CN204699420U - Automatic desludging multi-effect evaporating device - Google Patents

Abstract

The utility model discloses a kind of automatic desludging multi-effect evaporating device, comprise upper cover, lower cover, tube-in-tube structure, particle separator, steam-water separator and condenser.Described particle separator comprises input part, separation chamber and particle locker room.The utility model adopts Multilayer sleeve design, forms cavity, reduce floor space between every two sleeves, and between cavity, heat transfer rapidly, improves evaporation efficiency, exposed surface area and open piping few, be easy to be incubated, thermal loss is few.Steam enters particle separator from upper end, feed liquid room, and in separation chamber, solid particle sinks, can effectively scale removal, reduces energy consumption, economize energy, while greatly can extend service life of evaporimeter.

Description

Automatic desludging multi-effect evaporating device

Technical field

The utility model relates to a kind of vaporising device, especially relates to a kind of automatic desludging multi-effect evaporating device.

Background technology

Waste water evaporimeter refers to the class specific use evaporimeter for wastewater treatment.Sewage and kind of waste water various, some waste water, due to containing high concentration salinity, cannot biochemical treatment or other way process, evaporation can only be adopted except Ficus caricaL.According to the feature of brine waste, waste water evaporimeter can adopt multiple-effect or single-action forced-circulation evaporator.

Traditional multi-effect evaporator structure and feature: multi-effect evaporator is made up of more than two evaporimeters, pump, each effect input and output material pump, instrumentation, pipeline and valve.Material between each effect and steam are through placed in series.According to evaporation material properties and evaporation target difference, may be combined with into economic benefits and social benefits, triple effect, quadruple effect and five-effective evaporation.The heating surface (area) (HS of the evaporimeter of often imitating is essentially homalographic, its general principle be adopt homalographic, etc. the method for designing of evaporation capacity.The waste water evaporimeter floor space of this structure is larger, heat transfer coefficient is low, energy consumption is large.And evaporimeter in use can produce a large amount of incrustation scale, affect the use of evaporimeter.

Utility model content

The utility model, in order to solve above-mentioned problems of the prior art, provides a kind of automatic desludging multi-effect evaporating device.

The utility model for addressing this problem taked technical scheme is:

A kind of automatic desludging multi-effect evaporating device, comprise upper cover, lower cover, in upper cover upper end, steam inlet is set, concentrate feed outlet is set in lower cover lower end, upper cover, lower cover are installed on the top and bottom of tube-in-tube structure respectively, and tube-in-tube structure is by arrange with one heart and the first sleeve, the second sleeve, the 3rd sleeve, the 4th sleeve and the 5th sleeve that from-inner-to-outer is socketed are formed, the first sleeve and upper cover, the lower cover that are positioned at center form the first feed liquid room, cavity between first sleeve and the second sleeve is the first heating clamber, cavity between second sleeve pipe and the 3rd sleeve is the second feed liquid room, 3rd cavity between sleeve pipe and Quadruplet pipe is the second heating clamber, and the cavity between Quadruplet pipe and the 5th sleeve pipe is the 3rd feed liquid room, first feed liquid chamber interior is provided with heating tube, connection steam inlet, heating tube upper end, on the steam (vapor) outlet that covers be connected with the first steam-water separator through the first particle separator, first steam-water separator upper steam outlet connection first heating clamber upper end, first steam-water separator lower end binder liquid pump, the steam (vapor) outlet of the second upper end, feed liquid room is connected with the second steam-water separator through the second particle device, upper steam outlet connection the 3rd heating clamber upper end of the second steam-water separator, the lower end binder liquid pump of the second steam-water separator, second steam-water separator is provided with feeding mouth, described first particle separator comprises the first input part, the first separation chamber and the first particle locker room, and the second particle separator comprises the second input part, the second separation chamber and the second particle locker room, respectively by pipeline communication between first feed liquid room and the second feed liquid room, between the second feed liquid room and the 3rd feed liquid room, heating tube lower end is connected with the first condenser inlet, first heating clamber lower end is connected with the second condenser, and the second heating clamber lower end is connected with the 3rd condenser.

Described upper cover and under cover and be circumferentially formed with uniform multiple installing holes respectively, the upper end edge circumference of the first sleeve, the second sleeve, the 3rd sleeve, the 4th sleeve is respectively arranged with uniform multiple studs, uniform installing hole is formed respectively in the periphery of multiple stud, the lower end edge circumference of the first sleeve, the second sleeve, the 3rd sleeve, the 4th sleeve is respectively arranged with uniform multiple studs, encloses and form uniform installing hole respectively in multiple stud; Multiple studs of each sleeve upper end insert in multiple installing hole of upper cover and multiple installing holes of inner barrel upper end respectively; Under multiple studs of multiple stud of covering and each sleeve lower end insert respectively in multiple installing holes of outer barrel lower end.

The advantage that the utility model has and good effect are:

Automatic desludging multi-effect evaporating device of the present utility model, adopts Multilayer sleeve design, forms cavity between every two sleeves, reduce floor space, between cavity, heat transfer rapidly, improves evaporation efficiency, exposed surface area and open piping few, be easy to be incubated, thermal loss is few.Steam enters particle separator from upper end, feed liquid room, and in separation chamber, solid particle sinks, can effectively scale removal, reduction energy consumption, economize energy.

Accompanying drawing explanation

Fig. 1 is the structural representation of automatic desludging multi-effect evaporating device of the present utility model.

Critical piece symbol description in accompanying drawing:

1: upper cover 2: lower cover

3: steam inlet 41: the first condenser

42: the second condenser 43: the three condensers

5: the first particle separator 51: the first input parts

52: the first particle locker room of separation chambers 53: the first

6: tube-in-tube structure 61: the first sleeve

62: the second sleeve 63: the three sleeves

64: the four sleeve 65: the five sleeves

7: the second particle separator 71: the second input parts

72: the second particle locker room of separation chambers 73: the second

81: the first steam-water separator 82: the second steam-water separators

9: concentrate feed outlet 10: heating tube

11: the first feed liquid room 12: the first heating clambers

13: the second feed liquid room 14: the second heating clambers

15: the three feed liquid rooms 16: feed pump.

Detailed description of the invention

Referring to the drawings and specific embodiments, automatic desludging multi-effect evaporating device of the present utility model is described in detail.Specific embodiment described below is only preferred forms of the present utility model, and can not be interpreted as restriction of the present utility model.

Fig. 1 is the structural representation of automatic desludging multi-effect evaporating device of the present utility model.As shown in Figure 1, automatic desludging multi-effect evaporating device of the present utility model, comprises upper cover 1, lower cover 2, arranges steam inlet 3 in upper cover 1 upper end, arranges concentrate feed outlet 9 in lower cover 1 lower end.Upper cover 1, lower cover 2 are installed on the top and bottom of tube-in-tube structure 6 respectively, and tube-in-tube structure 6 is by arrange with one heart and the first sleeve 61, second sleeve 62, the 3rd sleeve 63, the 4th sleeve 64 and the 5th sleeve 65 that from-inner-to-outer is socketed are formed.

The first sleeve 61 being positioned at center forms the first feed liquid room 11 with upper cover 1, lower cover 2, cavity between first sleeve 61 and the second sleeve 62 is the first heating clamber 12, cavity between second sleeve pipe 62 and the 3rd sleeve 63 is the second feed liquid room 13, cavity between 3rd sleeve pipe 63 and Quadruplet pipe 64 is the cavity between the second heating clamber 14, the Quadruplet pipe 64 and the 5th sleeve pipe 65 is the 3rd feed liquid room 15.

First inside, feed liquid room 11 is provided with heating tube 10, connection steam inlet, heating tube 10 upper end 3, steam (vapor) outlet on upper cover 1 is connected with the first steam-water separator 81 through the first particle separator 5, first steam-water separator 81 upper steam outlet connection first heating clamber 12 upper end, first steam-water separator 81 lower end binder liquid pump 16, the steam (vapor) outlet of the second upper end, feed liquid room 13 is connected with the second steam-water separator 82 through the second particle device 7, upper steam outlet connection the 3rd heating clamber 14 upper end of the second steam-water separator 82, the lower end binder liquid pump 16 of the second steam-water separator 82, second steam-water separator 82 is provided with feeding mouth.

First particle separator 5 comprises the first input part 51, first separation chamber 52 and the first particle locker room 53, second particle separator 7 comprises the second input part 71, second separation chamber 72 and the second particle locker room 73.

Respectively by pipeline communication between first feed liquid room 11 and the second feed liquid room 13, between the second feed liquid room 13 and the 3rd feed liquid room 15, heating tube 10 lower end is connected with the first condenser 41 import, first heating clamber 12 lower end is connected with the second condenser 42, and the second heating clamber 14 lower end is connected with the 3rd condenser 43.

Upper cover 1 and lower cover 2 are circumferentially formed with uniform multiple installing holes respectively, the upper end edge circumference of the first sleeve, the second sleeve, the 3rd sleeve, the 4th sleeve is respectively arranged with uniform multiple studs, uniform installing hole is formed respectively in the periphery of multiple stud, the lower end edge circumference of the first sleeve, the second sleeve, the 3rd sleeve, the 4th sleeve is respectively arranged with uniform multiple studs, encloses and form uniform installing hole respectively in multiple stud; Multiple studs of each sleeve upper end insert in multiple installing hole of upper cover and multiple installing holes of inner barrel upper end respectively; Under multiple studs of multiple stud of covering and each sleeve lower end insert respectively in multiple installing holes of outer barrel lower end.

The course of work of automatic desludging multi-effect evaporating device of the present invention is as follows:

First in the second steam-water separator, feed liquid is added through feeding mouth, feed liquid imports the 3rd feed liquid room by feed pump after the second steam-water separator, because each feed liquid room is communicated with in turn by the pipeline of bottom, feed liquid progressively can import each feed liquid room, until arrive the first feed liquid room.High-temperature steam is imported again by steam inlet, feed liquid heats by steam after heating tube, the steam that feed liquid in first feed liquid room produces after heating enters the first particle separator by pipeline, in the first separation chamber, solid particle falls into the first particle locker room at centrifugal action, then steam enters the first steam-water separator and is separated feed liquid, then again pass into the second heating clamber, an effect steam in second heating clamber is by the feed liquid heat temperature raising of the second feed liquid indoor, also steam is imitated in generation two after the feed temperature rising of the second feed liquid indoor, two effect steam enter the second particle separator by pipeline, in the second separation chamber, solid particle falls into the second particle locker room at centrifugal action, then steam passes into the second heating clamber after entering the second steam-water separator, second heating clamber heat up and by the feed liquid heating evaporation of the 3rd feed liquid indoor, simultaneously because sleeve vertical plane both sides arrange fin, adjacent fin is interlaced, heat is made to accelerate conduction, and the liquid in steam-water separator directly passes into feed pump, again enter circulation, the condenser that each heating clamber bottom is arranged, can discharge after steam liquefied in heating clamber.Last in the high concentration feed liquid after pervaporation, discharged by concentrate feed outlet.

The utility model adopts Multilayer sleeve design, and structure is simple, easy to operate, decreases floor space; Between cavity, heat transfer rapidly, improves evaporation efficiency, exposed surface area and open piping few, be easy to be incubated, thermal loss is few.Steam enters particle separator from upper end, feed liquid room, and in separation chamber, solid particle sinks, can effectively scale removal, reduces energy consumption, economize energy, while greatly can extend service life of evaporimeter.

Claims (2)

1. an automatic desludging multi-effect evaporating device, comprise upper cover, lower cover, in upper cover upper end, steam inlet is set, concentrate feed outlet is set in lower cover lower end, it is characterized in that: upper cover, lower cover are installed on the top and bottom of tube-in-tube structure respectively, tube-in-tube structure is by arrange with one heart and the first sleeve, the second sleeve, the 3rd sleeve, the 4th sleeve and the 5th sleeve that from-inner-to-outer is socketed are formed, the first sleeve and upper cover, the lower cover that are positioned at center form the first feed liquid room, cavity between first sleeve and the second sleeve is the first heating clamber, cavity between second sleeve pipe and the 3rd sleeve is the second feed liquid room, 3rd cavity between sleeve pipe and Quadruplet pipe is the second heating clamber, and the cavity between Quadruplet pipe and the 5th sleeve pipe is the 3rd feed liquid room, first feed liquid chamber interior is provided with heating tube, connection steam inlet, heating tube upper end, on the steam (vapor) outlet that covers be connected with the first steam-water separator through the first particle separator, first steam-water separator upper steam outlet connection first heating clamber upper end, first steam-water separator lower end binder liquid pump, the steam (vapor) outlet of the second upper end, feed liquid room is connected with the second steam-water separator through the second particle device, upper steam outlet connection the 3rd heating clamber upper end of the second steam-water separator, the lower end binder liquid pump of the second steam-water separator, second steam-water separator is provided with feeding mouth, described first particle separator comprises the first input part, the first separation chamber and the first particle locker room, and the second particle separator comprises the second input part, the second separation chamber and the second particle locker room, respectively by pipeline communication between first feed liquid room and the second feed liquid room, between the second feed liquid room and the 3rd feed liquid room, heating tube lower end is connected with the first condenser inlet, first heating clamber lower end is connected with the second condenser, and the second heating clamber lower end is connected with the 3rd condenser.

2. automatic desludging multi-effect evaporating device according to claim 1, it is characterized in that: upper cover and under cover and be circumferentially formed with uniform multiple installing holes respectively, the upper end edge circumference of the first sleeve, the second sleeve, the 3rd sleeve, the 4th sleeve is respectively arranged with uniform multiple studs, uniform installing hole is formed respectively in the periphery of multiple stud, the lower end edge circumference of the first sleeve, the second sleeve, the 3rd sleeve, the 4th sleeve is respectively arranged with uniform multiple studs, encloses and form uniform installing hole respectively in multiple stud; Multiple studs of each sleeve upper end insert in multiple installing hole of upper cover and multiple installing holes of inner barrel upper end respectively; Under multiple studs of multiple stud of covering and each sleeve lower end insert respectively in multiple installing holes of outer barrel lower end.