CN101425768A - Industrial cooling and waste heat recovery apparatus - Google Patents

Abstract

The invention relates to an industrial cooling and waste heat recovering device which comprises a collecting cell used for collecting cooling liquid with heat and connected with an electricity generating cell by a liquid outlet and a liquid outlet pipeline arranged on the collecting cell, one side of the electricity generating cell is provided with a thermal-electric electricity generating material enclosed in a protecting case, the electricity generating cell is also provided with a liquid outlet connected with a residual heat radiating cell which is provided with a temperature sensor and pumps the cooling liquid in the residual heat radiating cell to a ground container for circulation, and a liquid extracting pump of a cooler is connected with the temperature sensor, thus, the invention has the advantages of simple structure, low cost and small land occupying area; in addition, because the cooling liquid is used for replacing water used as the cooling liquid, the cooling liquid in the cooler does not volatilize, the water consumption caused by the volatilization of the cooling water can be avoided, the cost caused by the water consumption is reduced, and the water resource is saved; the residual heat can be used for electricity generation, the residual heat and the energy source are sufficiently used, and meanwhile, the heat pollution of the residual heat on the environment is reduced.

Description

Industry cooling and waste heat recovery plant

Technical field

The present invention is a kind of industry cooling and waste heat recovery plant, belongs to the renovation technique of industry cooling and waste heat recovery plant.

Background technology

Growing along with society, the energy is urgent, water shortage, ecological deterioration are the three big major issues that current society faces.Therefore, various possible measures be must take as far as possible, the existing energy and water resources made full use of.

With regard to the energy, about 90% electric power comes from the turbine generation that fossil fuel (as coal, oil) is made thermal source at present, its typical conversion efficiency of thermoelectric is 30-40%, the heat that means nearly 15 terawatts in the annual whole world is dissipated in the environment and (except wasting energy, also causes the thermal pollution of environment).On the other hand, these used heat usually need a large amount of water to cool off consume water resources.Have data that this point can be described: water for industrial use takies the overwhelming majority of water, and the industrial colling that is used for cooling off these used heat accounts for 121% of water for industrial use; Cooling water is the rich and influential family in the water for industrial use, account for more than 67% of industry total water amount, that is to say that cooling water amount accounts for more than 2/3 of water for industrial use total amount, and oil wherein, chemical industry, steel and iron industry, cooling water amount is more up to 120～90% of total water amount, and this is a very huge ratio.With water consumption per hour is that 100,000 tons petrochemical plant is an example, and a day water consumption reaches 2,400,000 tons.As in 30 tons for each person every year, then one day water consumption of petrochemical plant can be supplied 30,000 humans 1 year.Water rich and influential family like this, the whole nation has hundreds of individual.Therefore the consumption that how well used heat to be become high-end form of energy-electric energy, minimizing cooling water becomes a very urgent problem.

Now there have been many researchers to make suitable contribution in this respect, but also do not had ready-made technology and the scheme of utilizing waste-heat power generation can fully the cooling water saving be got off again well.As Chinese patent application number is to disclose a kind of technical scheme in 200420012422.2, it has adopted the scheme that comprises condensing agent (as dry ice, silver iodide etc.), dispenser and control system, it is the improvement of generally adopting technology to existing, has saved cooling water, but has failed to make full use of used heat." electric power station system engineering ", Vol.23, No.6, your green grass or young crops of Liu of Shandong University etc. " discussion of adverse current wet cooling tower water-saving technology " disclosed pp47-51 (2007)), it utilizes adverse current wet cooling tower water-saving technology, has reduced the loss of cooling water, but does not consider the utilization of used heat.

Summary of the invention

The objective of the invention is to consider the problems referred to above and a kind of cost that cooling water brings that can save be provided that the conserve water resource also can be used for used heat generating and makes full use of the energy, has saved the industry cooling and the waste heat recovery plant of the energy.The present invention is simple in structure, and cost is low.Can be applied to have surplus heat and need all industry of cooling water, be a brand-new industrial common technology.

Technical scheme of the present invention is: the collecting pit that includes the cooling liquid that is used for the collecting belt heat; collecting pit communicates with underground generating pond by its set liquid outlet and fluid pipeline; and a side in generating pond is equiped with the thermoelectric power generation material; the thermoelectric power generation material is enclosed in the protection box; the generating pond also is provided with liquid outlet; liquid outlet is connected to waste heat heat radiation pond; waste heat heat radiation is equiped with temperature sensor in the pond, and cooling liquid pump drawing liquid pump in order to the circulation cooling device to the container on ground that waste heat is dispelled the heat in the pond links to each other with temperature sensor.

The set liquid outlet of above-mentioned collecting pit is provided with first control switch.

Above-mentioned industrial cooling liquid has the boiling point that is higher than 100 degrees centigrade of cooling device temperature at least and is lower than the fusing point of 20 ℃ of subsurface temperatures.

Above-mentioned first control switch is a time switch.

The liquid outlet in above-mentioned generating pond also is provided with second control switch.

Above-mentioned second control switch is a time switch.

The pool wall thermal insulation of above-mentioned collecting pit, the tube wall thermal insulation of fluid pipeline, the pool wall of the side that the generating pond contacts with the thermoelectric power generation material is that good heat-conducting metal is made, other pool wall thermal insulation.

Above-mentioned thermoelectric power generation material is the thermoelectric power generation material that includes hot junction and cold junction; the adjacent box wall in the hot junction of protection box and thermoelectric power generation material is made by the good conductor material, and the box wall that the protection box is adjacent with thermoelectric power generation material cold junction reaches with underground adjacent box wall to be made by good thermally conductive materials.

The liquid outlet of above-mentioned drawing liquid pump is prepared the pond by pipeline and cooling liquid and is connected.

The present invention is underground owing to most of assembly is installed in, and does not have other dynamical system except the pump that makes liquid circulation, and therefore, it is simple in structure, and cost is low, and floor space is little.On the other hand, owing to adopt cooling liquid to replace water as cooling liquid, and be used in the temperature range of the equipment of being cooled, liquid contacts with it and is non-volatile, can save cooling water because the consumption of the water that volatilization brings reduces the cost that brings thus, the conserve water resource; But also used heat can be used for generating electricity, make full use of used heat, make full use of the energy, reduced the thermal pollution of used heat simultaneously to environment, be a kind of technology of energy-saving and emission-reduction.Being applicable to all enterprises that needs water quench used heat, as steel plant, cement plant, power plant etc., is a brand-new industrial common technology.The present invention is that a kind of design is ingenious, function admirable, convenient and practical industry cooling and waste heat recovery plant.

Description of drawings

Fig. 1 is a structural representation of the present invention.

Embodiment

Embodiment:

Structural representation of the present invention as shown in Figure 1; include the collecting pit 2 of the cooling liquid 1 that is used for the collecting belt heat; collecting pit 2 communicates with generating pond 5 by its set liquid outlet 4 and fluid pipeline 3; and a side in generating pond 5 is equiped with thermoelectric power generation material 6; thermoelectric power generation material 6 is enclosed in the protection box 7; generating pond 5 also is provided with liquid outlet 12; liquid outlet 12 is connected to waste heat heat radiation pond 13; waste heat heat radiation is equiped with temperature sensor 14 in the pond 13, and cooling liquid 1 pump drawing liquid pump 10 in order to the circulation cooling device to the container on ground that waste heat is dispelled the heat in the pond 13 links to each other with temperature sensor 14.Cooling liquid 1 has the high characteristics of thermal conductivity, the fusing point that has the boiling point that is higher than 100 degrees centigrade of device temperatures at least and be lower than 20 ℃ of subsurface temperatures, and good fluidity.Because of cooling liquid 1 has such characteristics, thereby reusable edible.Thermoelectric power generation material 6 has good heat storage capacity in cooling liquid 1 possible temperature range, thermoelectric power generation material 6 has from room temperature to the thermoelectric power generation material characteristics that directly thermal power transfer become electric energy in the 6 possible maximum temperature scopes, and thermoelectric power generation material 6 adopts the design of cascade, makes it to have high energy conversion efficiency.The pool wall thermal insulation of above-mentioned collecting pit 2, the tube wall thermal insulation of fluid pipeline 3, the pool wall of the side that generating pond 5 contacts with thermoelectric power generation material 6 is that good heat-conducting metal is made, other pool wall thermal insulation.For saving the space, collecting pit 2, generating pond 5 all are installed in underground.

Discharge cooled cooling liquid 1 for ease of control liquid outlet 12, above-mentioned collecting pit 2 set liquid outlets 4 are provided with first control switch 8.Above-mentioned first control switch 8 is a time switch.The liquid outlet 12 in above-mentioned generating pond 5 also is provided with second control switch 9.Above-mentioned second control switch 9 is a time switch.

For ease of with cooling liquid 1 pump to ground, being recycled, in the present embodiment, the liquid outlet of above-mentioned drawing liquid pump 10 is laid in pond 15 by pipeline 11 and cooling fluid and is connected.Above-mentioned cooling fluid deposit pond 15 is connected with cooling device.Pipeline 11 is made by Heat Conduction Material, even cooling liquid 1 also has certain temperature after coming out from waste heat heat radiation pond 13, still can be dispersed into by the tube wall of pipeline 11 underground, thereby guaranteed that cooling liquid 1 can recycling cooling used heat.

In the present embodiment, generating pond 5 is done greatly as far as possible with the contact area of thermoelectric material, and vertical direction can be as far as possible little.The area in waste heat heat radiation pond 13 is big as far as possible, but the height of vertical direction is as far as possible little under the situation of the suction that helps pump.

In the present embodiment; above-mentioned thermoelectric power generation material 6 is for including the thermoelectric power generation material of hot junction and cold junction; the box wall that protection box 7 is adjacent with the hot junction of thermoelectric power generation material 6 is made by the good conductor material, and the protection box 7 box walls adjacent with thermoelectric power generation material 6 cold junctions reach with underground adjacent box wall to be made by good thermally conductive materials.The output of thermoelectric power generation material 6 connects or is converted to alternating current by transducer with storage battery and is connected with relevant electrical network.

First control switch 8 is to open a period of time at regular intervals, and the time interval, cooling rate waited to determine according to the amount of cooling liquid 1.The cooling liquid 1 that gets off that is cooled in the generating pond 5 flows out to waste heat heat radiation pond 13 by control switch 9 controls, first control switch 8 and second control switch 9 are time switch, the flow of the time interval of time switch during according to the total amount of cooling liquid 1 and cooling device determine, to guarantee cooling liquid 1 cooling device incessantly in the whole circulation process.The time set of the startup of first control switch 8 and second control switch 9 is associated, and promptly after second control switch 9 was opened certain hour, the cooling liquid 1 that first control switch 8 just starts to guarantee cooled cooling liquid 1 and heat can not mix.The pool wall in waste heat heat radiation pond 13 is good conductors, is beneficial to waste heat and is scattered in underground rapidly.After cooling liquid 1 wherein reached uniform temperature, the drawing liquid pump of controlling by temperature sensor 10 arrived on the ground cooling liquid 1 pump to reuse as cooling agent.The thermoelectric material equipment adopts the mode of cascade to improve the efficient of generating.

Operation principle of the present invention is as follows: the heat of cooling liquid 1 stores 6 generatings of heat supply electricity electricity generation material by generating pond 5 with heat.Simultaneously, be cooled in the pond 5 temperature of the cooling liquid 1 that gets off of generating is surveyed by hygrosensor, after reaching uniform temperature, open control switch 9, cooling liquid 1 is prepared against cooling industrial equipment to be cooled by drawing liquid pump 10 and pipeline 11 pumps to cooling fluid deposit pond 15, to reuse as cooling agent.

Claims (9)

1; a kind of industry cooling and waste heat recovery plant; it is characterized in that including the collecting pit (2) of the cooling liquid (1) that is used for the collecting belt heat; collecting pit (2) communicates with generating pond (5) by its set liquid outlet (4) and fluid pipeline (3); and a side in generating pond (5) is equiped with thermoelectric power generation material (6); thermoelectric power generation material (6) is enclosed in the protection box (7); generating pond (5) also is provided with liquid outlet (12); liquid outlet (12) is connected to waste heat heat radiation pond (13); be equiped with temperature sensor (14) in the waste heat heat radiation pond (13), cooling liquid (1) pump drawing liquid pump (10) in order to the circulation cooling device to the container on ground that waste heat is dispelled the heat in the pond (13) links to each other with temperature sensor (14).

2, industry cooling according to claim 1 and waste heat recovery plant is characterized in that the set liquid outlet of above-mentioned collecting pit (2) (4) is provided with first control switch (8).

3, industry cooling according to claim 1 and waste heat recovery plant is characterized in that above-mentioned industrial cooling liquid (1) has boiling point that is higher than 100 ℃ of equipment maximum temperatures to be cooled and the fusing point that is lower than 20 ℃ of subsurface temperatures at least.

4, industry cooling according to claim 2 and waste heat recovery plant is characterized in that above-mentioned first control switch (8) is a time switch.

5, industry cooling according to claim 1 and waste heat recovery plant is characterized in that the liquid outlet (12) in above-mentioned generating pond (5) also is provided with second control switch (9).

6, industry cooling according to claim 5 and waste heat recovery plant is characterized in that above-mentioned second control switch (9) is a time switch.

7, according to claim 1 to 6 each described industry cooling and waste heat recovery plant, it is characterized in that the pool wall thermal insulation of above-mentioned collecting pit (2), the tube wall thermal insulation of fluid pipeline (3), the pool wall of the side that generating pond (5) contacts with thermoelectric power generation material (6) is that good heat-conducting metal is made, other pool wall thermal insulation.

8, industry cooling according to claim 7 and waste heat recovery plant; it is characterized in that above-mentioned thermoelectric power generation material (6) is for including the thermoelectric power generation material of hot junction and cold junction; the box wall that protection box (7) is adjacent with the hot junction of thermoelectric power generation material (6) is made by the good conductor material, and the box wall that protection box (7) is adjacent with thermoelectric power generation material (6) cold junction reaches with underground adjacent box wall to be made by good thermally conductive materials.

9, industry cooling according to claim 8 and waste heat recovery plant is characterized in that the liquid outlet of above-mentioned drawing liquid pump (10) is connected by pipeline (11) and cooling liquid preparation pond (15).

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