CN216159019U

CN216159019U - Intelligent heat storage and heat storage steam system

Info

Publication number: CN216159019U
Application number: CN202121853416.XU
Authority: CN
Inventors: 李文; 丁薛峰; 刘海军; 马振国
Original assignee: Pioneer Energy Jiangsu Co ltd
Current assignee: Pioneer Energy Jiangsu Co ltd
Priority date: 2021-08-10
Filing date: 2021-08-10
Publication date: 2022-04-01
Anticipated expiration: 2031-08-10

Abstract

The utility model relates to an intelligent heat storage and heat storage steam system, which comprises: a water inlet system, an energy storage system and a steam system; the water inlet system comprises a soft water tank; a heat reservoir is arranged in the energy storage system; a circulation pipeline is arranged on the soft water tank; one end of the circulation pipeline is communicated with the heat reservoir; the upper end of the heat reservoir is provided with a primary air outlet pipeline; an evaporating tank and a steam-water separation buffer tank are arranged in the steam system; the primary air outlet pipeline is communicated with the evaporation tank; a secondary air outlet pipeline is arranged on the evaporation tank; the secondary air outlet pipeline is communicated with the steam-water separation buffer tank; and a saturated steam outlet pipeline is arranged on the steam-water separation buffer tank. According to the utility model, through the design of the energy storage system and the steam system, energy is stored during valley electricity and released during peak electricity, so that the working cost is greatly reduced, the stability of the energy storage system and the energy release system is ensured, the comprehensive utilization rate is high, and the practicability is high.

Description

Intelligent heat storage and heat storage steam system

Technical Field

The utility model relates to the field of heat reservoirs, in particular to an intelligent heat storage and heat reservoir steam system.

Background

The existing steam generator is classified according to fuels and can be divided into an electric steam generator, a fuel oil steam generator, a fuel gas steam generator and the like, and a large amount of energy is required no matter electric heating, fuel oil heating and fuel gas heating are used, so that huge energy use cost is generated. For some light industry fields, electrical heating is mostly adopted in the light industry, the working time is often the peak power time, and for the light industry and small enterprises, the cost is too high, the production pressure is large, and the product profit is low. Therefore, there is a need for an intelligent thermal storage and storage steam system that is stable, efficient and cost effective.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an intelligent heat storage and heat storage steam system which is stable in work and high in work efficiency.

In order to ensure that the work is stable and the work efficiency is high in the using process, the utility model relates to an intelligent heat storage and heat storage steam system, which comprises:

a water inlet system, an energy storage system and a steam system;

the water inlet system comprises a soft water tank; a heat reservoir is arranged in the energy storage system; a circulation pipeline is arranged on the soft water tank; one end of the circulation pipeline is communicated with the heat reservoir; the upper end of the heat reservoir is provided with a primary air outlet pipeline; an evaporating tank and a steam-water separation buffer tank are arranged in the steam system; the primary air outlet pipeline is communicated with the evaporation tank; a secondary air outlet pipeline is arranged on the evaporation tank; the secondary gas outlet pipeline is communicated with the steam-water separation buffer tank; and a saturated steam outlet pipeline is arranged on the steam-water separation buffer tank.

The energy storage system has the advantages that through the design of the energy storage system and the steam system, energy is stored during valley electricity and released during peak electricity, so that the working cost is greatly reduced, the stability of the energy storage system is ensured during energy storage and energy release, the comprehensive utilization rate is high, and the practicability is high.

Further, the thermal reservoirs are arranged in an array within the energy storage system; a flow transfer pipeline is arranged on the flow transfer pipeline; the tail end of the diversion pipeline is communicated with the heat reservoir; and a check valve and a ball valve are arranged on the diversion pipeline. Thereby carry out cold and hot exchange through changeing the pipeline with normal atmospheric temperature water and let in the hot storehouse and reach the effect of release steam to through setting such as check valve and ball valve, avoid rivers to flow against the current.

Furthermore, a water replenishing pipeline is arranged on the circulating pipeline; one end of the water replenishing pipeline is communicated with the evaporating pot. Through the design of moisturizing pipeline, avoid evaporating pot internal pressure too big.

Furthermore, a pressure transmitter is arranged on the evaporating pot. Through the design of pressure transmitter, guarantee the stability of work in the evaporating pot constantly.

Further, a water inlet pipeline is arranged on the soft water tank; the water inlet pipeline is provided with a soft water resin tank. Through the design of the soft water resin tank, hard water is softened, so that the hardness of the water is less than 50 mg/L.

Furthermore, a steam flowmeter and an electric regulating valve are arranged on the saturated steam outlet pipeline. Through the design of steam flowmeter and electrical control valve, guaranteed the stability that steam flows out, guarantee that steam flow can not produce great change.

Further, a pressure relief pipeline is arranged on the soft water tank; and a pressure relief electric valve is arranged on the pressure relief pipeline. Through the design of the pressure relief pipeline, the stability of the pressure intensity in the whole equipment is ensured.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a structural diagram of a steam system of an intelligent heat storage and storage reservoir.

The corresponding part names indicated by the numbers in the figures:

1. a water intake system; 2. an energy storage system; 3. a steam system; 4. a soft water tank; 5. a thermal reservoir; 6. a flow conduit; 7. a primary air outlet pipeline; 8. an evaporator tank; 9. a steam-water separation buffer tank; 10. a secondary air outlet pipeline; 11. a saturated steam outlet conduit; 12. a diversion pipeline; 13. a check valve; 14. a ball valve; 15. a water replenishing pipeline; 16. a pressure transmitter; 17. a water inlet pipe; 18. a soft water resin tank; 19. a steam flow meter; 20. an electric control valve; 21. a pressure relief duct; 22. a pressure relief electric valve; 23. a temperature detection device.

Detailed Description

The present invention will be further described in detail with reference to the following specific examples:

As shown in fig. 1, in order to ensure stable operation and high operation efficiency during the use process, the utility model relates to an intelligent heat storage and storage steam system, which comprises:

the system comprises a water inlet system 1, an energy storage system 2 and a steam system 3;

the water inlet system 1 comprises a soft water tank 4; a heat reservoir 5 is arranged in the energy storage system 2; a circulation pipeline 6 is arranged on the soft water tank 4; one end of the circulation pipeline 6 is communicated with the heat reservoir 5; the upper end of the heat reservoir 5 is provided with a primary air outlet pipeline 7; an evaporating tank 8 and a steam-water separation buffer tank 9 are arranged in the steam system 3; the primary air outlet pipeline 7 is communicated with the evaporation tank 8; a secondary air outlet pipeline 10 is arranged on the evaporation tank 8; the secondary air outlet pipeline 10 is communicated with the steam-water separation buffer tank 9; and a saturated steam outlet pipeline 11 is arranged on the steam-water separation buffer tank 9.

The energy storage system has the advantages that through the design of the energy storage system 2 and the steam system 3, energy is stored in the valley power, and energy is released in the peak power, so that the working cost is greatly reduced, the stability of the energy storage system is ensured in the energy storage and energy release, the comprehensive utilization rate is high, and the practicability is high.

Further, the thermal reservoirs 5 are arranged in an array within the energy storage system 2; a flow transfer pipeline 12 is arranged on the flow transfer pipeline 6; the tail end of the diversion pipeline 12 is communicated with the heat reservoir 5; the diversion pipeline 12 is provided with a check valve 13 and a ball valve 14. Thereby carry out cold and hot exchange through diversion pipeline 12 with normal atmospheric temperature water let in heat reservoir 5 and reach the effect of release steam to through setting such as check valve 13 and ball valve 14, avoid rivers to flow against the current.

Further, a water replenishing pipeline 15 is arranged on the circulating pipeline 6; one end of the water replenishing pipeline 15 is communicated with the evaporation tank 8. And the excessive pressure in the evaporation tank 8 is avoided by the design of the water replenishing pipeline 15.

Further, a pressure transmitter 16 is arranged on the evaporation tank 8. The stability of the work in the evaporation tank 8 is ensured all the time by the design of the pressure transmitter 16.

Further, a water inlet pipeline 17 is arranged on the soft water tank 4; the water inlet pipeline 17 is provided with a soft water resin tank 18. Through the design of the soft water resin box 18, hard water is softened, so that the hardness of the water is less than 50 mg/L.

Further, a steam flow meter 19 and an electric control valve 20 are arranged on the saturated steam outlet pipeline 11. Through the design of the steam flowmeter 19 and the electric control valve 20, the stability of steam outflow is ensured, and the steam flow is ensured not to generate large change.

Further, a pressure relief pipeline 21 is arranged on the soft water tank 4; the pressure relief pipeline 21 is provided with a pressure relief electric valve 22. Through the design of the pressure relief pipeline 21, the pressure stability in the whole equipment is ensured.

In actual operation, normal atmospheric temperature water passes through inlet channel 17 and gets into, flow in the hot storehouse 5 through circulation pipeline 6, high temperature effect through hot storehouse 5 itself, make normal atmospheric temperature water be heated and become steam, steam is at first discharged through one-level outlet pipe 7, be equipped with temperature-detecting device 23 on the one-level outlet pipe 7, detect real-time steam temperature, then through the processing of evaporating pot 8 and steam vapor-water separation buffer tank 9, reduce its temperature to external required temperature, and evaporating pot 8 supplements the water yield through moisturizing pipeline 15 in real time at the during operation, guarantee the stability of work. All be equipped with the relief valve on each pipeline, the valve that check valve etc. should be equipped with ensures that can not produce unstable influence in the working process.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. The intelligent heat storage and heat storage steam system is characterized by comprising a water inlet system, an energy storage system and a steam system;

2. The intelligent thermal storage thermal store steam system of claim 1, wherein: the thermal reservoirs are arranged in an array within the energy storage system; a flow transfer pipeline is arranged on the flow transfer pipeline; the tail end of the diversion pipeline is communicated with the heat reservoir; and a check valve and a ball valve are arranged on the diversion pipeline.

3. The intelligent thermal storage thermal store steam system of claim 1, wherein: a water replenishing pipeline is arranged on the circulating pipeline; one end of the water replenishing pipeline is communicated with the evaporating pot.

4. The intelligent thermal storage thermal store steam system of claim 1, wherein: and a pressure transmitter is arranged on the evaporating pot.

5. The intelligent thermal storage thermal store steam system of claim 1, wherein: a water inlet pipeline is arranged on the soft water tank; the water inlet pipeline is provided with a soft water resin tank.

6. The intelligent thermal storage thermal store steam system of claim 1, wherein: and a steam flowmeter and an electric regulating valve are arranged on the saturated steam outlet pipeline.

7. The intelligent thermal storage thermal store steam system of claim 1, wherein: a pressure relief pipeline is arranged on the soft water tank; and a pressure relief electric valve is arranged on the pressure relief pipeline.