CN103086449A

CN103086449A - Intermediate-frequency power supply sewage treatment and metal recovery system

Info

Publication number: CN103086449A
Application number: CN2013100009529A
Authority: CN
Inventors: 牟永生; 刘典军; 王曙光
Original assignee: Individual
Current assignee: Beijing Heng Qi New Energy Technology Co Ltd
Priority date: 2013-01-05
Filing date: 2013-01-05
Publication date: 2013-05-08
Anticipated expiration: 2033-01-05
Also published as: CN103086449B

Abstract

The invention relates to a comprehensive sewage utilization system, belonging to the technical field of sewage utilization. The system comprises a sewage suction sub-system, a sewage treatment sub-system, an air compression sub-system, a clean water preparation sub-system and an air power generation sub-system and is characterized in that the sewage suction sub-system is used for supplying sewage to the sewage treatment sub-system; the sewage treatment sub-system is used for dividing the sewage into thick sewage and high-pressure steam; the air compression sub-system compresses and stores the air by use of the high-pressure steam; the clean water preparation sub-system is used for preparing the condensed water into clean water reaching the emission standard; and the air power generation sub-system generates power by use of the stored compressed air. The system provided by the invention can supply high-quality clean water, generate power by use of the generated high-pressure air and produce fertilizer, and has a high efficiency and low cost.

Description

Intermediate frequency power supply sewage disposal and metal recovery system

Technical field

The present invention relates to a kind of intermediate frequency power supply sewage disposal and metal recovery system, relate in particular to a kind of efficiency is high and cost is low intermediate frequency power supply sewage disposal and metal recovery system, belong to sewage and utilize technical field.

Background technology

In prior art, sewage treatment process forms high pressure steam and directly forms water of condensation, and also stores a large amount of energy in high pressure steam, mostly this energy is not used, and has caused waste.

Summary of the invention

For overcoming the technical problem existed in prior art, the application's goal of the invention is to provide a kind of intermediate frequency power supply sewage disposal and metal recovery system, described system can provide the cleaning water of high-quality, produced high-pressure air can be generated electricity and can manufacture fertilizer or reclaim metal, its efficiency is high and cost is low.

For realizing described goal of the invention, the invention provides a kind of sewage utilization system, it comprises that sewage draws subsystem, sewage disposal subsystem, air compressing subsystem, cleaning water and produces subsystem and air power generation sub-system, it is characterized in that, described sewage draws subsystem for sewage being offered to the sewage disposal subsystem, and the sewage disposal subsystem obtains strong sewage and steam by the sewage heating; The air compressing subsystem utilizes steam air is compressed and stored, and cleaning water is produced subsystem for vapor condensation being become to water and making the cleaning water that reaches emission standard; The gas power generation sub-system utilizes stored pressurized air to be generated electricity.

Preferably, described sewage draws subsystem and comprises: air bag pump, the first reversing valve, the second reversing valve and the first gas-holder, wherein, air bag pump comprises the first container, second container, is arranged on the first interior air bag of the first container and is arranged on the second air bag in second container, and the first air bag and the second air bag alternately are communicated with the first gas-holder by the first reversing valve; The first container and second container alternately are communicated with sewage disposal subsystem and source of sewage by the second reversing valve respectively.

Preferably, the sewage disposal subsystem comprises intermediate frequency gasifier and sludge sump, and wherein, the intermediate frequency vaporizer heats generating steam and strong sewage by sewage, and sludge sump is for depositing strong sewage.

Preferably, contain a large amount of metallic particles in described sewage.

Preferably, the air compressing subsystem comprises air bag air compressor, the 3rd reversing valve, the 4th reversing valve, Middle pressure draught fan and the second gas-holder, wherein, the air bag air compressor comprises the 3rd container, the 4th container, is arranged on the 3rd interior air bag of the 3rd container and is arranged on the four gasbags in the 4th container, and Middle pressure draught fan and the second high pressure tank alternately are communicated with the 3rd air bag and four gasbags by the 3rd reversing valve respectively; The 3rd container and the 4th container are alternately produced subsystem with intermediate frequency vaporizer and cleaning water by the second reversing valve respectively and are communicated with.

Preferably, cleaning water is produced subsystem and is comprised condenser, and wherein, condenser becomes distilled water by vapor condensation.

Preferably, the gas power generation sub-system comprises turbo-generator, and turbo-generator utilizes the pressurized air that the second gas-holder is stored to be generated electricity after the reducing valve decompression.

Preferably, compressed-air actuated pressure is greater than or equal to 10 standard atmospheric pressures.

Compared with prior art, system provided by the present invention can provide the cleaning water of high-quality, can utilize produced high pressure steam to generate electricity and can manufacture fertilizer, and its efficiency is high and cost is low.

The accompanying drawing explanation

Figure 1A schematic diagram of the longitudinal cross-section along axis during in first location that is electric change valve provided by the invention at spool;

Figure 1B schematic diagram of the longitudinal cross-section along axis during in the second position that is electric change valve provided by the invention at spool;

Fig. 2 A is the schematic perspective view of the valve body of reversing valve provided by the invention;

Fig. 2 B be reversing valve provided by the invention valve body along axis longitudinal cross-section schematic diagram;

Fig. 3 A is the spool schematic perspective view of reversing valve provided by the invention;

Fig. 3 B be reversing valve provided by the invention spool along axis longitudinal cross-section schematic diagram;

Fig. 4 the invention provides the sewage palm fibre to close the schematic diagram that utilizes system;

Fig. 5 is the schematic diagram that sewage provided by the invention draws subsystem;

Fig. 6 is the schematic diagram of air compressing subsystem provided by the invention.

Embodiment

Describe the present invention in detail below in conjunction with accompanying drawing.

Figure 1A schematic diagram of the longitudinal cross-section along axis during in first location that is electric change valve provided by the invention at spool; Figure 1B schematic diagram of the longitudinal cross-section along axis during in the second position that is electric change valve provided by the invention at spool, in sectional view, the through

hole

14,15,16 and 17 of valve body does not exist, and marks in figure, just in order to describe the problem.As shown in Figure 1, electric change valve provided by the invention comprises valve body 2, spool 18 and the valve gap 1 and 3 that is arranged at the valve body two ends and coordinates with valve seal, wherein, one end of spool 18 is provided with axle 5 along axis, buncher can take this axle rotation to, during axle 5 rotation, can in the circular cylindrical cavity of valve body 2, rotate with movable valve plug 18.It is circular through hole 6, through hole 7, through hole 8, through hole 9, through hole 14, through hole 15, through hole 16 and through hole 17 that valve body 2 is disposed radially cross section, wherein through hole 6 and through hole 7 are about the axis symmetry, through hole 8 and through hole 9 are about the axis symmetry, through hole 14 and through hole 15 are about the axis symmetry, and through hole 16 and through hole 17 are about the axis symmetry.It is oval-shaped communicating pores 10, communicating pores 11, communicating pores 12 and communicating pores 13 that spool 18 is provided with cross section along axis.It is long that circular diameter equals oval-shaped minor axis.When spool 18 rotates to certain position in the circular cylindrical cavity of valve body 2, through hole 6 and through hole 7 are communicated with through communicating pores 10, and through hole 16 and through hole 17 are communicated with through communicating pores 12.Through hole 8 and through hole 9 are blocked by spool, and through hole 14 and through hole 15 are blocked by spool.When spool 18 rotates to another location in the circular cylindrical cavity of valve body 2, through hole 8 and through hole 9 are communicated with through communicating pores 13, and through hole 14 and through hole 15 are communicated with through communicating pores 11.Through hole 6 and through hole 7 are blocked by spool, and through hole 16 and through hole 17 are blocked by spool.

Fig. 2 A is the schematic perspective view of the valve body of reversing valve provided by the invention; Fig. 2 B be reversing valve provided by the invention valve body along axis longitudinal cross-section schematic diagram.As shown in Figure 2, the valve body 2 of reversing valve is provided with circular cylindrical cavity vertically, the 4 row's cross sections that are disposed radially 90 degree that are staggered each other are circular through

hole

6,8,15,17,7,9,14 and 16, wherein, through

hole

6 and 8 is first row, and through

hole

15 and 17 is second row, through

hole

7 and 9 is the 3rd row, through

hole

14 and 16 is the 4th row, and every exhausting hole is 2, the first, second, third and the 4th exhausting hole 90 degree that are staggered each other.Valve body 2 also is provided with three oil holes, and these three oil holes are arranged in the 3rd row.

Fig. 3 A is the spool schematic perspective view of reversing valve provided by the invention; Fig. 3 B be reversing valve provided by the invention spool along axis longitudinal cross-section schematic diagram.As shown in Figure 3, described spool is cylindrical, its diameter equals the diameter of the circular cylindrical cavity that valve body arranges vertically, it is oval-shaped communicating

pores

10,11,12 and 13 that spool is disposed radially mutually be staggered the each other cross section of 90 degree of 2 rows, communicating

pores

10 and 11 is first row, communicating

pores

12 and 13 is second row, and first row is mutually vertical with the second row communicating pores.Described valve body and spool all adopt high-abrasive material to make.

Fig. 4 is the schematic diagram that the invention provides the sewage utilization system.As shown in Figure 4, sewage utilization system provided by the invention comprises that sewage draws subsystem, sewage disposal subsystem, air compressing subsystem, cleaning water and produces subsystem and the gas subsystem that generates electricity, described sewage draws subsystem for sewage being offered to the sewage disposal subsystem, and the sewage disposal subsystem is for adding sewage thermosetting salt and reaching high pressure steam (pressure of described high pressure steam is more than 10 times of standard atmospheric pressure); The air compressing subsystem utilizes high pressure steam that air is compressed and forms high-pressure air and stored, and cleaning water is produced subsystem for high pressure steam being condensed into to water and the water of institute's condensation being made to cleaning water; The gas power generation sub-system utilizes stored high-pressure air to be generated electricity.

Fig. 5 is the schematic diagram that sewage provided by the invention draws subsystem.As shown in Figure 5, air bag pump 28 (air bag pump), the first reversing valve 26, the second reversing valve 27, the first high pressure tank and accurate filter, wherein, air bag pump 28 comprises the first container 31, second container 32, be arranged on the first air bag 33 in the first container and be arranged on the second air bag 34 in second container, the upper end of described the first container 31 is provided with threeway, one end of this threeway is communicated with the first air bag, another two ends can be connected respectively with vapor pipe with inlet pipe, the bottom of described the first container 31 is provided with the first water inlet pipe, the first water inlet pipe place is provided with the first one-way water inlet valve, the sidewall of the first container 31 is provided with the first rising pipe, and the first rising pipe place is provided with the first one-way water outlet valve, the upper end of described second container 32 is provided with threeway, one end of this threeway is communicated with the first air bag, another two ends can be connected respectively with vapor pipe with inlet pipe, and the bottom of described second container 32 is provided with the second water inlet pipe, and the second water inlet pipe place arranges the second one-way water inlet valve, the sidewall of second container 32 is provided with the second rising pipe, and the second rising pipe place is provided with the second one-way water outlet valve.To be connected to the inlet pipe that air bag 34 is communicated with the through hole 6 of the valve body of reversing valve 26, the vapor pipe of high pressure tank is connected to the through hole 7 of the valve body of reversing valve 26, will be connected to the vapor pipe that air bag 34 is communicated with the through hole 14 of the valve body of reversing valve 26.To be connected to the inlet pipe that air bag 32 is communicated with the through hole 8 of the valve body of reversing valve 26, the vapor pipe of high pressure tank is connected to the through hole 9 of the valve body of reversing valve 26, will be connected to the vapor pipe that air bag 32 is communicated with the through hole 16 of the valve body of the first reversing valve 26.To be connected to the water inlet pipe that container 32 is communicated with the through hole 8 of the valve body of reversing valve 27, source of sewage is connected to the through hole 9 of the valve body of reversing valve 26 through water pipe, to be connected to the water shoot that container 32 is communicated with the through hole 16 of the valve body of reversing valve 27, accurate filter is connected to through hole 17.To be connected to the water inlet pipe that container 31 is communicated with the through hole 6 of the valve body of reversing valve 27, source of sewage is connected to the through hole 7 of the valve body of reversing valve 27 through water pipe, to be connected to the water shoot that container 32 is communicated with the through hole 14 of the valve body of reversing valve 27, accurate filter is also connected to through hole 15.When the spool of the first reversing valve 26 rotates in valve body, the first air bag 33 and the second air bag 34 alternately are communicated with the first high pressure tank by the first reversing valve 26; When the spool of the second reversing valve 27 rotates in valve body, the first container 31 and second container 32 alternately are communicated with accurate filter and source of sewage by the second reversing valve 27.Accurate filter is for carrying out the bulk foreign material of prefiltration with filtering sewage to sewage.

The sewage disposal subsystem comprises intermediate frequency vaporizer and sludge sump, wherein the intermediate frequency vaporizer heats generating high pressure steam and strong sewage by sewage, sludge sump is for depositing strong sewage and the evaporation of the water of strong sewage being formed to sludge cake, the treated fertilizer that can be used as farm crop of described sludge cake.If sewage is the waste water of steelworks, contain a large amount of metals in sewage, by after the water evaporation, can stay a lot of metallic particles, so, we can reclaim metal.The principle of work of described intermediate frequency vaporizer is: the outer winding intermediate frequency coil that turns at stainless steel cylinder, when on intermediate frequency coil, adding voltage of intermediate frequency, produce eddy current in stainless steel cylinder, and the water flow in stainless steel cylinder is gasified rapidly.

The air compressing subsystem comprises air bag air compressor, the 3rd reversing valve, the 4th reversing valve, Middle pressure draught fan and the second high pressure tank, wherein, it comprises the air bag air compressor the 3rd container, the 4th container, is arranged on the 3rd air bag in the 3rd container and is arranged on the four gasbags in the 4th container, and Middle pressure draught fan and the second high pressure tank alternately are communicated with the 3rd air bag and four gasbags by the 3rd reversing valve; The 3rd container and the 4th container are alternately produced subsystem with intermediate frequency vaporizer and cleaning water by the second reversing valve and are communicated with.

Fig. 6 is the schematic diagram of air compressing subsystem provided by the invention.As shown in Figure 6, air compression system comprises air bag air compressor, the 3rd reversing valve 20 and the 4th reversing valve 21, Middle pressure draught fan and the second high pressure tank, it is compressed air tank, wherein, the air bag air compressor comprises the 3rd container 23, the 4th container 25, is arranged on the 3rd air bag 22 in container 23 and is arranged on the four gasbags 24 in the 4th container 25, the upper end of the 3rd container 23 is provided with threeway A, the end of this threeway A is communicated with air bag 22, and another two ends can be connected respectively with vapor pipe with inlet pipe; The lower end of the 3rd container 23 is provided with threeway B, and the end of this threeway B is communicated with container 23, and another two ends can be connected respectively with vapor pipe (or water shoot) with inlet pipe (or water inlet pipe).The upper end of the 4th container 25 is provided with threeway C, and the end of this threeway C is communicated with air bag 24, and another two ends can be connected respectively with vapor pipe with inlet pipe; The lower end of the 4th container 25 is provided with threeway D, and the end of this threeway D is communicated with container 5, another two ends can with vapor pipe, be connected respectively.

Reversing valve

20 and 21 has identical structure.As shown in Figure 6, to be connected to the inlet pipe that the 3rd air bag 22 is communicated with the through hole 6 of the valve body of the 3rd reversing valve 20, the vapor pipe of Middle pressure draught fan is connected to the through hole 7 of the valve body of the 3rd reversing valve 20, the through hole 15 of valve body of through hole 14, the three reversing valves 20 that will be connected to the vapor pipe that four gasbags 24 is communicated with the valve body of the 3rd reversing valve 20 is connected to the second high pressure tank through the second end of threeway.To be connected to the inlet pipe that the 3rd air bag 22 is communicated with the through hole 8 of the valve body of the 3rd reversing valve 20, the vapor pipe of Middle pressure draught fan is connected to the through hole 9 of the valve body of reversing valve 20, to be connected to the through hole 16 of the valve body of the first reversing valve with the vapor pipe that the 3rd air bag 22 is communicated with, the through hole 17 of the valve body of reversing valve 20 is connected to high pressure gas holder through the second end of threeway.To be connected to the inlet pipe that the 4th container 25 is communicated with the through hole 8 of the valve body of the 4th reversing valve 21, the vapor pipe of source of high pressure steam is connected to the through hole 9 of the valve body of the 4th reversing valve 21 through check valve, will be connected to the vapor pipe that the 3rd container 23 is communicated with the through hole 16 of the valve body of the 4th reversing valve 21.To be connected to the inlet pipe that the 3rd container 23 is communicated with the through hole 6 of the valve body of the 4th reversing valve 21, the vapor pipe of intermediate frequency vaporizer is connected to the through hole 7 of the valve body of the 4th reversing valve 21 through check valve, will be connected to the vapor pipe that the 3rd container 23 is communicated with the through hole 14 of the valve body of the 4th reversing valve 21.The through hole 15 of the valve body of the

4th reversing valve

21 and 17 accesses the two ends of a threeway through two tracheaes, and the other end of this threeway is connected to condenser with check valve.

The principle of work of air compressing subsystem provided by the invention is as follows: the 4th container 25 and the 3rd container 23 are equivalent to two ventricles of human heart, the 3rd air bag 22 that is installed on the four gasbags 24 at the top in the 4th container 25 and is installed on the top in the 3rd container 23 is equivalent to two atrium of human heart, control four gasbags 24 and the alternately contraction and expansion of the 3rd air bag 22, will be by the air compressing in air bag to the second high pressure tank.0, arrive in time period, the inlet pipe of Middle pressure draught fan and the inlet pipe of four gasbags 24 are connected, the vapor pipe of the 3rd air bag 22 and high pressure gas holder are connected, the 4th container 25 is connected with condenser, and the 3rd container 23 is connected with the intermediate frequency vaporizer, by Middle pressure draught fan, inflates air to four gasbags 24, the steam that the intermediate frequency vaporizer is discharged is filled into the 3rd container 23, after four gasbags 24 is full of air, control the 3rd reversing valve 20 processed and the 4th reversing valve 21 commutations, arrive

in time period, the inlet pipe of the inlet pipe of Middle pressure draught fan and the 3rd air bag 22 is connected, the vapor pipe of four gasbags 24 and high pressure gas holder are connected, the 3rd container 23 is connected with condenser, the 4th container 25 is connected with the intermediate frequency vaporizer, give the 3rd air bag 22 inflations by Middle pressure draught fan, the intermediate frequency vaporizer enters the 4th container 25 by the inlet pipe of the 4th container 25 bottoms simultaneously, the intermediate frequency vaporizer fills high compressed steam to the 4th container 25 by the 4th reversing valve 21, the air of four gasbags 24 is squeezed, be filled into the second high pressure tank by the 3rd reversing valve 20, after air in the 3rd air bag 22 is full of and four gasbags 24 fills contraction fully, control the 3rd reversing valve 20 and the 4th reversing valve 21 actions, exist arrive

in time period, the inlet pipe of Middle pressure draught fan and the inlet pipe of four gasbags 24 are connected, the vapor pipe of the 3rd air bag 22 and the second high pressure tank are connected, the 4th container 25 is connected with condenser, the 3rd container 23 is connected with the intermediate frequency vaporizer, inflate air to four gasbags 24 by Middle pressure draught fan, the steam that the intermediate frequency vaporizer is discharged is filled into the 3rd container 23, air in the 3rd air bag 22 is filled into the second high pressure tank, Middle pressure draught fan gives four gasbags 24 inflations, steam in the 4th container 25 enters condenser, repeats

arrive

process, just by air compressing to high pressure tank.

Cleaning water is produced subsystem and is comprised condenser, and condenser is condensed into distilled water by high pressure steam and forms cleaning water.

The gas power generation sub-system comprises the low pressure gas turbine generator, and the high-pressure air of the second high pressure tank forms low-pressure air after the reducing valve decompression, and described low pressure gas turbine generator utilizes the gas that low-pressure air is stored to be generated electricity.

More than be described with reference to the accompanying drawings principle of work of the present invention, but embodiment is only for explanation the present invention with demonstrating.Specification sheets is only for explaining claims.But protection scope of the present invention is not limited to specification sheets.In the technical scope that any those skilled in the art of being familiar with disclose in the present invention, the variation that can expect easily or replacement, within all should being encompassed in protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of claims.

Claims

1. a sewage utilization system, it comprises that sewage draws subsystem, sewage disposal subsystem, air compressing subsystem, cleaning water and produces subsystem and air power generation sub-system, it is characterized in that, described sewage draws subsystem for sewage being offered to the sewage disposal subsystem, and the sewage disposal subsystem obtains strong sewage and steam by the sewage heating.The air compressing subsystem utilizes steam air is compressed and stored.Cleaning water is produced subsystem for vapor condensation being become to water and making the cleaning water that reaches emission standard.The gas power generation sub-system utilizes stored pressurized air to be generated electricity.

2. sewage utilization system according to claim 1, it is characterized in that, described sewage draws subsystem and comprises: air bag pump, the first reversing valve, the second reversing valve and the first gas-holder, wherein, air bag pump comprises the first container, second container, is arranged on the first interior air bag of the first container and is arranged on the second air bag in second container, and the first air bag and the second air bag alternately are communicated with the first gas-holder by the first reversing valve; The first container and second container alternately are communicated with sewage disposal subsystem and source of sewage by the second reversing valve respectively.

3. sewage utilization system according to claim 2, is characterized in that, the sewage disposal subsystem comprises intermediate frequency gasifier and sludge sump, and wherein, the intermediate frequency vaporizer heats generating steam and strong sewage by sewage, and sludge sump is for depositing strong sewage.

4. sewage utilization system according to claim 3, wherein, contain a large amount of metallic particles in described sewage.

5. sewage utilization system according to claim 4, it is characterized in that, the air compressing subsystem comprises air bag air compressor, the 3rd reversing valve, the 4th reversing valve, Middle pressure draught fan and the second gas-holder, wherein, the air bag air compressor comprises the 3rd container, the 4th container, is arranged on the 3rd interior air bag of the 3rd container and is arranged on the four gasbags in the 4th container, and Middle pressure draught fan and the second high pressure tank alternately are communicated with the 3rd air bag and four gasbags by the 3rd reversing valve respectively; The 3rd container and the 4th container are alternately produced subsystem with intermediate frequency vaporizer and cleaning water by the second reversing valve respectively and are communicated with.

6. sewage utilization system according to claim 5, is characterized in that, cleaning water is produced subsystem and comprised condenser, and wherein, condenser becomes distilled water by vapor condensation.

7. sewage utilization system according to claim 6, is characterized in that, the gas power generation sub-system comprises turbo-generator, and turbo-generator utilizes the pressurized air that the second gas-holder is stored to be generated electricity after the reducing valve decompression.

8. sewage utilization system according to claim 7, is characterized in that, compressed-air actuated pressure is greater than or equal to 10 standard atmospheric pressures.