled with inside the molten salt energy-storage tank 18, top is provided with feeding inlet 11, and bottom is provided with discharging Mouth 12, and bottom lower surface is equipped with storage tank fixed frame 15.Breather valve 16 is also equipped at the top of molten salt energy-storage tank 18, for adjusting Air pressure inside molten salt energy-storage tank 18.

The wall surface heater 1 is fixed in the outside wall surface of molten salt energy-storage tank 18, and one end of internal heater 2 is fixed on fused salt The top of energy storage canister 18, the other end protrude into inside molten salt energy-storage tank 18, and multiple internal heaters 2 uniform week is distributed in molten salt energy-storage tank At 1/3 radius of top；

Helical coiled pipe heat exchanger 6 is also disposed on the inside of molten salt energy-storage tank 18, the multilayer pipe of helical coiled pipe heat exchanger 6 Road arranges that spiral tube exchanger bracket 3, which is provided at its inner portion, fixes support to it in the inside of molten salt energy-storage tank 18 from top to bottom. The arrival end of helical coiled pipe heat exchanger 6 is connected to by a spiral coil water segregator 4 with backwater circulation transfer tube 8, helical disk Pipe water segregator 4 is provided with return connector identical with the number of plies of helical coiled pipe heat exchanger 6, each return connector respectively with helical disk The arrival end of each layer pipeline of pipe in pipe 6 is connected to.The water that backwater circulation transfer tube 8 exports passes through spiral coil water segregator 4 Each return connector enter in each layer pipeline of helical coiled pipe heat exchanger 6.Backwater circulation transfer tube 8 and spiral coil divide water It is connected between device 4 by return water interface tube 13.

The outlet end of helical coiled pipe heat exchanger 6 is connected by a spiral coil water collector 5 and water supply side transfer tube 9 It is logical.Spiral coil water collector 5 is provided with water collecting joint identical with the number of plies of helical coiled pipe heat exchanger 6, each water collecting joint point It is not connected to the outlet end of each layer pipeline of helical coiled pipe heat exchanger 6.Water in each layer pipeline of helical coiled pipe heat exchanger 6 Outflow molten salt energy-storage tank 18 is driven through water supply side transfer tube 9 after bringing together by spiral coil water collector 5.Water supply side driving It is connected between pump 9 and spiral coil water collector 5 by the interface tube 14 that catchments.

The top of molten salt energy-storage tank 18 is also equipped with the temperature sensor 10 inside insertion fused salt.

Wall surface heater 1, internal heater 2, return circulating pump 8, water supply side transfer tube 9, temperature sensor 10 with control Device electrical connection, controller read the temperature information inside the molten salt energy-storage tank 18 that temperature sensor 10 measures, add to regulate and control wall surface Hot device 1, internal heater 2 heating power so that temperature inside molten salt energy-storage tank 18 maintains in safe range.Controller can Adjust the open and close of return circulating pump 8, water supply side transfer tube 9.

The internal heater 2 regards the determination that specific carry calculation result carries out heating power, quantity and installation site, interior to add In the internal heater installing port 17 of hot device being mounted at storage salt tank deck.

The helical coiled pipe heat exchanger 6 is needed using spiral tube exchanger bracket 3 due to own wt and structure to it Carry out the fixation in molten salt energy-storage tank 18, it is ensured that the firm and safety of helical disk heat exchanger.

The process flow of this equipment is after the paddy electricity period starts, and wall surface heater 1 and internal heater 2 are powered, respectively by It is outer and interior that fused salt is quickly heated with both direction from inside to outside.Fused salt is quickly risen by the temperature after heating of electric heater Height, the temperature of fused salt is monitored thermal energy storage by temperature sensor 10 in high-temperature molten salt, while during heating, Temperature of molten salt, which reaches temperature upper limit, then to be stopped heating.High-temperature molten salt and spiral shell after peak potential period starts, inside molten salt energy-storage tank 18 Water in capstan pipe in pipe 6 starts to carry out heat exchange.In heat exchanger after water heat exchange, under the driving of return circulating pump 8 Molten salt energy-storage tank 18 is flowed out, is user's heat supply under the driving of transfer tube 9 into water supply side.It is inhaled so on circulate for return water Receipts heat is user's heat supply, and temperature of molten salt is gradually reduced in molten salt energy-storage tank 18, after dropping to set temperature, stops heat exchange, Until the paddy electricity period carries out molten salt energy-storage again.

Embodiment 1

Its working principle is illustrated below with reference to embodiment further progress, but embodiment is not intended as the application protection scope Restriction.

The present embodiment provides a kind of interior circulation bidirectionals to heat integral type energy storage heat-releasing apparatus, wall surface heater 1, internal heater 2, spiral tube exchanger bracket 3, spiral coil water segregator 4, spiral coil water collector 5, helical coiled pipe heat exchanger 6, fused salt 7, Return circulating pump 8, water supply side transfer tube 9, temperature sensor 10, feeding inlet 11, discharge port 12, return water interface tube 13, collector pipe Interface 14, storage tank fixed frame 15, breather valve 16, internal heater installing port 17, molten salt energy-storage tank 18.

Fused salt is filled with molten salt energy-storage tank 18 from feeding inlet 11 in this embodiment.Due to the optimization of this equipment, fused salt storage Energy tank reduces the occupied space of heat accumulation thermal desorption system, and construction installation progress control is accurate.After the completion of system equipment construction, Xiang Shuan Salt is filled to quick heat storage and exchange fused salt tank, salt is filled and finishes closing feeding inlet, the paddy electricity period carries out fused salt in molten salt energy-storage tank 18 Salt dissolving, by temperature sensor changes.Due to the support of Bidirectional heating technology, temperature of molten salt heating is quick, steady, salt dissolving Time shortens.During molten salt energy-storage later, this equipment is fully able to complete the energy storage of fused salt in the paddy electricity period, in the daytime then Water is filled with into helical coiled pipe heat exchanger 6 by variable ratio frequency changer return circulating pump 8, water is heated in molten salt energy-storage tank 18, Spiral coil water collector 5 collects, and flows out molten salt energy-storage tank 18, so far completes primary two-way quick heat storage and exchange fused salt tank to user The energy-saving heating at end.The equipment in system is changed compared to traditional fused salt heat accumulation, the utility model is characterized in that energy storage and heat release Process is integrated in an equipment, completes energy storage and the supply of whole system within one device, furthermore due to equipment High integration, system footprint area further decreases；The utility model, which is further characterized by, eliminates traditional fused salt storage High-temperature melting salt pump in energy heat-exchange system, considerably simplifies system, while reducing the branch of high-temperature molten salt circulating pump Out, initial investment substantially reduces.

Heat-conducting medium in the present embodiment in helical coiled pipe heat exchanger 6 is water, but the selection of heat-conducting medium regards specific work Depending on being required, it is not limited to water one kind.

Embodiment 2

In this example, molten salt energy-storage tank 18 is in barrel-shaped, 1.5 meters of molten salt energy-storage tank diameter, 1.6 meters high, fused salt storage 3.2 tons of fused salt can be added in heating tank.Start molten salt energy-storage tank 18 at night, carries out fused salt heating storage using night paddy valence electricity Can, fused salt is rapidly heated to 420 DEG C, by heat storage in molten salt energy-storage tank under the mode of Bidirectional heating.Peak potential period is molten Water at low temperature is heated by high-temperature molten salt progress heat exchange in low-temperature return water and tank in salt energy storage canister in helical coiled pipe heat exchanger 6 120 DEG C of steam, then the boiling processing that each workshop carries out food is fed to by frequency conversion water circulating pump.Molten salt energy-storage heat-exchange system During steam is supplied, temperature of molten salt is gradually decreased, while the flow of control system low-temperature return water, guarantees outlet vapor supply. The equipment in system is changed compared to traditional fused salt heat accumulation, the utility model is characterized in that the single heater function in molten salt energy-storage tank Rate reduces, and security performance improves；Due to the high integration of equipment, equipment can be completed to control in the controls, reduce hirer Member's quantity reduces systematic running cost use；The utility model is further characterized by system and has lacked the preliminary of high-temperature melting salt pump Investment, shortens the payoff period of enterprise.

The utility model does not address place and is suitable for the prior art.

Claims (1)

1. a kind of interior circulation bidirectional heats integral type energy storage heat-releasing apparatus, which is characterized in that wall surface heater, internal heater, spiral shell Coil heat exchanger bracket, spiral coil water segregator, spiral coil water collector, helical coiled pipe heat exchanger, fused salt, backwater circulation Pump, storage tank fixed frame, is exhaled at water supply side transfer tube, temperature sensor, feeding inlet, discharge port, return water interface tube, the interface tube that catchments Inhale valve, internal heater installing port, molten salt energy-storage tank；

Fused salt is filled with inside the molten salt energy-storage tank, top is provided with feeding inlet, and bottom is provided with discharge port, and bottom Lower surface is equipped with storage tank fixed frame；Molten salt energy-storage tank top is also equipped with breather valve, for adjusting inside molten salt energy-storage tank Air pressure；

The wall surface heater is fixed in the outside wall surface of molten salt energy-storage tank, and one end of internal heater is fixed on molten salt energy-storage tank Top, the other end protrude into inside molten salt energy-storage tank, and multiple internal heater uniform weeks are distributed in 1/3 radius of molten salt energy-storage tank top Place；

Helical coiled pipe heat exchanger is also disposed on the inside of molten salt energy-storage tank, and the multilayer pipeline of helical coiled pipe heat exchanger is in fused salt The inside of energy storage canister arranges that spiral tube exchanger bracket, which is provided at its inner portion, fixes support to it from top to bottom；Spiral coil heat The arrival end of exchanger is connected to by a spiral coil water segregator with backwater circulation transfer tube, and spiral coil water segregator is provided with Return connector identical with the number of plies of helical coiled pipe heat exchanger, each return connector respectively with each layer of helical coiled pipe heat exchanger The arrival end of pipeline is connected to；The water of backwater circulation transfer tube output enters spiral shell by each return connector of spiral coil water segregator In each layer pipeline of capstan pipe in pipe；Connected between backwater circulation transfer tube and spiral coil water segregator by return water interface tube It is logical；

The outlet end of helical coiled pipe heat exchanger is connected to by a spiral coil water collector with water supply side transfer tube；Helical disk Pipe water collector is provided with water collecting joint identical with the number of plies of helical coiled pipe heat exchanger, each water collecting joint respectively with spiral coil The outlet end of each layer pipeline of heat exchanger is connected to；Water in each layer pipeline of helical coiled pipe heat exchanger passes through spiral coil collection Hydrophone, which drives after bringing together through water supply side transfer tube, flows out molten salt energy-storage tank；Water supply side transfer tube and spiral coil water collector Between pass through collector pipe orifice；

The temperature sensor being also equipped at the top of molten salt energy-storage tank inside insertion fused salt；

Wall surface heater, internal heater, return circulating pump, water supply side transfer tube, temperature sensor are electrically connected with the controller, control Device processed reads the temperature information inside the molten salt energy-storage tank that temperature sensor measures, to regulate and control wall surface heater, internal heater Heating power is so that the temperature inside molten salt energy-storage tank maintains in safe range；Controller adjustable backwater circulating pump supplies water The open and close of side transfer tube.