CN211393849U - Alkali liquor spray set among chemical production - Google Patents

Abstract

The utility model relates to an alkali liquor spraying device in chemical production, which mainly comprises an alkali liquor spraying head arranged on an alkali liquor spraying distribution pipe in an alkali liquor inlet system, the alkali liquor spraying head comprises a spraying head shower head chassis and an alkali liquor spraying head shower head, the alkali liquor spraying head shower head comprises a shower head bottom edge, a shower head sprinkling disc and a shower head differential pressure shower head, the shower head differential pressure shower head comprises a differential pressure shower head jacket, a separation elastic ring and a differential pressure shower head whistle, the separation elastic ring and the differential pressure shower head whistle are arranged in the differential pressure shower head jacket, a dredging hole is arranged on the differential pressure shower head whistle and is arranged in the differential pressure shower head jacket and is arranged at the lower part of the separation elastic ring, the inclination angle alpha =25 degrees in the differential pressure shower head whistle, and the separation elastic ring is an acid and alkali resistant elastic ring, the utility model discloses the spraying effect is more complete, the differential pressure shower head whistle is fixed by the separation elastic ring under the separation platform, the whistle head of the matched differential pressure nozzle is not easy to be blocked in dynamic spraying, and the differential pressure nozzle is more convenient to maintain due to the sparse through hole.

Description

Alkali liquor spray set among chemical production

Technical Field

The utility model relates to a waste sulfuric acid and sodium hypochlorite environmental protection production field, the spray set who uses among the apparatus for producing of waste sulfuric acid residual chlorine preparation sodium hypochlorite, especially an alkali lye spray set among chemical production.

Background

In the production process of the ion membrane method caustic soda device, a plurality of high-purity acid storage tanks are matched, chlorine and hydrogen drying is matched with a plurality of waste sulfuric acid storage tanks, a large amount of toxic and harmful gas is generated in the production process of the chlor-alkali, the chlorine generated is dried by concentrated sulfuric acid in the chlorine drying device, the waste sulfuric acid is a byproduct generated in the chlorine drying process, and a small amount of chlorine partially escapes in the chlorine drying process, the storage, the loading and unloading processes, so that the environment is polluted, and the body health of loading and unloading personnel and transportation personnel is seriously influenced. In the other way, when the waste sulfuric acid is transported, the waste sulfuric acid absorbs the moisture of the chlorine gas and a small amount of the chlorine gas, and the chlorine gas is pumped to the waste chlorine absorption device through the waste chlorine pipeline without diffusing out of the storage tank. At present, most chlor-alkali manufacturers adopt a mode of adding an acid mist catcher and a vacuumizing fan at the top of a waste sulfuric acid storage tank to treat waste chlorine. However, the waste chlorine treatment in the system has the problems of insufficient recovery and large occupied area of recovery facilities. Still another kind, dechlorination chlorine water and chlorine hydride treatment washing chlorine water yield in chemical production ionic membrane workshop are very big, this partial chlorine water gathers and carries out the vacuum dechlorination in the ionic membrane workshop and handle, chlorine advances the systematic chlorine house steward after the dechlorination, cause certain energy consumption to the system, and the liquefaction is except taking charge of the emergency treatment task of the abnormal conditions when producing always, if meet the production abnormal conditions, its chlorine has certain overflow phenomenon, and be difficult to store, can cause certain influence to the environment, present chlorine recovery system's device is too complicated and area is very big, also there is the insufficient phenomenon of recovery.

Disclosure of Invention

An object of the utility model is to provide a safety ring protects, reduces operating personnel working strength, and preparation facility area is little to can carry out the system formula with among the sulfuric acid waste and the residual chlorine in other production links places and retrieve, alkali lye spray set in the apparatus for producing of abundant preparation sodium hypochlorite.

In order to achieve the above object, the utility model provides an alkali lye spray set who uses in the apparatus for producing of waste sulfuric acid residual chlorine preparation sodium hypochlorite, its purpose aims at overcoming prior art's defect, realizes through retrieving residual chlorine in the waste sulfuric acid and the process method of part residual chlorine preparation sodium hypochlorite in the life system, including following step:

step 1, collecting residual chlorine in a waste sulfuric acid solution and residual chlorine in production, and stirring by using nitrogen gas to fully recover and collect;

step 2, controlling the mass fraction of the circulating alkali solution sodium hydroxide solution in the alkali solution elevated tank alkali supply system and the alkali solution spraying circulation system to be 15%;

step 3, controlling the temperature and the flow of the cooling water inlet of the alkali liquor heat exchange system and the temperature and the flow of the alkali liquor inlet and outlet;

step 4, controlling a fan circulating system to ensure the micro negative pressure of the system;

step 5, collecting chlorine overflowing from the tank I into a tank II area, pumping a sodium hydroxide solution with the mass fraction of 15% prepared in an alkali liquor head tank into preparation equipment, and pumping circulating liquid into the preparation equipment together to spray the chlorine in the reverse direction;

step 6, collecting chlorine overflowing from the tank II into a tank III area, pumping the prepared sodium hydroxide solution with the mass fraction of 15% in the alkali liquor head tank into preparation equipment, and pumping the circulating liquid into the preparation equipment together to spray the chlorine in the reverse direction;

and 7, controlling the temperature of the alkali liquor at the circulating outlet, the flow of the alkali liquor, the inlet temperature of cooling water and the inlet flow by the alkali liquor heat exchange system.

Step 8, regulating the concentration of the sodium hypochlorite in the air-sodium hypochlorite storage tank by introducing chlorine and sodium hydroxide with certain concentration;

and 9, controlling the mass fraction of the sodium hypochlorite solution obtained by spraying to be 10%.

And step 10, the chlorine content of the outlet of the fan circulating system is 0%.

Further, the residual chlorine in the waste sulfuric acid solution in the step 1 can also include the step of collecting the residual chlorine in the production, and the nitrogen pressure is 0.4 MPa.

Further, the sodium hydroxide solution with the mass fraction of 15% prepared in the tank in the step 2 and the step 3 is started, and the control flow rate of the alkali liquor circulating system is controlled to be 15-18 m 3/h.

Further, the sodium hydroxide solution with the mass fraction of 15% prepared in the alkali liquor head tank in the step 2 and the step 3 is used for fully collecting and absorbing chlorine which is not fully absorbed in the tank II area, and the alkali liquor is sprayed again in the tank III area, and the control flow rate of the alkali liquor circulating system is controlled to be 15-18 m 3/h.

Furthermore, in the step 4, the circulating system of the fan ensures that the micro negative pressure of the system is between-0.01 MPa and-0.02 MPa, the pressure is controlled by a fan pressure extraction automatic control valve, the air pipe pressure is taken as a main adjusting parameter, the system is put into an automatic control system, and when the abnormal chlorine gas of the system exceeds the standard, the chlorine gas can be further recovered into the system for retreatment.

Further, in the step 5, 6 or 7, the temperature of the circulating alkali liquor outlet is controlled by the alkali liquor heat exchange system to be 35-45 ℃, the flow of the alkali liquor outlet is controlled to be 15-35 m3/h, the temperature of the cooling water inlet is controlled to be-35-30 ℃, the flow of the cooling water inlet is controlled to be 15-30m3/h, the temperature of the alkali liquor outlet is set to be a target temperature value, the temperature in the tank is used as a main adjusting parameter, the alkali liquor outlet automatic control valve is used for cascade control, and the alkali liquor inlet automatic control valve is used for automatic control.

Further, the concentration of the sodium hypochlorite solution in the sodium hypochlorite storage tank prepared in the step 8 or 9 is controlled to be 10% by mass, the online sodium hypochlorite analyzer monitors the pH value and the mass fraction of the sodium hypochlorite, if the mass fraction deviates, the concentration is properly adjusted according to actual conditions, the sodium hypochlorite automatic control valve is sleeved with a control valve for controlling the flow of the sodium hypochlorite, the mass fraction of the sodium hypochlorite is used as a main adjusting parameter, the flow is used as an auxiliary adjusting parameter, and the alkali liquor concentration analyzer, the alkali liquor automatic control valve, the alkali liquor flow meter, the chlorine gas concentration analyzer, the chlorine gas automatic control valve and the chlorine gas flow meter are assisted to adjust.

Further, in the step 10, the chlorine-containing index of the outlet of the fan in the fan circulating system is controlled to be 0% to 0.5%, if the index exceeds the standard and the chlorine-containing index is greater than 0.5%, the preparation device switches emptying and backflow, the exceeding backflow pipe in the backflow facility is switched to a use state, and the waste sulfuric acid residual chlorine preparation sodium hypochlorite system is fed again to absorb the waste sulfuric acid residual chlorine until the waste sulfuric acid residual chlorine preparation sodium hypochlorite system reaches the standard and is discharged until the chlorine is 0%.

An alkali liquor spraying device used in a preparation device of a process method for preparing sodium hypochlorite by using waste sulfuric acid and residual chlorine is characterized by mainly comprising the following steps: the device comprises a waste sulfuric acid tank I unit, a tank II unit, a tank III unit, a waste sulfuric acid inlet header pipe, a nitrogen header pipe, an alkali liquor inlet system, an alkali liquor elevated tank alkali supply system, a fan circulating system, an alkali liquor spraying circulating system, an alkali liquor heat exchange system, a sodium hypochlorite storage tank system and a sodium hypochlorite loading system, wherein the tank II unit is arranged on the outer layer of the waste sulfuric acid tank I unit, the tank III unit is arranged on the outer layer of the tank II unit, the three units of the tank I unit, the tank II unit and the tank III unit are on the same bottom plane, the upper part outside the tank top of the waste sulfuric acid tank I unit is provided with the waste sulfuric acid inlet header pipe, a chlorine pipe and a nitrogen pipe, the nitrogen header pipe and the alkali liquor inlet system penetrate through the tank II unit and the tank III unit; alkali lye elevated tank supplies alkali system and advances alkali lye headtotail, fan circulation system and jar II unit, jar III unit connection, alkali lye spray circulation system and alkali lye injection pipe are connected, alkali lye heat transfer system and alkali lye spray circulation system, jar II, jar III unit connection, sodium hypochlorite storage tank system and jar II, jar III unit connection, sodium hypochlorite loading system and sodium hypochlorite storage tank system connection.

The I unit of useless sulfuric acid jar comprises useless sulfuric acid jar main part, and there are chlorine pipe, useless sulfuric acid pipe, nitrogen gas pipe on the outer upper portion of tank deck, there are II units of jar, jar III units in I unit outsides of useless sulfuric acid jar.

Jar II units packs by jar II jar bodies, jar II tower trays, jar II and constitutes, and there is chlorine pipe, nitrogen gas pipe, pressure pipe, advances alkali lye system, alkali lye to spray the circulation and take over on the outer upper portion of tank deck, has the overflow to take over between jar II units, jar III units, and the bottom is provided with sodium hypochlorite outlet pipe, jar II blowdown takeovers, jar II unit inside and I unit external connection of sulfuric acid waste tank, jar II unit outsides and jar III unit internal connection.

Jar III unit comprises jar III jar bodies, jar III tower trays, jar III packings, level gauge, and there are nitrogen gas pipe, pressure pipe, advance alkali lye system on the outer upper portion of tank deck, and the level gauge is installed to jar III external side wall, and the bottom is provided with sodium hypochlorite outlet pipe, jar III blowdown takeovers, jar III unit inside and jar II unit external connections.

The alkali liquor feeding system comprises an alkali liquor spraying distribution pipe, a distribution pipe connecting pipe and an alkali liquor circulating connecting pipe of a tank II unit; the alkali lye of jar III unit sprays the distributing pipe, the distributing pipe is taken over, still includes that the alkali lye feed liquor indulges pipe, alkali lye injector head, jar II units spray the distributing pipe with the alkali lye of jar III unit, the distributing pipe takeover with, alkali lye circulation feed liquor indulges the pipe and supplies the alkali system with alkali lye elevated tank respectively and supply the alkali entry and advance the alkali lye system and link to each other, eight alkali lye injection distributing pipe equipartitions on jar upper portion, and by indulging connecting pipe, alkali lye circulation takeover, jar III ring coil pipes, jar II ring coil union couplings be circulation path, supply alkali system, alkali lye spray circulation system with alkali lye elevated tank and link to each other the circulation flow, alkali lye elevated tank supplies alkali system and alkali lye spray circulation system, jar II units and jar III unit connection.

The alkali supply system of the alkali liquor elevated tank consists of an alkali liquor return pipe, an alkali liquor return valve, an alkali liquor return connecting pipe, an alkali liquor inlet pipe and an alkali liquor elevated tank emptying pipe; the alkali liquor head tank liquid level meter, the alkali liquor head tank, the alkali liquor inlet pipe, the alkali liquor inlet automatic control valve and the bypass are sleeved; the alkali liquor inlet pipe at the top of the alkali liquor elevated tank is connected with an alkali liquor charging pipe in the alkali liquor spraying and circulating system, the alkali liquor inlet automatic control valve and the bypass are sleeved with the automatic control valve and the bypass control valve, the alkali liquor backflow connecting pipe is provided with an alkali liquor backflow valve, and backflow can be controlled to the alkali liquor elevated tank.

The fan circulation system is formed by sequentially connecting an emptying pipe cover, an emptying pipe, an overproof return pipe, a fan, a pumping pressure automatic control valve, a pumping pressure pipe and a pumping pressure branch pipe, wherein the emptying pipe is provided with a check valve and a pressure transmitter, the pumping pressure pipe is provided with a pumping pressure branch pipe of a tank III and a pumping pressure branch pipe of a tank II, and the pumping pressure automatic control valve device is provided with a negative pressure control system. And the fan circulating system is connected with the tank II unit and the tank III unit.

The alkali liquor spraying circulation system is composed of an alkali liquor circulation tank, an alkali liquor circulation liquid inlet pipe, an alkali liquor automatic control valve, an alkali liquor flowmeter, an alkali liquor charging automatic control valve, an alkali liquor concentration analyzer, an alkali liquor circulation pump, an alkali liquor circulation backflow pipe and an alkali liquor circulation backflow connecting pipe, wherein the alkali liquor circulation tank is provided with an alkali liquor circulation connecting pipe, an alkali liquor circulation liquid inlet pipe, an alkali liquor automatic control valve, an alkali liquor flowmeter, an alkali liquor liquid charging pipe, an alkali liquor flowmeter, an alkali liquor charging automatic control valve, an alkali liquor concentration analyzer, an emptying pipe cover and an emptying pipe, the alkali liquor spraying circulation system is connected with an alkali liquor heat exchange system and an alkali liquor inlet system, the alkali liquor charging pipe is connected with the alkali liquor inlet pipe at the top of an alkali liquor elevated tank in an alkali liquor elevated tank.

The alkali liquor heat exchange system consists of a spiral plate type heat exchanger, a spiral plate type heat exchanger backflow automatic control valve, an alkali liquor circulating cooling water inlet pipe, an alkali liquor outlet automatic control valve, an alkali liquor outlet temperature transmitter, an alkali liquor concentration analyzer, an alkali liquor circulating cooling water outlet pipe, an alkali liquor inlet automatic control valve, an alkali liquor outlet temperature transmitter, an alkali liquor concentration analyzer, a cooling water inlet automatic control valve, a cooling water inlet temperature transmitter and a cooling water flow analyzer, the spiral plate type heat exchanger is provided with a spiral plate type heat exchanger backflow automatic control valve, an alkali liquor outlet automatic control valve, an alkali liquor concentration analyzer, a cooling water inlet automatic control valve, a cooling water inlet temperature transmitter and a cooling water flow analyzer, the parameter setting of the control valve is adjusted according to the production control index requirement, the alkali liquor heat exchange system and an alkali liquor circulating connection pipe in the alkali liquor spraying and circulating system; and the alkali liquor inlet systems in the tank II unit and the tank III unit are connected.

The sodium hypochlorite storage tank system is composed of a sodium hypochlorite storage tank, a sodium hypochlorite liquid outlet pipe, a sodium hypochlorite automatic control valve sleeve, a sodium hypochlorite pump, a sodium hypochlorite solution concentration analyzer, a sodium hypochlorite return pipe, an alkali liquor concentration analyzer, an alkali liquor automatic control valve, an alkali liquor flowmeter, a sodium hypochlorite storage tank liquid level meter, a chlorine gas concentration analyzer, a chlorine gas automatic control valve and a chlorine gas flowmeter. The sodium hypochlorite storage tank import has sodium hypochlorite drain pipe, sodium hypochlorite automatic control valve suit, sodium hypochlorite pump outlet pipe, there are sodium hypochlorite solution concentration analysis appearance, sodium hypochlorite storage tank level gauge in sodium hypochlorite storage tank 1104 lateral wall, and there are sodium hypochlorite back flow, alkali lye feed liquor pipe, alkali lye concentration analysis appearance, alkali lye automatic control valve, alkali lye flowmeter, chlorine concentration analysis appearance, chlorine automatic control valve, chlorine flowmeter at the top, sodium hypochlorite pump import has sodium hypochlorite automatic control valve suit, including sodium hypochlorite automatic control valve and bypass setting.

Sodium hypochlorite loading system comprises sodium hypochlorite feed liquor pipe, sodium hypochlorite tank loading level gauge, sodium hypochlorite automatic control valve, sodium hypochlorite import pipe, sodium hypochlorite loading pump inlet has sodium hypochlorite automatic control valve, sodium hypochlorite import pipe, with sodium hypochlorite storage tank system connection, sodium hypochlorite loading pump outlet is connected with sodium hypochlorite tank loading through sodium hypochlorite loading pipe, sodium hypochlorite tank loading is last to have sodium hypochlorite tank loading level gauge.

Preferably, there is the alkali lye injector head on advancing the alkali lye injection distribution pipe in the alkali lye system, the alkali lye injector head is taken over by alkali lye distribution pipe, nipple, injector head gondola water faucet chassis, alkali lye injector head gondola water faucet, and the nipple upper portion has the outer silk that links to each other with the alkali lye distribution pipe is taken over the internal thread of silk, and the part has the internal thread of nipple, links to each other with the outer silk thread at injector head gondola water faucet chassis center, and the outer silk that follows outside injector head gondola water faucet chassis links to each other with the outer silk thread that follows of alkali lye injector head gondola water faucet.

Preferably, gondola water faucet pressure differential shower nozzle is by pressure differential shower nozzle overcoat, separate and keep off elasticity circle, pressure differential shower nozzle whistle and constitute, pressure differential shower nozzle overcoat internally mounted separates and keeps off elasticity circle, pressure differential shower nozzle whistle.

Preferably, the upper part of the outer side of the differential pressure nozzle outer sleeve is provided with a screw hole, the inner part of the differential pressure nozzle outer sleeve is provided with a separation platform, the differential pressure nozzle outer sleeve is provided with a dredging hole, and the differential pressure nozzle outer sleeve is connected with the shower plate through the screw hole.

Preferably, the pressure difference nozzle whistle is provided with a dredging hole, is arranged inside the pressure difference nozzle outer sleeve and is arranged at the lower part of the blocking elastic ring.

Preferably, the elastic separating ring is arranged at the lower part of the separating platform in the pressure difference nozzle outer sleeve, and the pressure difference nozzle whistle head is pressed at the lower part of the elastic separating ring.

Preferably, the inclination angle & alpha =25 degrees in the pressure difference spray head whistle head.

Preferably, the blocking elastic ring is an acid and alkali resistant elastic ring.

Preferably, the alkali liquor spraying device can be used in an acid liquor spraying production device.

The beneficial effects of the utility model reside in that: the utility model provides an alkali lye spray set among waste sulfuric acid residual chlorine preparation sodium hypochlorite's the apparatus for producing, simple process compares in traditional handicraft: the recovery method of the sodium hypochlorite has the advantages that the process flow of the recovery method is short, the recovery rate of the chlorine in the near-emptying pipe is close to 0%, the recovery rate is more than 99%, the cost is lower, and the operation is easier; compare in traditional area big, retrieve long, and retrieve insufficient method of process flow, the utility model discloses utilize the chlorine after retrieving to carry out abundant reverse contact with the alkali, and add the filler and increase area of contact, reached the effect of abundant separation, collection, recovery, preparation sodium hypochlorite of chlorine. The utility model discloses supporting apparatus for producing is little, and second grade chlorine is retrieved more fully completely, and alkali lye circulation sprays and the design of gondola water faucet pressure differential shower nozzle makes the effect of spraying more complete, and pressure differential shower nozzle whistle relies on to separate to keep off under the platform to keep off the elasticity circle and fix, simultaneously because of separating to keep off the elasticity circle for elastic, can acid and alkali-resistance, sprays more difficult jam to supporting pressure differential shower nozzle whistle dynamic formula, and the design of pressure differential shower nozzle dredging hole makes the maintenance more convenient simultaneously, simultaneously the utility model provides a recovery preparation method simple process, with low costs, and the straight yield is high, is suitable for extensive popularization and application in the production.

Drawings

FIG. 1 is a schematic view of an alkali liquor spraying device in a production device for preparing sodium hypochlorite from waste sulfuric acid and residual chlorine.

FIG. 2 is a schematic view of a tank 1 of the alkali liquor spraying device in chemical production according to the present invention;

FIG. 3 is a schematic view of a tank 2 of the alkali liquor spraying device in chemical production according to the present invention;

FIG. 4 is a schematic view of a tank 3 of the alkali liquor spraying device in chemical production;

FIG. 5 is a schematic view of an alkali liquid spraying tube in an alkali liquid spraying apparatus for chemical production according to the present invention;

FIG. 6 is a schematic view of an alkali liquor spraying head in the alkali liquor spraying device in chemical production according to the present invention;

FIG. 7 is a schematic view of an alkali spray head of an alkali spray device for chemical production according to the present invention;

FIG. 8 is a schematic view of an alkali liquid spray head adapter of the alkali liquid spray device in chemical production according to the present invention;

FIG. 9 is a schematic diagram of a short circuit of an alkali liquid injector head in the alkali liquid injector device in chemical production according to the present invention;

FIG. 10 is a schematic view of an alkali liquid injector head chassis in an alkali liquid injector apparatus for chemical production according to the present invention;

FIG. 11 is a schematic view of an alkali liquid injector head of the alkali liquid injector of the chemical production apparatus of the present invention;

FIG. 12 is a schematic view of a differential pressure nozzle of an alkali shower head in the alkali shower device for chemical production of the present invention;

FIG. 13 is a schematic view of an alkali supply system for an alkali liquid head tank in the alkali liquid spraying device in chemical production of the present invention;

FIG. 14 is a schematic view of a fan circulation system in an alkali liquor spraying device in chemical production according to the present invention;

FIG. 15 is a schematic view of an alkali liquor spraying circulation system in an alkali liquor spraying device in chemical production according to the present invention;

FIG. 16 is a schematic view of an alkali liquor heat exchange system in the alkali liquor spraying device in chemical production according to the present invention;

FIG. 17 is a schematic view of a sodium hypochlorite storage tank system in an alkaline solution spraying device in chemical production according to the present invention;

FIG. 18 is a schematic view of a sodium hypochlorite loading system in an alkaline solution spraying device in chemical production according to the present invention;

in fig. 1: 1 is a unit of a waste sulfuric acid tank I; 2 is a tank II unit; 3 is a tank III unit; 4 is a waste sulfuric acid liquid inlet main pipe; 5 is a nitrogen header pipe; 6 is an alkali liquor inlet pipe; 7 is an alkali liquor elevated tank alkali supply system; 8 is a fan circulating system; 9 is an alkali liquor spraying and circulating system; 10 is an alkali liquor heat exchange system; 11 is a sodium hypochlorite storage tank system; and 12, a sodium hypochlorite loading system.

In fig. 2: 1A is a front view of a waste sulfuric acid tank I; 1B is a schematic view of the downward connection pipe of the waste sulfuric acid tank I; 101 is a waste sulfuric acid tank; 102 is a chlorine pipe; 103 is a waste sulfuric acid pipe; 104 is a nitrogen gas pipe; 105 is chlorine pipe.

In fig. 3: 2A is a front view of a tank II; 2B is a schematic view of the top view of the adapter of the tank II; 201 is a tank II; 202 is a tank II tray; 203 is a tank II filler; 204 is a chlorine pipe; 205 is a nitrogen gas pipe; 206 is a pressure pumping pipe; 207 is chlorine pipe; 208 is an alkali liquor spraying circulating connection pipe; 209 is an alkali liquor spraying circulation connecting pipe; 210 is an overflow connecting pipe; 211 is an outlet pipe; 212 is a sewage discharge connecting pipe of a tank II;

in fig. 4: 3A is a front view of a tank III; 3B is a schematic view of the top view of the adapter of the tank III; 301 is a tank III; 302 is a drum III tray; 303 is a tank III packing; 304 is a liquid level meter; 305 a nitrogen gas pipe; 306 is a pressure pumping pipe; 307 is a tank III blowdown connecting pipe;

in fig. 5: 6A is a front view of the alkali liquor injection pipe; 6A is a top view of the alkali liquor injection pipe; 601 is an alkali liquor spraying distribution pipe; 602 is a distribution pipe adapter; 603 is an alkali liquor circulating connection pipe; 604 is a longitudinal connecting pipe; 605 is a distribution pipe connection pipe; 606 is an alkali liquor spraying distribution pipe; 607 is a vertical pipe for feeding alkali liquor; 608 is an alkali liquor injection head, 609 is a tank III annular coil pipe; 610 is a tank ii loop coil.

In fig. 6: 608A is an enlarged partial schematic view of the alkali liquor injector head; 608B is the front view of the alkali liquor injector head; 608C is a schematic view of the direction of the alkali liquor injector head C; 6081 is an alkali liquor distribution pipe adapter; 6082 it is a short connecting pipe; 6083 spray head shower head chassis; 6084 is an alkali liquor spray head shower.

In fig. 8: 6081A is the front view of the connecting pipe of the alkali liquor distribution pipe; 6081B is a top view of the adapter tube of the alkali liquor distribution tube;

in fig. 9: 6082A is the main view of the nipple; 6082B is a top view of the nipple.

In fig. 10: 6083A is the front view of the shower head chassis of the spray head; 6083B is a top view of the showerhead chassis.

In fig. 11: 6084A is the front view of the shower head of the alkali liquor spraying head; 6084C is a direction view of the shower head of the alkali liquor spraying head; 60841 is the bottom edge of the shower head; 60842 is a shower plate; 60843 is differential pressure nozzle.

In fig. 12: 60843A is the front view of differential pressure nozzle; 60843B is the top view of differential pressure nozzle; the C direction is 608435 partial schematic diagram; 608431 is pressure difference nozzle cover; 608432 is a pressure difference nozzle hole; 608433 baffle table; 608434 is a baffle elastic ring; 608435 is pressure difference nozzle whistle; 608435 is a pressure difference nozzle hole.

In fig. 13: 701 is an alkali liquor return pipe; 702 is an alkali liquor reflux valve; 703 is an alkali liquor reflux adapter; 704 is an alkali liquor inlet pipe; 705 is an emptying pipe of an alkali liquor head tank; 706 is a liquid level meter of an alkali liquor head tank; 707 is an alkali liquor head tank; 708 is an alkali liquor inlet pipe; 709 is a lye inlet automatic control valve and bypass set; 710 is an alkali liquor inlet pipe.

In fig. 14: 801 is a blow-down pipe cover; 802 is an emptying pipe; an overproof return pipe 803; 804 is a fan; 805 is a pressure pumping automatic control valve; 806 is a check valve; 807 is a pressure transmitter; 808 is a pressure pumping pipe; 809 is a pressure pumping branch pipe; and 810 is a pressure extraction branch pipe.

In fig. 15: 901 is an alkali liquor circulating connection pipe; 902 is an alkali liquor circulating inlet pipe; 903 is an alkali liquor automatic control valve; 904 is an alkali liquor flowmeter; 905 is an alkali liquor charging pipe; 906 is an alkali liquor flowmeter; 907 is an alkali liquor charging automatic control valve; 908 is an alkali solution concentration analyzer; 909 is a blow-down pipe cover; 910 is an emptying pipe; 911 is a liquid level meter of the alkali liquor circulating tank; 912 is an alkali liquor circulating tank; 913 is an alkali liquor circulating pump; 914 is an alkali liquor circulating inlet pipe; 915 is an alkali liquor circulating inlet pipe; 916 is a bypass of an alkali liquor circulating liquid inlet pipe; 917 alkali liquor circulation inlet pipe; 918 is an alkali liquor circulating connection pipe; 919 is a circulation reflux pipe for alkali solution; 920 alkali liquor circulation reflux connection pipe.

In fig. 16: 1001 is a spiral plate type heat exchanger reflux automatic control valve; 1002 is an alkali liquor circulating cooling water inlet pipe; 1003 is an alkali liquor outlet automatic control valve; 1004 is a temperature transmitter of the alkali liquor outlet; 1005 is an alkali liquor concentration analyzer; 1006 is an outlet pipe of circulating cooling water of alkali liquor; 1007 is a spiral plate heat exchanger; 1008 is an automatic control valve for the alkali liquor inlet; 1009 is the alkali liquor outlet temperature transmitter; 1010 is an alkali liquor concentration analyzer; 1011 is a cooling water inlet automatic control valve; 1012 is a cooling water inlet temperature transmitter; 1013 is a cooling water flow analyzer.

In fig. 17: 1101 is a sodium hypochlorite liquid outlet pipe; 1102 is sodium hypochlorite automatic control valve set; 1103 is a sodium hypochlorite pump; 1104 is a sodium hypochlorite storage tank; 1105 is a sodium hypochlorite solution concentration analyzer; 1106 is sodium hypochlorite pump outlet pipe; 1107 is a sodium hypochlorite outlet pipe; 1108 is a sodium hypochlorite reflux pipe; 1109 is an alkali liquor inlet pipe; 1110 is an alkali solution concentration analyzer; 1111 is an alkali liquor automatic control valve; 1112 is an alkali liquor flowmeter; 1113 is a sodium hypochlorite storage tank liquid level meter; 1114 is a chlorine concentration analyzer; 1115 is a chlorine self-control valve; 1116 is a chlorine gas flow meter.

In fig. 18: 1201 is a sodium hypochlorite liquid inlet pipe; 1202 is sodium hypochlorite storage tank loading; 1203 is a sodium hypochlorite storage tank loading liquid level meter; 1204 is sodium hypochlorite automatic control valve; 1205 is a sodium hypochlorite inlet pipe; 1206 is sodium hypochlorite loading tube; 1207 is a sodium hypochlorite loading pump.

Detailed Description

In order to explain the technical content, the objects and the effects of the present invention in detail, the following description will be given with reference to the embodiments.

The utility model discloses the most crucial design lies in: alkali liquor is used for circularly spraying and chlorine is recycled in a second stage, residual chlorine in the waste sulfuric acid solution is fully absorbed to prepare sodium hypochlorite, and the effect of zero emission of chlorine can be achieved.

Referring to the attached drawings 1-18, the embodiment 1 of the utility model provides an alkali lye spray set who uses in the apparatus for producing of waste sulfuric acid residual chlorine preparation sodium hypochlorite in order to reach above-mentioned purpose, its purpose aims at overcoming prior art's defect, realizes fully spraying in the apparatus for producing of part residual chlorine preparation sodium hypochlorite in through retrieving residual chlorine in the waste sulfuric acid and the life system, specifically includes following step:

step 1, collecting residual chlorine in the waste sulfuric acid solution, residual chlorine for dechlorination water and chlorine hydrogen treatment washing in an ionic membrane workshop in a production and loading process, pressurizing to 0.4MPa by using nitrogen, stirring, fully recovering and collecting;

step 2, controlling the mass fraction of the circulating alkali liquor in the alkali liquor elevated tank alkali supply system 7 and the alkali liquor spraying circulation system 9 to be 15 percent of sodium hydroxide;

step 3, controlling the temperature and the flow of the cooling water inlet of the alkali liquor heat exchange system 10 and the temperature and the flow of the alkali liquor inlet and outlet;

step 4, controlling a fan circulating system 8 to ensure that the micro negative pressure of the system is 0.01MPa to-0.02 MPa;

step 5, collecting chlorine overflowing from the unit 1 in the tank I into a unit 2 area in the tank II, pumping a prepared sodium hydroxide solution with the mass fraction of 15% in an alkali liquor head tank supply system 7 into an alkali liquor inlet system 6 at the upper part of the preparation equipment, and pumping the circulating liquid of an alkali liquor spraying circulating system 9 through an alkali liquor heat exchange system 10 into the preparation equipment together for reversely spraying the chlorine;

step 6, collecting chlorine overflowing from the unit 2 in the tank II into a unit 3 area in the tank III, pumping a sodium hydroxide solution with the mass fraction of 15% prepared in an alkali liquor head tank 707 in an alkali liquor head tank supply system 7 into an alkali liquor system 6 at the upper part of the preparation equipment, and pumping a circulating liquid of an alkali liquor spraying circulating system 9 through an alkali liquor heat exchange system 10 into the preparation equipment together to spray the chlorine flowing upwards in the reverse direction;

and 7, controlling the temperature of the alkali liquor at the circulating outlet, the flow of the alkali liquor, the temperature of the cooling water inlet and the flow of the cooling water inlet by using the prepared sodium hydroxide solution with the concentration by the alkali liquor spraying and circulating system 9 through an alkali liquor heat exchange system 10.

And 8, regulating the concentration of the sodium hypochlorite wind sodium storage tank 1104 in the sodium hypochlorite storage tank system 11 by introducing chlorine with a certain mass fraction of 10% and sodium hydroxide solution with a certain mass fraction of 15%, and simultaneously controlling the inflow flow to be 5-15 m3/h of chlorine and 5-15 m3/h of sodium hydroxide solution.

And 9, collecting the sodium hypochlorite solution prepared by spraying into a sodium hypochlorite wind sodium storage tank 1104 in a sodium hypochlorite storage tank system 11, wherein the mass fraction of the sodium hypochlorite wind sodium is controlled to be 10%.

And step 10, the chlorine content at the outlet of the fan 804 in the fan circulating system 8 is 0%.

Further, the residual chlorine in the waste sulfuric acid solution in the step 1 can also comprise collecting residual chlorine in production, such as residual chlorine for dechlorination water in an ion membrane workshop and chlorine hydrogen treatment and washing in the production and loading process, and the nitrogen pressure for stirring is 0.4 MPa.

Further, the sodium hydroxide solution with the mass fraction of 15% prepared in the tank in the step 2 and the step 3 is started, and the flow rate of the sodium hydroxide solution in the alkali liquor circulating system, the alkali liquor spraying circulating system 9 and the alkali liquor inlet system 6 is controlled to be 15-18 m 3/h.

Further, the sodium hydroxide solution with the mass fraction of 15% prepared in the alkali liquor head tank 707 in the step 2 and the step 3 is fully collected and absorbed by the chlorine gas which is not fully absorbed in the tank II unit 2 area, and is sprayed by the alkali liquor again in the tank III unit 3 area, and the control flow rate of the alkali liquor circulating system is controlled to be 15-18 m 3/h.

Furthermore, in the step 4, a fan circulating system 6 is used for ensuring that the micro negative pressure of the system in the preparation facility is between-0.01 MPa and-0.02 MPa, the fan pressure-extraction automatic control valve 805 controls the pressure to control the micro negative pressure of the whole device, the air pipe pressure 807 is used as a main adjusting parameter, and the system is put into an automatic control system, and when the abnormal chlorine gas of the system exceeds the standard, the chlorine gas can be further recycled into the system through an over-standard return pipe 802 for retreatment.

Further, in the step 5, 6 or 7, the alkali liquor heat exchange system 10 controls the temperature of the circulating alkali liquor outlet to be 35 ℃ to 45 ℃, the flow rate of the alkali liquor outlet to be 15m3/h to 35m3/h, the temperature of the cooling water inlet to be-35 ℃ to-30 ℃, the flow rate to be 15m3/h to 30m3/h, the temperature of the alkali liquor outlet to be 40 ℃ is set as a target temperature value, the temperature in the tank is used as a main regulation parameter, the alkali liquor outlet automatic control valve 1003 is used for cascade control, and the alkali liquor inlet automatic control valve 1011 is used for automatic control. When the temperature of the alkali liquor outlet is 50 ℃, the valve position of the cooling water inlet automatic control valve 1011 is automatically adjusted to 100 percent, the temperature of the alkali liquor outlet is 45 ℃, the cooling water inlet automatic control valve 1011 is put into cascade control, meanwhile, the alkali liquor outlet automatic control valve 1003 is put into cascade control, and the rest of control can be combined with manual control and automatic control.

Further, the concentration of the sodium hypochlorite solution in the sodium hypochlorite storage tank 1104 prepared in the step 8 or 9 is controlled to be 10% by mass, the online analyzer of the sodium hypochlorite solution analyzer 1105 monitors the PH value and the mass fraction index of the sodium hypochlorite, if the mass fraction deviates, the concentration is properly adjusted according to the actual situation, the sodium hypochlorite automatic control valve set 1102 controls the flow rate of the sodium hypochlorite, the mass fraction of the sodium hypochlorite is used as a main adjustment parameter, the flow rate of the sodium hypochlorite is used as an auxiliary adjustment parameter, and the alkali liquor concentration analyzer 1110, the alkali liquor automatic control valve 1111, the alkali liquor flow meter 1112, the chlorine concentration analyzer 1114, the chlorine automatic control valve 1115 and the chlorine flow meter 1116 are adjusted, the sodium hypochlorite automatic control valve set 1102 is set to be in a cascade control state, the mass fraction index of the concentration is used as a main adjustment parameter, the 10% is used as a set target value, the target value is set to be 25m3/h, the temperature control index is 25-30 ℃, and the lye self-control valve 1111 and the chlorine self-control valve 1115 are set to be automatically controlled. The flow set value of the lye automatic control valve 1111 is 12m3/h, the concentration mass fraction set value is 10%, the flow set value of the chlorine automatic control valve 1115 is 10m3/h, and the concentration mass fraction set value is 10%. When the production is abnormal, the sodium hypochlorite solution concentration analyzer 1105 displays an abnormal index, and the flow set value of the alkali liquor automatic control valve 1111 and the flow set value of the chlorine automatic control valve 1115 are adjusted as required to control the flow and the concentration displayed by the sodium hypochlorite solution concentration analyzer 1105.

Further, in the step 10, the chlorine index of the outlet of the fan 804 of the fan circulating system 8 is 0% to 0.5%, if the index exceeds the standard and the chlorine index is greater than 0.5%, the preparation device switches emptying and backflow, switches the exceeding backflow pipe in the backflow facility to the use state, and enters the sodium hypochlorite preparation system for preparing waste sulfuric acid and residual chlorine again to be absorbed until the chlorine index reaches the standard and is discharged by 0.

An alkali liquor spraying device used in a production device of a process method for preparing sodium hypochlorite from waste sulfuric acid and residual chlorine is characterized by mainly comprising the following steps: the device comprises a waste sulfuric acid tank I unit 1, a tank II unit 2, a tank III unit 3, a waste sulfuric acid inlet header pipe 4, a nitrogen header pipe 5, an alkali liquor inlet system 6, an alkali liquor elevated tank alkali supply system 7, a fan circulating system 8, an alkali liquor spraying circulating system 9, an alkali liquor heat exchange system 10, a sodium hypochlorite storage tank system 11 and a sodium hypochlorite loading system 12, wherein the tank II unit 2 is arranged on the outer layer of the waste sulfuric acid tank I unit 1, the tank III unit 3 is arranged on the outer layer of the tank II unit 2, the tank I unit 1, the tank II unit 2 and the tank III unit 3 are arranged on the same bottom plane, the waste sulfuric acid inlet header pipe 4, chlorine pipes 102 and 105 and a nitrogen pipe 5 are arranged on the outer upper part of the tank top of the waste sulfuric acid tank I unit 1, the nitrogen header pipe 5 and the alkali liquor inlet system 6 penetrate through the tank II unit 2 and the tank III unit 3, and an overflow connecting pipe 210 is; alkali lye elevated tank supplies alkali system 7 to be connected with into alkali lye system 6, fan circulation system 8 is connected with II units in jar 2, the III unit in jar 3, alkali lye sprays circulation system and is connected with the alkali lye injection pipe, alkali lye heat transfer system 10 sprays circulation system 9, jar II, jar III unit connection with alkali lye, sodium hypochlorite storage tank system and jar II, jar III unit connection, sodium hypochlorite loading system and sodium hypochlorite storage tank system connection.

I unit 1 of useless sulfuric acid jar comprises useless sulfuric acid jar 101 main part, and there are chlorine pipe 102, 105, useless sulfuric acid pipe 4, nitrogen gas pipe 104 on the outer upper portion of tank deck, there are II units of jar 2, the III unit of jar in I unit 1 outside of useless sulfuric acid jar.

Jar II unit 2 comprises jar II jar body 201, jar II tower tray 202, jar II packing 203, there is chlorine trachea 204 on the outer upper portion of tank deck, 207, nitrogen gas pipe 205, take out pressure pipe 206, advance alkali lye system 6, alkali lye sprays circulation takeover 208, there is overflow takeover 210 between jar II unit 2, jar III unit 3, the bottom is provided with sodium hypochlorite outlet pipe 211, jar II blowdown takeover 212, jar II unit 2 inside and I unit external connection of waste sulfuric acid jar, jar II unit 2 outside and jar III unit 3 internal connection.

Tank III unit 3 comprises tank III jar body 301, tank III tower tray 302, tank III filler 303, level gauge 304, and there are nitrogen gas pipe 305, pump pressure pipe 306, advance alkali lye system 6 on the outer upper portion of tank deck, and tank III jar external side wall installs level gauge 304, and the bottom is provided with sodium hypochlorite outlet pipe 211, tank III blowdown takeover 212, and 3 inside and II unit 2 external connections of tank III unit.

The alkali liquor feeding system 6 comprises an alkali liquor spraying distribution pipe 601, a distribution pipe connecting pipe 602 and an alkali liquor circulating connecting pipe 603 of a tank II unit; the alkali lye of jar III unit sprays distribution pipe 606, distribution pipe takeover 605, still includes that the alkali lye inlet liquid indulges pipe 607, alkali lye injector head 608, jar II unit 2 and jar III unit 3's alkali lye injection distribution pipe 601 and 606, distribution pipe takeover 602 and 605, alkali lye circulation inlet liquid indulge pipe 607 supply alkali system 7 with alkali lye elevated tank respectively and supply alkali entry to advance alkali lye system 6 and link to each other, jar upper portion eight alkali lye sprays distribution pipe 601, 606 equipartition, and is connected as circulation path by indulging connecting pipe 604, alkali lye circulation takeover 603, jar III ring coil 609, jar II ring coil 610, supplies alkali system 7, alkali lye spray circulation system 9 with alkali lye elevated tank and links to each other the circulation flow, alkali lye elevated tank supplies alkali system 7 and alkali lye spray circulation system 9, jar II unit 2 and jar III unit 3 to be connected.

The alkali supply system 7 of the alkali liquid elevated tank comprises an alkali liquid return pipe 701, an alkali liquid return valve 702, an alkali liquid return connecting pipe 703, an alkali liquid inlet pipe 704 and an alkali liquid elevated tank emptying pipe 705; an alkali liquor elevated tank liquid level meter 706, an alkali liquor elevated tank 707, an alkali liquor inlet pipe 708, an alkali liquor inlet automatic control valve and a bypass set 709; an alkali liquor inlet pipe 710 and an alkali liquor inlet pipe 704 at the top of the alkali liquor head tank 707 are connected with an alkali liquor charging pipe 905 in the alkali liquor spraying circulation system 9, an alkali liquor inlet automatic control valve and bypass set 709 comprises an automatic control valve and a bypass control valve, an alkali liquor reflux valve 702 is arranged on the alkali liquor reflux adapter pipe 703 and can control reflux to the alkali liquor head tank 707.

The fan circulating system 8 is formed by sequentially connecting an emptying pipe cover 801, an emptying pipe 802, a standard-exceeding return pipe 803, a fan 804, a pressure pumping automatic control valve 805, a pressure pumping pipe 808 and a pressure pumping branch pipe 810, wherein the emptying pipe 802 is provided with a check valve 806 and a pressure transmitter 807, the pressure pumping pipe 808 is provided with a pressure pumping branch pipe 809 of a tank III and a pressure pumping branch pipe 810 of a tank II, and the pressure pumping automatic control valve 805 device is provided with a negative pressure control system. And the fan circulating system 8 is connected with the tank II unit 2 and the tank III unit 3.

The alkali liquor spraying circulation system 9 is composed of an alkali liquor circulation tank 912, an alkali liquor circulation liquid inlet pipe 901, an alkali liquor automatic control valve 903, an alkali liquor flow meter 906, an alkali liquor charging automatic control valve 907, an alkali liquor concentration analyzer, an alkali liquor circulation pump 913, an alkali liquor circulation return pipe 919 and an alkali liquor circulation return pipe 920, wherein the alkali liquor circulation tank 912 is provided with the alkali liquor circulation pipe 901, the alkali liquor circulation liquid inlet pipe 912, the alkali liquor automatic control valve 903, the alkali liquor flow meter 904, an alkali liquor charging pipe 905, the alkali liquor flow meter 906, the alkali liquor charging automatic control valve 907, the alkali liquor concentration analyzer 908, an emptying pipe cover 909 and an emptying pipe 910, the alkali liquor spraying circulation system 9 is connected with an alkali liquor heat exchange system 10 and an alkali liquor inlet system 6, the alkali liquor charging pipe 905 is connected with an alkali liquor inlet pipe 704 at the top of an alkali liquor head tank 707 in the alkali liquor head tank alkali supply.

The alkali liquor heat exchange system 10 comprises a spiral plate type heat exchanger 1007, a spiral plate type heat exchanger reflux automatic control valve 1001, an alkali liquor circulating cooling water inlet pipe 1002, an alkali liquor outlet automatic control valve 1003, an alkali liquor outlet temperature transmitter 1004, an alkali liquor concentration analyzer 1005, an alkali liquor circulating cooling water outlet pipe 1006, an alkali liquor inlet automatic control valve 1018, an alkali liquor outlet temperature transmitter 1009, an alkali liquor concentration analyzer 1010, a cooling water inlet automatic control valve 1011, a cooling water inlet temperature transmitter 1012 and a cooling water flow analyzer 1013, wherein the spiral plate type heat exchanger 1007 is provided with the spiral plate type heat exchanger reflux automatic control valve 1001, the alkali liquor outlet automatic control valve 1003, the alkali liquor concentration analyzer 1005, the cooling water inlet automatic control valve 1011, the cooling water inlet temperature transmitter and the cooling water flow analyzer 1013, the control valve parameter settings are adjusted according to the production control index requirements, the alkali liquor heat exchange system 10 and an alkali liquor circulating connection pipe 901 in the alkali liquor spraying circulation, An alkali liquor circulation connection pipe 918; and an alkali liquor inlet system 6 in the tank II unit 2 and the tank III unit 3.

The sodium hypochlorite storage tank system 11 is composed of a sodium hypochlorite storage tank 1104, a sodium hypochlorite liquid outlet pipe 1101, a sodium hypochlorite self-control valve package 1102, a sodium hypochlorite pump 1103, a sodium hypochlorite solution concentration analyzer 1105, a sodium hypochlorite return pipe 1108, an alkali liquor concentration analyzer 1110, an alkali liquor self-control valve 1111, an alkali liquor flow meter 1112, a sodium hypochlorite storage tank liquid level meter 1113, a chlorine gas concentration analyzer 1114, a chlorine gas self-control valve 1115 and a chlorine gas flow meter 1116. The sodium hypochlorite storage tank 1104 import has sodium hypochlorite drain pipe 1101, sodium hypochlorite automatic control valve suit 1102, sodium hypochlorite pump 1103, sodium hypochlorite pump outlet pipe 1106, sodium hypochlorite storage tank 1104 lateral wall has sodium hypochlorite solution concentration analysis appearance 1105, sodium hypochlorite storage tank level gauge 1113, and there is sodium hypochlorite back flow pipe 1108, alkali lye feed liquor pipe 1109, alkali lye concentration analysis appearance 1110, alkali lye automatic control valve 1111, alkali lye flowmeter 1112, chlorine concentration analysis appearance 1114, chlorine automatic control valve 1115, chlorine flowmeter 1116 at the top, sodium hypochlorite pump 1103 import has sodium hypochlorite automatic control valve suit 1102, sets up including sodium hypochlorite automatic control valve and bypass.

The sodium hypochlorite loading system 12 is composed of a sodium hypochlorite liquid inlet pipe 1201, a sodium hypochlorite loading pipe 1202, a sodium hypochlorite loading liquid level meter 1203, a sodium hypochlorite automatic control valve 1204, a sodium hypochlorite inlet pipe 1205, a sodium hypochlorite loading pipe 1206 and a sodium hypochlorite loading pump 1207, wherein the sodium hypochlorite loading pump 1207 is provided with the sodium hypochlorite automatic control valve 1204 and the sodium hypochlorite inlet pipe 1205 which are connected with the sodium hypochlorite storage tank system 11 at the inlet, the outlet of the sodium hypochlorite loading pump 1207 is connected with the sodium hypochlorite loading pipe 1202 through the sodium hypochlorite loading pipe 1206, and the sodium hypochlorite loading pump 1202 is provided with the sodium hypochlorite loading liquid level meter 1201.

Preferably, there is alkali lye injector head 608 on alkali lye injection distribution pipe 601 and the 606 in advancing alkali lye system 6, alkali lye injector head 608 is taken over 6081, nipple 6082, injection head gondola water faucet chassis 6083, alkali lye shower head 6084 by alkali lye distribution pipe, and nipple 6082 upper part has the outer silk that links to each other with alkali lye distribution pipe takeover 6081 internal thread is supporting, and the lower part has nipple 6082 internal thread, links to each other with the outer silk screw thread at injection head gondola water faucet 6084 chassis 6083 center, and the outer silk that shower head 6084 chassis 6084 outer edge links to each other with alkali lye shower head 6084 outer edge internal thread.

Preferably, alkali lye injector head gondola water faucet 6084 comprises gondola water faucet base 60841, gondola water faucet spill dish 60842, gondola water faucet pressure differential shower nozzle 60843, gondola water faucet base 60841 and gondola water faucet spill dish 60842, can the screw thread be connected, also can a body coupling, a plurality of gondola water faucet pressure differential shower nozzle 60843 of equipartition on gondola water faucet spill dish 60842.

Preferably, gondola water faucet pressure differential shower nozzle 60843 is by pressure differential shower nozzle overcoat 608431, separate and keep off elasticity circle 608434, pressure differential shower nozzle whistle 608435 and constitute, there is the screw mouth on pressure differential shower nozzle 60843 overcoat outside upper portion, and overcoat inside has to separate keeps off platform 608433, pressure differential shower nozzle dredging hole 608432, separates to install under the platform 608433 and separates and keep off elasticity circle 608434, separates to keep off elasticity circle 608434 and has pressed down pressure differential shower nozzle whistle 608435, pressure differential shower nozzle 60843 overcoat upper portion has the screw mouth, passes through the screw mouth with gondola water faucet dish 60842 and is connected, and pressure differential shower nozzle whistle 608435 relies on to separate to keep off under the platform 608433 and keeps off elasticity circle 608434 and fix, simultaneously because of separating to keep off elasticity circle 608434 for elastic, can acid and alkali-resistance, spray more difficult jam to supporting pressure differential shower nozzle whistle 608435 dynamic formula, the design of pressure differential shower nozzle dredging hole 608432 makes the maintenance more convenient.

Preferably, the pressure difference nozzle whistle 608435 is less than alpha =25 degrees.

Preferably, the blocking elastic ring 608434 is an acid and alkali resistant elastic ring.

Preferably, the alkali liquor spraying device can be used in an acid liquor spraying production device.

The beneficial effects of the utility model reside in that: the utility model provides a chemical production alkali lye spray set among the apparatus for producing sodium hypochlorite from waste sulfuric acid residual chlorine, simple structure compares in traditional technology: the recovery method of the sodium hypochlorite has the advantages that the process flow of the recovery method is short, the recovery rate of the chlorine in the near-emptying pipe is close to 0%, the recovery rate is more than 99%, the cost is lower, and the operation is easier; compare in traditional area big, retrieve long, and retrieve insufficient method of process flow, the utility model discloses utilize the chlorine after retrieving to carry out abundant reverse contact with the alkali, and add the filler and increase area of contact, reached the effect of abundant separation, collection, recovery, preparation sodium hypochlorite of chlorine. The utility model discloses supporting apparatus for producing is little, second grade chlorine is retrieved more fully completely, and the alkali lye circulation sprays and the design of gondola water faucet pressure differential shower nozzle makes the effect of spraying more complete, and pressure differential shower nozzle whistle 608435 relies on keeping off platform 608433 and keeps off elasticity circle 608434 down and fix, simultaneously because of keeping off elasticity circle 608434 for elastic, can acid and alkali-resistance, spray more difficult jam to supporting pressure differential shower nozzle whistle 608435 dynamic formula, and the design that the hole 608432 was dredged to the pressure differential shower nozzle simultaneously makes the maintenance more convenient, simultaneously the utility model provides a recovery preparation method simple process, with low costs, and the straight yield is high, is suitable for extensive popularization and application in production.

The foregoing is a preferred embodiment of the present invention and it should be understood that it is not intended to be exhaustive or to limit the invention to the precise form disclosed, and that modifications and enhancements may be made by those skilled in the art without departing from the principles of the present invention in order to better illustrate the principles and practice of the invention and to enable those skilled in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (8)

1. The utility model provides an alkali lye spraying device in chemical production, the device have the alkali lye injector head on mainly including the alkali lye injection distribution pipe that advances in the alkali lye system, the alkali lye injector head is taken over by alkali lye distribution pipe, nipple, injector head gondola water faucet chassis, alkali lye shower head, and the nipple upper portion has the outer silk that links to each other with the alkali lye distribution pipe is taken over the internal silk of silk, and the part has the internal silk of nipple, links to each other with the outer silk thread at injector head gondola water faucet chassis center, its characterized in that: the outer silk on injector head gondola water faucet chassis outer edge links to each other alkali lye injector head gondola water faucet with the outer silk screw thread in following of alkali lye injector head gondola water faucet, spills the dish, gondola water faucet pressure differential shower nozzle by gondola water faucet base, gondola water faucet and constitutes, the gondola water faucet base spills the dish with the gondola water faucet, and the screw thread is connected or the integral type is connected, and the gondola water faucet spills a plurality of gondola water faucet pressure differential shower nozzle of equipartition on the.

2. The alkali liquor spraying device in chemical production according to claim 1, characterized in that: the pressure difference shower nozzle of the shower head is composed of a pressure difference shower nozzle outer sleeve, a separating and blocking elastic ring and a pressure difference shower nozzle whistle, wherein the separating and blocking elastic ring and the pressure difference shower nozzle whistle are arranged inside the pressure difference shower nozzle outer sleeve.

3. The alkali liquor spraying device in chemical production according to claim 2, characterized in that: the upper part of the outer side of the differential pressure nozzle outer sleeve is provided with a screw hole, the inner part of the outer side of the differential pressure nozzle outer sleeve is provided with a separation platform, the differential pressure nozzle outer sleeve is provided with a dredging hole, and the differential pressure nozzle outer sleeve is connected with the shower plate through the screw hole.

4. The alkali liquor spraying device in chemical production according to claim 2, characterized in that: the pressure difference nozzle whistle is provided with a dredging hole, is arranged inside the pressure difference nozzle outer sleeve and is arranged at the lower part of the blocking elastic ring.

5. The alkali liquor spraying device in chemical production according to claim 2, characterized in that: the elastic separating ring is arranged at the lower part of the separating table in the pressure difference nozzle outer sleeve, and the pressure difference nozzle whistle is pressed at the lower part of the elastic separating ring.

6. The alkali liquor spraying device in chemical production according to claim 2, characterized in that: the inclination angle alpha =25 degrees in the pressure difference spray head whistle.

7. The alkali liquor spraying device in chemical production according to claim 2, characterized in that: the blocking elastic ring is an acid and alkali resistant elastic ring.

8. The alkali liquor spraying device in chemical production according to claim 2, characterized in that: the alkali liquor spraying device can be used in an acid liquor spraying production device.

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