CN202643334U - Water replenishing device of synthetic ammonia circulating water system - Google Patents
Water replenishing device of synthetic ammonia circulating water system Download PDFInfo
- Publication number
- CN202643334U CN202643334U CN 201220083238 CN201220083238U CN202643334U CN 202643334 U CN202643334 U CN 202643334U CN 201220083238 CN201220083238 CN 201220083238 CN 201220083238 U CN201220083238 U CN 201220083238U CN 202643334 U CN202643334 U CN 202643334U
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- water
- valve
- synthetic ammonia
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Abstract
The utility model belongs to the field of water replenishing of a synthetic ammonia circulating water system, and particularly relates to a water replenishing device of the synthetic ammonia circulating water system, which has the advantages of simple structure, stable operation, low cost and capabilities of reducing sewage discharge and avoiding environmental pollution. The water replenishing device comprises the synthetic ammonia circulating system, wherein a water outlet of the synthetic ammonia circulating system is connected with a first valve, a first circulating water pump, a second valve, a water utilization organization, a third valve, a second circulating water pump, a fourth valve and a fifth valve in sequence; the fifth valve is connected with a water inlet of the synthetic ammonia circulating system through a pipeline; the synthetic ammonia circulating system is provided with a primary water replenishing port and a soft water replenishing port; the primary water replenishing port is connected with a primary water self-adjusting valve, a primary water flow meter and a primary water tank in sequence; and the soft water replenishing port is connected with a soft water self-adjusting valve, a soft water flow meter and a soft water tank in sequence. The water replenishing device has the advantages of simple structure, stable operation, low cost and capabilities of reducing sewage discharge and avoiding environmental pollution.
Description
Technical field
The utility model belongs to synthetic ammonia circulating water system moisturizing field, is specifically related to a kind of simple in structurely, stable, with low cost, reduces quantity of wastewater effluent and synthetic ammonia circulating water system water replanishing device free from environmental pollution.
Background technology
At present synthetic ammonia circulating water system moisturizing mainly leans on a water to carry out supply, and after doubly concentrating through 3-5, every technic index exceeds standard in the circulating water system, must by circulating water system blowdown and in a large number additional fresh water displacement, come controlled circulation water water quality.Like this, not only water loss increases greatly, and various medicaments run off in the recirculated water simultaneously, have caused huge financial loss, have also increased the weight of production load and the contaminate environment of sewage works.
Summary of the invention
The purpose of this utility model is to overcome defective of the prior art and provides a kind of simple in structure, stable, with low cost, reduces quantity of wastewater effluent and synthetic ammonia circulating water system water replanishing device free from environmental pollution.
The purpose of this utility model be achieved in that the water outlet that comprises synthetic ammonia circulating water system, described synthetic ammonia circulating water system by pipeline link to each other with the first valve, the first water circulating pump, the second valve, water unit, the 3rd valve, the second water circulating pump, the 4th valve and the 5th valve successively, described the 5th valve links to each other by the water-in of pipeline with the synthetic ammonia circulating water system, is respectively arranged with water water supplement port and additional soft wa ter mouth on the described synthetic ammonia circulating water system; A described water water supplement port by pipeline successively with a water self-regulated valve, No. one time water ga(u)ge links to each other with a water tank, described additional soft wa ter mouth pass through pipeline successively with soft water self-regulated valve, the soft water under meter links to each other with the soft water water tank; Be provided with the first threeway between described the second water circulating pump and the 4th valve, one end of described the first threeway by pipeline successively with the 6th valve, sand-bed filter links to each other with the 7th valve, be provided with the second threeway between described the 4th valve and the 5th valve, described the 7th valve links to each other with an end of the second threeway by pipeline; The blow-off line of described sand-bed filter links to each other with intermediate water reuse system with the 8th valve successively; Be provided with on-line monitoring system between described the 5th valve and the synthetic ammonia circulating water system, described on-line monitoring system, one time water self-regulated valve links to each other with turn-key system respectively with soft water self-regulated valve.
The utlity model has simple in structurely, stable, with low cost, reduce quantity of wastewater effluent and advantage free from environmental pollution.
Description of drawings
Fig. 1 is structural representation of the present utility model.
Embodiment
As shown in Figure 1, the water outlet that the utility model comprises synthetic ammonia circulating water system 1, described synthetic ammonia circulating water system 1 by pipeline link to each other with the first valve 3, the first water circulating pump 4, the second valve 5, water unit 2, the 3rd valve 6, the second water circulating pump 7, the 4th valve 8 and the 5th valve 9 successively, described the 5th valve 9 links to each other by the water-in of pipeline with synthetic ammonia circulating water system 1, is respectively arranged with water water supplement port and additional soft wa ter mouth on the described synthetic ammonia circulating water system 1; A described water water supplement port links to each other with a water tank 21 with 17, water ga(u)ges 19 of a water self-regulated valve successively by pipeline, described additional soft wa ter mouth pass through pipeline successively with soft water self-regulated valve 16, soft water under meter 18 links to each other with soft water water tank 20; Be provided with the first threeway between described the second water circulating pump 7 and the 4th valve 8, one end of described the first threeway by pipeline successively with the 6th valve 10, sand-bed filter 13 links to each other with the 7th valve 11, be provided with the second threeway between described the 4th valve 8 and the 5th valve 9, described the 7th valve 11 links to each other with an end of the second threeway by pipeline; The blow-off line of described sand-bed filter 13 links to each other with intermediate water reuse system 22 with the 8th valve 12 successively; Be provided with on-line monitoring system 14 between described the 5th valve 9 and the synthetic ammonia circulating water system 1,14, water self-regulated of described on-line monitoring system valve 17 links to each other with turn-key system 15 respectively with soft water self-regulated valve 16.
As shown in Figure 1, the utility model does not need to increase other treatment facilities in the process of using, at the basis of the original system corresponding water of configuration and soft water pipeline, self-regulated valve and under meter, by controlling the rational proportion of water and soft water, can realize.Be controlled at 3-5 at the synthetic ammonia concentration multiple of circulating water system in the utility model, all kinds of water form in accounting for circulating water system global cycle amount ratio: soft water 6 ‰-14.4 ‰, the ratio that this moment, a corresponding water magnitude of recruitment accounted for internal circulating load is 14.4 ‰-3.5 ‰.When cycles of concentration is 3, when temperature was 0 ℃, the soft water minimum proportion was 6 ‰ of systemic circulation amount, and this moment, corresponding water yield was 9 ‰ of systemic circulation amount.When cycles of concentration is 3, when temperature was 40 ℃, the soft water minimum proportion was 9.6 ‰ of systemic circulation amount, and this moment, corresponding water yield was 14.4 ‰.When cycles of concentration is 4, when temperature was 40 ℃, the soft water minimum proportion was 12.8 ‰ of systemic circulation amount, and this moment, corresponding water yield was 8.5 ‰.When cycles of concentration is 5, when temperature was 0 ℃, the soft water minimum proportion was the internal circulating load 9 ‰ of system, and this moment, corresponding water yield was 3.5 ‰.When cycles of concentration is 5, when temperature was 40 ℃, the soft water minimum proportion was 14.4 ‰ of systemic circulation amount, and this moment, corresponding water yield was 5.6 ‰.
The utility model on-line detecting system detects the situation of circulating water quality and the water yield automatically, and information passed to turn-key system 15, turn-key system 15 carries out the automatic calculating of recirculated water cycles of concentration according to the circulating water quality situation that receives, provide an optimum water and additional soft wa ter ratio, and the self-regulated valve of controlling water and soft water system proportionally carries out moisturizing; Water and soft water by turn-key system 15 automatically control enter the synthetic ammonia circulating water system and advance the water supply, reach requirement to guarantee the recirculated water overall water quality; Recirculated water behind water and the additional soft wa ter directly enters water unit 2 through the first water circulating pump 4, water unit 2 water out is divided into two parts after through the second water circulating pump 7, a part is approximately 90% without sand-bed filter 13, a part ofly in addition approximately 10% enter sand-bed filter 13, recirculated water after process sand-bed filter 13 filters converges with that a part of water without sand-bed filter 13, then enters on-line detecting system 14; The backwash water of sand-bed filter 13 enters intermediate water reuse system 22 through the 8th valve 12.
Claims (1)
1. synthetic ammonia circulating water system water replanishing device, comprise synthetic ammonia circulating water system (1), the water outlet of described synthetic ammonia circulating water system (1) by pipeline successively with the first valve (3), the first water circulating pump (4), the second valve (5), water unit (2), the 3rd valve (6), the second water circulating pump (7), the 4th valve (8) links to each other with the 5th valve (9), described the 5th valve (9) links to each other by the water-in of pipeline with synthetic ammonia circulating water system (1), it is characterized in that: be respectively arranged with water water supplement port and additional soft wa ter mouth on the described synthetic ammonia circulating water system (1); A described water water supplement port by pipeline successively with a water self-regulated valve (17), a water ga(u)ge (19) links to each other with a water tank (21), described additional soft wa ter mouth by pipeline successively with soft water self-regulated valve (16), soft water under meter (18) links to each other with soft water water tank (20); Be provided with the first threeway between described the second water circulating pump (7) and the 4th valve (8), one end of described the first threeway by pipeline successively with the 6th valve (10), sand-bed filter (13) links to each other with the 7th valve (11), be provided with the second threeway between described the 4th valve (8) and the 5th valve (9), described the 7th valve (11) links to each other with an end of the second threeway by pipeline; The blow-off line of described sand-bed filter (13) links to each other with intermediate water reuse system (22) with the 8th valve (12) successively; Be provided with on-line monitoring system (14) between described the 5th valve (9) and the synthetic ammonia circulating water system (1), described on-line monitoring system (14), a water self-regulated valve (17) links to each other with turn-key system (15) respectively with soft water self-regulated valve (16).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201220083238 CN202643334U (en) | 2012-03-08 | 2012-03-08 | Water replenishing device of synthetic ammonia circulating water system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201220083238 CN202643334U (en) | 2012-03-08 | 2012-03-08 | Water replenishing device of synthetic ammonia circulating water system |
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CN202643334U true CN202643334U (en) | 2013-01-02 |
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CN 201220083238 Withdrawn - After Issue CN202643334U (en) | 2012-03-08 | 2012-03-08 | Water replenishing device of synthetic ammonia circulating water system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102583440A (en) * | 2012-03-08 | 2012-07-18 | 河南心连心化肥有限公司 | Water replenishing device of synthetic ammonia circulating water system and water replenishing method |
-
2012
- 2012-03-08 CN CN 201220083238 patent/CN202643334U/en not_active Withdrawn - After Issue
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102583440A (en) * | 2012-03-08 | 2012-07-18 | 河南心连心化肥有限公司 | Water replenishing device of synthetic ammonia circulating water system and water replenishing method |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20130102 Effective date of abandoning: 20140101 |
|
RGAV | Abandon patent right to avoid regrant |