CN203907227U - Optimization system for fluid transportation and detection - Google Patents

Abstract

The utility model relates to an optimization system for fluid transportation and detection. The system is mainly composed of a cooling tower, a water tank, a condenser, a flow-meter, a cold water pipeline and a steam pipeline, wherein the water tank and the condenser are connected through the cold water pipeline, the condenser and the cooling tower are connected through the steam pipeline, and a cooling pump and a valve set are arranged on the cold water pipeline; one end of the cold water pipeline is connected with the bottom of the water tank, and the other end of the cold water pipeline is connected to the inlet end of the condenser; the output end of the condenser is connected with the steam pipeline, and the other end of the steam pipeline is connected to the cooling tower. The water yield of a pipe network system is controlled by the detection flow-meter, therefore, the energy consumption of the pipe network can be reduced, and the transport efficiency of the pipe network can be improved.

Description

A kind of fluid transportation detection optimizing system

Technical field

The utility model relates to a kind of fluid and carries detection system, specially refers to a kind of fluid transportation detection optimizing system.

Background technique

In traditional pump selection design, water pump type spectrum is the Main Basis of pump selection.Water pump type spectrum is to work out on the basis of a large amount of simulation test experiences, is applicable to the selection under the various operating modes of conventional criteria pumping plant and flow.But for big-and-middle-sized pump-unit design, the water pump hydraulic model of choosing according to type spectrum is not to be applicable to.Because water system pipe network device characteristic is not mated with the inherent characteristic of pump own, increase pipe network system impedance, cause system pipe network transfer efficiency on the low side, increase pump energy consumption; Water system capacity usage ratio is lower, and existing less for, backwater temperature difference, system exists " large flow, the little temperature difference " phenomenon, thereby increases water system energy consumption.System pipe network parts close the phenomenons such as valve operation because long-time running causes valve blocking or unreasonable allocation, and supply lines valve local resistance is increased, and increase system conveying energy consumption.Water pump actual operating efficiency is very low, frequency control of motor speed scheme as single in simple employing, and water pump will be in lower efficient state and move.According to the rated lift of pump-unit, flow and the described flow field of other relevant parameters, carry out the pump-unit form of devise optimum, be that designer dreams of always.

Model utility content

The utility model, according to above-mentioned technical problem, provides a kind of fluid transportation detection optimizing system.

The technical solution adopted in the utility model is: a kind of fluid transportation detection optimizing system, this system is mainly by the cold water pipes of cooling tower, pond, solidifying mechanism of qi, flowmeter, connection pond and condensing engine and be connected condensing engine and the steam line of cooling tower forms, it is characterized in that: coolant pump and valve sets are set on described cold water pipes, described cold water pipes one end connects described basin bottom, the other end is connected to the entry end of described condensing engine, the output terminal of described condensing engine connects described steam line, and the other end of described steam line is linked in described cooling tower.

Described cold water pipes comprises input bypass line, intermediate conduit and output bypass line.

Described valve sets and described cold going in input bypass line that pump is arranged on described cold water pipes, described valve sets comprises solenoid valve and safety check.

Described pond is provided with three delivery outlets, is connected respectively in cold water input bypass line, and described output bypass line connects two inlet openings of condensing engine.

In the output bypass line of described cold water pipes, flow of inlet water meter is also set.

The beneficial effects of the utility model are: solved water system inflow-rate of water turbine and caused that Efficiency Decreasing, power consumption increase problem, the method that adopts intelligent integration control technology to reduce operating flux is saved part conveying energy consumption.Allow whole system power consumption reach maximum economized.

Accompanying drawing explanation

Fig. 1 is system construction drawing of the present utility model.

Shown in figure: 1-cooling tower; 2-pond; 3-valve; 4-electromagnetic pump; 5-safety check; 6-manually operated valve; 7-solenoid valve; 8-flowmeter; 9-condensing engine; 10-flow of inlet water meter, the input bypass line of 11-cold water pipes; The intermediate conduit of 12-cold water pipes; The output bypass line of 13-cold water pipes; 14-steam line.

Embodiment

In order to make the purpose of this utility model, technological scheme and advantage clearer, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

As shown in the figure, a kind of fluid transportation detection optimizing system, this system is mainly comprised of cooling tower 1, pond 2, solidifying mechanism of qi 9, flowmeter 8, the steam line 14 that connects the cold water pipes of pond 2 and condensing engine 9 and is connected condensing engine 9 and cooling tower 1, coolant pump 4 and valve sets are set on described cold water pipes, described cold water pipes one end connects 2 bottoms, described pond, the other end is connected to the entry end of described condensing engine 9, the output terminal of described condensing engine 9 connects described steam line 14, and the other end of described steam line 14 is linked in described cooling tower 1.

Described cold water pipes comprises input bypass line 11, intermediate conduit 12 and output bypass line 13, described valve sets and described cold going in input bypass line 11 that pump 4 is arranged on described cold water pipes, described valve sets comprises solenoid valve 3, solenoid valve 7, manually operated valve 6 and safety check 4.Described pond 2 is provided with three delivery outlets, is connected respectively in cold water input bypass line 11, and described output bypass line 13 connects two inlet openings of condensing engine 9, in the output bypass line 13 of described cold water pipes, flow of inlet water meter 10 is also set.

This cooling water system adopts open circuit mechanical cycles, is fed to respectively workshop equipment cooling.Under standard condition, from the cooling water of cooling tower by this cooling water system coolant pump warp let-off manufacturing equipment, cooling water after heat exchange is sent to cooling tower cooling, so move in circles, valve sets in the input bypass line of cold water pipes is opened, corresponding coolant pump is opened, for cooling water loss is by water system supply.By flow of inlet water meter, the flow of cold water pipes is detected, according to the water yield of condensing engine and cooling tower, adjust the unlatching of valve sets and coolant pump, make the water flow of cold water pipes meet pipe network system impedance, improve the transfer efficiency of pipe network, solved water system inflow-rate of water turbine and caused that Efficiency Decreasing, power consumption increase problem, the method that adopts intelligent integration control technology to reduce operating flux is saved part conveying energy consumption, allows whole system power consumption reach maximum economized.

Claims (5)

1. a fluid transportation detection optimizing system, this system is mainly by cooling tower (1), pond (2), solidifying mechanism of qi (9), flowmeter (8), the cold water pipes that connects pond (2) and condensing engine (9), and the steam line (14) that connects condensing engine (9) and cooling tower (1) forms, it is characterized in that: coolant pump (4) and valve sets are set on described cold water pipes, described cold water pipes one end connects bottom, described pond (2), the other end is connected to the entry end of described condensing engine (9), the output terminal of described condensing engine (9) connects described steam line (14), the other end of described steam line (14) is linked in described cooling tower (1).

2. a kind of fluid transportation detection optimizing system according to claim 1, is characterized in that: described cold water pipes comprises input bypass line (11), intermediate conduit (12) and output bypass line (13).

3. a kind of fluid transportation detection optimizing system according to claim 1, it is characterized in that: described valve sets and described cold input bypass line (11) of going pump (4) to be arranged on described cold water pipes are upper, and described valve sets comprises solenoid valve (3), solenoid valve (7), manually operated valve (6) and safety check (4).

4. a kind of fluid transportation detection optimizing system according to claim 1, it is characterized in that: described pond (2) are provided with three delivery outlets, be connected respectively to cold water input bypass line (11) upper, described output bypass line (13) connects two inlet openings of described condensing engine (9).

5. a kind of fluid transportation detection optimizing system according to claim 1, is characterized in that: in the output bypass line (13) of described cold water pipes, flow of inlet water meter (10) is also set.