CN209872731U - Three-dimensional multi-plane intensive complete residual sludge drying equipment - Google Patents
Three-dimensional multi-plane intensive complete residual sludge drying equipment Download PDFInfo
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- CN209872731U CN209872731U CN201920487236.0U CN201920487236U CN209872731U CN 209872731 U CN209872731 U CN 209872731U CN 201920487236 U CN201920487236 U CN 201920487236U CN 209872731 U CN209872731 U CN 209872731U
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Abstract
The utility model discloses a three-dimensional multi-plane intensive complete set of residual sludge drying equipment; the sludge drying equipment comprises four layers of three-dimensional equipment frames, each layer of the four layers of three-dimensional equipment frames is respectively provided with a screw-stacking dewaterer, a sludge drying machine, a dry sludge bin and an outward transport truck from top to bottom, and a discharge port of the screw-stacking dewaterer is correspondingly arranged with a feed port of the sludge drying machine below through a high-layer channel; the discharge port of the sludge drying machine is correspondingly arranged with the bin port of the lower dry sludge bin through a secondary high-rise channel; the discharge port of the dry sludge bin is communicated with the bottom plate of the four-layer three-dimensional equipment frame, and the discharge port of the dry sludge bin is arranged corresponding to the outward transport truck. The utility model adopts a three-dimensional four-plane arrangement mode, and does not need to use solid transmission equipment with relatively high failure rate, thereby reducing failure points in the process; the operation control difficulty can be simplified, the maintenance workload of equipment maintenance is reduced, and the operation maintenance cost is reduced.
Description
Technical Field
The utility model relates to an excess sludge treatment field, concretely relates to intensive complete set excess sludge drying equipment of three-dimensional many planes.
Background
Along with the acceleration of the urbanization process in China, the urban sewage treatment rate is improved year by year, the sludge yield is also increased sharply, and the residual sludge yield is more than 4000 ten thousand tons at present in terms of 80 percent of water content. According to incomplete statistics, only a small part of sludge of the urban sewage treatment plant in China is subjected to sanitary landfill, land utilization, incineration and the like, and most of the sludge is not subjected to standardized treatment, so that waste and secondary pollution are caused to land resources, and the environmental safety and public health are directly threatened. In the existing disposal mode of the excess sludge, land landfill accounts for 63.0 percent, sludge aerobic fermentation accounts for 13.5 percent, sludge natural drying comprehensive utilization accounts for 5.4 percent, sludge incineration accounts for 1.8 percent, and sludge open-air stacking and outward transportation respectively accounts for 1.8 percent and 14.4 percent. In any treatment method, the dewatering reduction of excess sludge is an important part of the whole treatment process, taking 100 tons of sludge with 98% water content as an example, the sludge is initially dewatered to 80% water content, the amount of the sludge is changed to 10 tons, the equipment for realizing the initial dewatering is equipment such as a belt filter press, a plate-and-frame filter press, a screw-stacking dewaterer and the like, the equipment can only fulfill the aim of initial dewatering, if the water content is further reduced from 80% to 40% to realize deep dewatering, the amount of the sludge is changed to 3.3 tons, the reduction is very obvious, the amount and the cost of subsequent treatment of the sludge can be greatly reduced, and the treatment such as landfill, incineration and the like requires the water content to be at a lower level.
At present, equipment for realizing deep dehydration comprises heat drying equipment, cyclone drying equipment and the like. The sludge heat drying equipment is concerned about due to stable operation and high efficiency, and is more and more widely applied.
The residual sludge treatment and disposal technical route is more, and the patent only explains the technical route of sludge heat drying. Sludge heat drying equipment is a means for dewatering and reducing sludge, and is generally used in combination with a stack screw dehydrator, a belt filter press, and the like. The water content of the residual sludge in the concentration tank is about 98 percent, the water content of the sludge is reduced to about 80 percent by adopting a screw-stacking dehydrator generally, then the sludge enters a sludge heat drying device for further dehydration and drying through a screw pump, and the final water content can be controlled according to different requirements in various places. The main components of the whole set of dehydration and drying equipment comprise a conventional sludge feeding pump, a screw-stacking dehydrator, a screw pump, heat drying equipment, a conveying belt, a dry sludge bin and an outward transport truck. In the primary dewatering section of the screw stacking machine, because the water content of the sludge is very high and the sludge has the same fluidity as water, the sludge entering the screw stacking dewatering machine is conveyed by a conventional water pump, and the sludge discharged with the water content of 80 percent is mainly transferred and conveyed by a screw pump; after the sludge is dried, the water content is further reduced to be solid, and the solid enters a dry sludge bin by mainly adopting modes of screw conveying, belt conveying and the like to wait for further treatment by external transportation.
Currently, in practical engineering and application processes, the several main components are usually arranged in one or two planarisation. Aiming at the situation of two planes, a conventional sludge feeding pump, a screw-stacking dewaterer, a screw pump and a heat drying device are arranged on one low-level plane, a dried sludge bin is arranged on the other high-level plane, the dried sludge is conveyed to the high-level bin through a vertical conveying or partition plate, and the sludge in the high-level bin is directly dropped to an outward-conveying truck of the low-level plane through control for loading and outward conveying (as shown in figure 1). The condition of arranging for a plane is that all units arrange at same plane, and the mud of mummification is transported to the drier storehouse through screw feed or belt, and the mud of drier storehouse is handled through the loading outward transportation of forklift truck.
In both the one-plane and two-plane arrangements, since the sludge must be transported between different levels of equipment, various transport devices such as screw transport, baffle transport, etc. are inevitably required, and the transport of solids is relatively high in terms of the cost of the equipment, the operating cost, the failure rate of the equipment, etc. compared to the transport of liquids. The transmission equipment is often maintained or even repaired, and once the transmission equipment has a problem, the normal operation of the whole process is directly influenced. Furthermore, all these plants do not form a standardized plant by a rational arrangement.
Disclosure of Invention
The utility model provides a three-dimensional multi-plane intensive complete set of residual sludge drying equipment aiming at the problems existing in the arrangement of one plane or two planes in the current sludge drying process, the equipment adopts the mode of four plane arrangements, sludge transmission and mobile equipment such as screw pumps, belt transmission or screw transmission, forklifts and the like are not used, and the natural butt joint of the complete set of drying equipment is realized; which solves the problem of sludge transmission among equipment.
In order to achieve the purpose, the utility model designs a three-dimensional multi-plane intensive complete set of excess sludge drying equipment, the sludge drying equipment comprises four layers of three-dimensional equipment frames, each layer of the four layers of three-dimensional equipment frames is respectively provided with a screw-stacking dehydrator, a sludge drier, a dry sludge bin and an outward transport truck from top to bottom, a feed inlet of the screw-stacking dehydrator is connected with an external feed pipe, a dewatering liquid collecting box is arranged below a water outlet of the screw-stacking dehydrator, one side of the bottom plate of the highest layer and the next highest layer of the four layers of three-dimensional equipment frames is respectively provided with a high-layer channel and a next highest layer channel, and a discharge outlet of the screw-stacking dehydrator is correspondingly arranged with the feed inlet of the sludge drier below; the dewatering liquid collecting box and the sludge drying machine water outlet are both communicated with the collecting tank through a water discharging pipe, and the sludge drying machine material outlet is correspondingly arranged with the bin mouth of the lower dry sludge bin through a secondary high-rise channel; the discharge gate of dry sludge bin with four layers of three-dimensional equipment frame correspond a layer bottom plate intercommunication, the discharge gate of dry sludge bin and outward transport truck correspond the setting.
Further, be provided with the mud elevator pump on the inlet pipe.
Still further, four layers of three-dimensional equipment frame top is provided with more than one deodorization system horn mouth, deodorization system horn mouth passes through the pipeline and is connected with deodorization system.
Still further, the sludge drier is connected with a cooling system through a pipeline.
And furthermore, a hydraulic control stop door is arranged on a discharge hole of the dry sludge bin.
The utility model has the advantages that:
(1) the utility model discloses a three-dimensional four planar arrangement need not to use the higher solid transmission equipment of fault rate relatively to reduce the fault point of in-process.
(2) The utility model discloses can simplify the operation control degree of difficulty, reduce the plant maintenance work load, reduce the operation maintenance cost.
(3) The utility model discloses a four planar arrangements of solid are convenient for form complete sets according to different scales, reduce the time limit for a project and the degree of difficulty of on-the-spot installation.
(4) The utility model discloses can reduce area, the complete sets is intensive more.
Drawings
FIG. 1 is a schematic view of a sludge drying apparatus in a plan arrangement;
FIG. 2 is a schematic structural view of a three-dimensional multi-plane intensive complete set of residual sludge drying equipment of the present invention;
in the figure, a four-layer three-dimensional equipment frame 1, a high-layer channel 1.1, a secondary high-layer channel 1.2, a screw-stacking dehydrator 2, a sludge drier 3, a dry sludge bin 4, a hydraulic control stop door 4.1, an outward transport truck 5, a feeding pipe 6, a dehydration liquid collecting box 7, a drain pipe 8, a collecting tank 9, a sludge lifting pump 10, a deodorization system bell mouth 11, a deodorization system 12 and a cooling system 13.
Detailed Description
The invention is described in further detail below with reference to the figures and specific embodiments for the understanding of those skilled in the art.
As shown in fig. 2, the sludge drying apparatus comprises four layers of three-dimensional apparatus frames 1, each layer of the four layers of three-dimensional apparatus frames 1 is provided with a screw-stacking dewaterer 2, a sludge drying machine 3, a dry sludge bin 4 and an outward transport truck 5 from top to bottom, a feed inlet of the screw-stacking dewaterer 2 is connected with an external feed pipe 6, and a sludge lift pump 10 is arranged on the feed pipe 6;
a dewatering liquid collecting box 7 is arranged below a water outlet of the spiral-wound layered dehydrator 2, a high-rise channel 1.1 and a secondary high-rise channel 1.2 are respectively arranged on one side of the bottom plate of the highest layer and one side of the secondary high layer of the four-layer three-dimensional equipment frame 1, and a discharge port of the spiral-wound layered dehydrator 2 is correspondingly arranged with a feed port of the sludge drier 3 below through the high-rise channel 1.1; the dehydration liquid collecting box 7 and the water outlet of the sludge drier 3 are both communicated with a collecting tank 9 through a drain pipe 8, and the discharge port of the lower sludge drier 3 is correspondingly arranged with the bin port of the lower dry sludge bin 4 through a secondary high-rise channel 1.2; the discharge port of the dry sludge bin 4 is communicated with the bottom plate of the four-layer three-dimensional equipment frame 1, the discharge port of the dry sludge bin 4 is arranged corresponding to the outward transport truck 5, and the discharge port of the dry sludge bin 4 is provided with a hydraulic control stop gate 4.1.
The top of the four-layer three-dimensional equipment rack 1 is provided with more than one deodorization system bell mouth 11, and the deodorization system bell mouth 11 is connected with a deodorization system 12 through a pipeline. The sludge drier 3 is connected with a cooling system 13 through a pipeline.
The working process of the three-dimensional multi-plane intensive complete set of excess sludge drying equipment comprises the following steps:
(1) starting a sludge lifting pump 10, and conveying sludge with the water content of about 98% from a sludge concentration tank to the spiral shell stacking dehydrator 2 on the highest layer;
(2) starting the screw-stacking dehydrator 2 and the dosing equipment, dehydrating the sludge with the water content of 98% to about 80% by using the screw-stacking dehydrator 2, and enabling the dehydrated water to automatically flow into a drain pipe 8;
(3) sludge discharged by the spiral-wound dehydrator 2 falls into the sludge drier 3 under the action of gravity, and the sludge is subjected to strip cutting by a strip cutting device in the sludge drier 3;
(4) sludge with the water content of 80 percent is dried in the sludge drier 3, the drained water automatically flows into a drain pipe 8, the drain pipe 8 is connected into a collecting tank 9, and then treatment is carried out;
(5) after drying, the water content of the sludge is further reduced, and then the sludge falls into a dry sludge bin 4 under the action of gravity;
(6) after the dry sludge bin 4 is filled, a hydraulic control stop door 4.1 at the bottom of the bin is opened, and the sludge falls into an outward transport truck 5 under the action of gravity, so that the whole drying process is completed.
Other parts not described in detail are prior art. Although the above embodiments have been described in detail, it is only a part of the embodiments of the present invention, rather than all embodiments, and other embodiments can be obtained without inventive step according to the present embodiments.
Claims (5)
1. The utility model provides a complete set of surplus sludge drying equipment of intensive formula of three-dimensional many planes which characterized in that: the sludge drying equipment comprises four layers of three-dimensional equipment frames (1), wherein each layer of the four layers of three-dimensional equipment frames (1) is provided with a stacked screw dehydrator (2), a sludge drying machine (3), a dry sludge bin (4) and an outward transport truck (5) from top to bottom, a feed inlet of the stacked screw dehydrator (2) is connected with an external feed pipe (6), a dewatering liquid collecting box (7) is arranged below a water outlet of the stacked screw dehydrator (2), a high-rise channel (1.1) and a secondary high-rise channel (1.2) are respectively arranged on one side of the highest layer and the secondary high-rise of the four layers of three-dimensional equipment frames (1), and a discharge outlet of the stacked screw dehydrator (2) is correspondingly arranged with a feed inlet of the sludge drying machine (3) below through the high-rise channel (1.1); the dewatering liquid collecting box (7) and the water outlet of the sludge drier (3) are communicated with a collecting tank (9) through a water outlet pipe (8), and the discharge port of the sludge drier (3) is correspondingly arranged with the bin port of the lower dry sludge bin (4) through a next-to-next-higher-layer channel (1.2); the discharge gate of dry sludge bin (4) with the bottom plate intercommunication on the four layers of three-dimensional equipment frame (1) correspondence layer, the discharge gate of dry sludge bin (4) corresponds the setting with outward transport truck (5).
2. The apparatus of claim 1, wherein the apparatus comprises: and a sludge lifting pump (10) is arranged on the feeding pipe (6).
3. The apparatus of claim 1, wherein the apparatus comprises: the top of the four-layer three-dimensional equipment rack (1) is provided with more than one horn mouth (11) of the deodorization system, and the horn mouth (11) of the deodorization system is connected with the deodorization system (12) through a pipeline.
4. The apparatus of claim 1, wherein the apparatus comprises: the sludge drier (3) is connected with the cooling system (13) through a pipeline.
5. The apparatus of claim 1, wherein the apparatus comprises: and a hydraulic control stop door (4.1) is arranged on a discharge hole of the dry sludge bin (4).
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111438042A (en) * | 2020-01-20 | 2020-07-24 | 北京晟启环能科技有限公司 | Impurity removal and drying process method and system for sludge with high water content |
CN114751617A (en) * | 2022-04-11 | 2022-07-15 | 中联环股份有限公司 | Sludge dewatering combination device and dewatering process for small sewage treatment plant |
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2019
- 2019-04-11 CN CN201920487236.0U patent/CN209872731U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111438042A (en) * | 2020-01-20 | 2020-07-24 | 北京晟启环能科技有限公司 | Impurity removal and drying process method and system for sludge with high water content |
CN114751617A (en) * | 2022-04-11 | 2022-07-15 | 中联环股份有限公司 | Sludge dewatering combination device and dewatering process for small sewage treatment plant |
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