CN204494954U - A kind of recirculating cooling water system - Google Patents
A kind of recirculating cooling water system Download PDFInfo
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- CN204494954U CN204494954U CN201520057763.XU CN201520057763U CN204494954U CN 204494954 U CN204494954 U CN 204494954U CN 201520057763 U CN201520057763 U CN 201520057763U CN 204494954 U CN204494954 U CN 204494954U
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- heat exchanger
- water inlet
- delivery port
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- cooling tower
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Abstract
The utility model discloses a kind of recirculating cooling water system, comprise cooling tower, refrigeration unit, triple valve and heat exchanger, the water inlet of the delivery port of cooling tower, the condenser water inlet of refrigeration unit, heat exchanger is linked together by triple valve, and the evaporimeter delivery port of refrigeration unit, water inlet are connected with the water inlet of heat exchanger, delivery port respectively; By controlling the conducting relation of triple valve, the work of two kinds of patterns can be realized; According to the difference of external environmental condition, select different mode of operations to run this system, can energy consumption be reduced, particularly when ambient temperature is lower, cooling unit can be closed, only open cooling tower, significantly can reduce electric cost, play energy-saving effect.
Description
Technical field
The present invention relates to cooling device field, particularly relate to a kind of recirculating cooling water system.
Background technology
Manufacture at modern industry, as semiconductor components and devices, fiber plant, cigarette machine equipment, the industrial products such as glass factory's equipment, and in large-scale R&D units, a lot of local fresh water (FW)s all needing recirculating cooling water system to provide temperature constant absorb the heat radiation of production or experimental facilities.
But traditional large-scale recirculating cooling water system relies on merely refrigeration unit as single cooling device, power is large, is the main energy consumption equipment of system.During actual motion, recirculating cooling water system is all in full load condition substantially, and when system is run all the year round, power consumption is large, and operating cost is high, is necessary to take certain measure to reduce longtime running cost.
Summary of the invention
The object of this invention is to provide a kind of recirculating cooling water system, can realize carrying out different mode of operations according to different temperature environments, realize energy-conservation object, and be convenient to the maintenance of equipment.
For achieving the above object, the present invention adopts following technical scheme: a kind of recirculating cooling water system, comprises cooling tower, the first refrigeration unit, heat exchanger and triple valve;
Be connected to the water inlet of heat exchanger after the delivery port of described cooling tower connects a triple valve by pipeline, the delivery port of heat exchanger is connected to the water inlet of cooling tower by pipeline, form loop between cooling tower and heat exchanger by pipeline;
Described first refrigeration unit comprises evaporimeter and condenser, the water inlet of condenser is connected with another port of triple valve, the delivery port of condenser is connected with the water inlet of cooling tower, forms loop between the first refrigeration unit condenser and cooling tower by pipeline; The delivery port of described evaporimeter is connected with the water inlet of heat exchanger, and the water inlet of evaporimeter is connected with the delivery port of heat exchanger, forms loop between the first refrigeration unit evaporimeter and heat exchanger by pipeline.
In technique scheme, the outlet pipeline of described cooling tower and the outlet pipeline of the first refrigeration unit evaporimeter are respectively arranged with a pump.
In technique scheme, be provided with water tank between described refrigeration unit evaporimeter and heat exchanger, the delivery port of described evaporimeter is connected to the water inlet of water tank, and the delivery port of water tank is connected to the water inlet of heat exchanger.
In technique scheme, the outlet pipeline of described water tank arranges a pump.
In technique scheme, the delivery port of described cooling tower is by being connected to the water inlet of water tank after triple valve.
In technique scheme, comprise the second refrigeration unit, described second refrigeration unit comprises evaporimeter and condenser etc., the water inlet of condenser is connected with the delivery port of cooling tower and the water inlet of heat exchanger respectively by triple valve, and the delivery port of condenser is connected with the delivery port of the water inlet of cooling tower and heat exchanger.
In technique scheme, the delivery port of described second refrigeration unit evaporimeter is connected to the water inlet of water tank, and the delivery port of water tank is connected to the water inlet of heat exchanger, and the delivery port of heat exchanger is connected to the water inlet of the second refrigeration unit evaporimeter.
A kind of cooling means of recirculating cooling water system:
When ambient temperature is higher, triple valve is in a kind of duty, direct loop between cooling tower and heat exchanger is cut off, cooling tower is connected to form loop with the condenser of first, second refrigeration unit by pipeline respectively, running water in cooling tower respectively flows through the condenser of first, second refrigeration unit and is back to cooling tower water inlet, and running water is condenser heat radiation as condensed water; First, second refrigeration unit inner refrigerant is Inner eycle in condenser, evaporimeter etc., in condenser, high temperature refrigerant is cooled by the running water from cooling tower, in evaporimeter, low-temperature refrigerant cools refrigerating medium (being similarly running water), the refrigerating medium of evaporimeter delivery port flows through water tank, and in heat exchanger, fresh water (FW) carries out cooling and is back to first, second refrigeration unit evaporimeter water inlet;
When ambient temperature is lower, by controlling the conducting relation of triple valve, triple valve is in another kind of duty, loop between first, second refrigeration unit condenser and cooling tower, between evaporimeter and heat exchanger is cut off, be connected by pipeline between cooling tower with heat exchanger and directly form loop, in the direct heat exchanger of the running water in cooling tower, fresh water (FW) carries out cooling and is back to cooling tower water inlet.
In sum, owing to have employed technique scheme, the invention has the beneficial effects as follows: by by triple valve and the little cooling tower of power consumption, set different mode of operations, energy-conservation when realizing system longtime running and reducing costs.That is, when environment temperature is higher, adopt refrigeration unit to produce cooling water as cooling device, cooling tower is the heat radiation of refrigeration unit condenser; When ambient temperature is lower, refrigeration unit can be closed, cooling tower is adopted to prepare cooling water as cooling device, waterway circulating gets around refrigeration unit, make the cooling water in cooling tower directly enter into heat exchanger to cool fresh water (FW), thus greatly reduce the energy consumption of this recirculating cooling water system, reduce its power cost when microthermal climate is run.Switching between this recirculating cooling water system different working modes take ambient temperature as criterion, if environment temperature is undergone mutation so that system operating mode switch during without enough refrigerating functions time, the water tank with certain water-holding capacity can be used as to cushion.
When a certain refrigeration unit in system be out of order need repairing time, only need the triple valve of closing this unit, this refrigeration unit can be disconnected, can directly keep in repair this refrigeration unit.
The present invention, under the mode of operation that ambient temperature is lower, can realize energy consumption and reduce about 60%.
Accompanying drawing explanation
Examples of the present invention will be described by way of reference to the accompanying drawings, wherein:
Fig. 1 is systematic schematic diagram of the present invention;
Wherein: 1 is cooling tower, 2 is refrigeration unit, and 3 is pumps, and 4 is triple valves, and 5 is water tanks, and 6 is heat exchangers.
Detailed description of the invention
As shown in Figure 1, recirculating cooling water system of the present invention comprises refrigeration unit, cooling tower, pump, triple valve, water tank and heat exchanger for connecting and pipeline, valve etc.
Cooling tower is used for cooling and storing running water, water tower is provided with a water inlet and a delivery port, outlet pipeline is provided with a pump, the effect of pump is that the pressure increasing water makes water can flow farther, the delivery port of cooling tower is connected respectively to the water inlet of refrigeration unit condenser and heat exchanger by a triple valve, triple valve can control from cooling tower delivery port current direction condenser out or heat exchanger, and refrigeration unit condenser is then connected with the water inlet of cooling tower with the delivery port of heat exchanger; Refrigeration unit also comprises evaporimeter, and the outlet pipeline of evaporimeter is provided with a pump, by pump to refrigerating medium supercharging, makes refrigerating medium enter heat exchanger, then completes circulation from the water inlet that the delivery port of heat exchanger is back to evaporimeter.
In the present invention, refrigeration unit can be a refrigeration unit, also can arrange multiple stage refrigeration unit to work simultaneously, if be multiple stage refrigeration unit, the water inlet of the condenser of every platform refrigeration unit is all connected with cooling tower delivery port and heat exchanger water inlet respectively by triple valve; The delivery port of the evaporimeter of refrigeration unit all by being connected to the water inlet of heat exchanger after pump, then is connected to the water inlet of evaporimeter from the delivery port of heat exchanger.
In order to store cold, a water tank can be set between refrigeration unit and heat exchanger, after the refrigerating medium of evaporimeter delivery port enters into water tank, output to heat exchanger water inlet by water tank, and then being back to the water inlet of evaporimeter from heat exchanger delivery port.
The present invention can adopt two kinds of mode of operations, mode of operation when ambient temperature is higher and ambient temperature lower time mode of operation.
Mode of operation when ambient temperature is higher: when the ambient temperature residing for system is higher, refrigeration unit must be adopted to produce cooling water as cooling device, according to the quantity of the ability determination refrigeration unit of refrigeration requirement and separate unit refrigeration mechanism, and cooling tower is the heat radiation of refrigeration unit condenser.During system works, by controlling the conducting relation of triple valve, direct loop between cooling tower and heat exchanger is cut off, cooling tower delivery port is connected with condenser water inlet, the delivery port of condenser is connected with the water inlet of cooling tower, and namely cooling tower and refrigeration unit condenser form loop; Running water in cooling tower is back in cooling tower after entering condenser; Cold-producing medium is at refrigeration unit Inner eycle, in condenser, high temperature refrigerant is cooled by the running water from cooling tower, in evaporimeter, low-temperature refrigerant cools refrigerating medium (being similarly running water), the refrigerating medium of evaporimeter delivery port flows through water tank, and in heat exchanger, fresh water (FW) carries out cooling and is back to first, second refrigeration unit evaporimeter water inlet; Running water and refrigerating medium so ceaselessly circulate, and refrigerating medium carries out heat exchange with fresh water (FW) in heat exchanger, realizes circulating cooling.
Under this mode of operation, refrigeration unit, cooling tower and water pump etc. are all opened, and power consumption is large, and wherein, refrigeration unit is the topmost current consuming apparatus of whole system, accounts for 60% of total power consumption.When ambient temperature reduces, the work of refrigeration unit can be reduced according to refrigeration requirement by platform in right amount, and even enter into following mode of operation.
Mode of operation when ambient temperature is lower: when ambient temperature is lower, refrigeration unit can be closed, cooling tower is only adopted to prepare cooling water as cooling device, by controlling the conducting relation of triple valve, make directly to form loop between cooling tower and heat exchanger, running water from cooling tower delivery port enters heat exchanger water inlet, cooling tower water inlet is back to from heat exchanger delivery port after fresh water (FW) is cooled, running water so ceaselessly circulates, and realizes circulating cooling function.
Under this mode of operation, close whole refrigeration unit, greatly reduce energy consumption, can overhaul refrigeration unit in the non-stop-machine situation of system in the meantime simultaneously, ensure the reliability and stability of the whole system when environment temperature increases.
Switching between this recirculating cooling water system different working modes take ambient temperature as criterion, if environment temperature is undergone mutation, so that time during system operating mode switches without enough refrigerating functions, arrange in heat exchanger prime that the water tank with certain water-holding capacity can be used as to cushion.
The present invention is not limited to aforesaid detailed description of the invention.The present invention expands to any new feature of disclosing in this manual or any combination newly, and the step of the arbitrary new method disclosed or process or any combination newly.
Claims (7)
1. a recirculating cooling water system, is characterized in that comprising cooling tower, the first refrigeration unit, heat exchanger and triple valve;
Be connected to the water inlet of heat exchanger after the delivery port of described cooling tower connects a triple valve by pipeline, the delivery port of heat exchanger is connected to the water inlet of cooling tower by pipeline, form loop between cooling tower and heat exchanger by pipeline;
Described first refrigeration unit comprises evaporimeter and condenser, the water inlet of condenser is connected with another port of triple valve, the delivery port of condenser is connected with the water inlet of cooling tower, forms loop between the first refrigeration unit condenser and cooling tower by pipeline; The delivery port of described evaporimeter is connected with the water inlet of heat exchanger, and the water inlet of evaporimeter is connected with the delivery port of heat exchanger, forms loop between the first refrigeration unit evaporimeter and heat exchanger by pipeline.
2. a kind of recirculating cooling water system according to claim 1, is characterized in that the outlet pipeline of described cooling tower and the outlet pipeline of the first refrigeration unit evaporimeter are respectively arranged with a pump.
3. a kind of recirculating cooling water system according to claim 1, it is characterized in that being provided with water tank between described refrigeration unit evaporimeter and heat exchanger, the delivery port of described evaporimeter is connected to the water inlet of water tank, and the delivery port of water tank is connected to the water inlet of heat exchanger.
4. a kind of recirculating cooling water system according to claim 3, is characterized in that the outlet pipeline of described water tank arranges a pump.
5. a kind of recirculating cooling water system according to claim 1 or 3, is characterized in that the delivery port of described cooling tower is by being connected to the water inlet of water tank after triple valve.
6. a kind of recirculating cooling water system according to claim 1, it is characterized in that comprising the second refrigeration unit, described second refrigeration unit comprises evaporimeter and condenser, the water inlet of condenser is connected with the delivery port of cooling tower and the water inlet of heat exchanger respectively by triple valve, and the delivery port of condenser is connected with the delivery port of the water inlet of cooling tower and heat exchanger.
7. a kind of recirculating cooling water system according to claim 3 or 6, it is characterized in that the delivery port of the second refrigeration unit evaporimeter is connected to the water inlet of water tank, the delivery port of water tank is connected to the water inlet of heat exchanger, and the delivery port of heat exchanger is connected to the water inlet of the second refrigeration unit evaporimeter.
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CN201520057763.XU CN204494954U (en) | 2015-01-28 | 2015-01-28 | A kind of recirculating cooling water system |
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CN201520057763.XU CN204494954U (en) | 2015-01-28 | 2015-01-28 | A kind of recirculating cooling water system |
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