CN202019592U - Air-cooling-and-dehumidifying air-conditioning system for plant factories - Google Patents

Abstract

The utility model discloses an air-cooling-and-dehumidifying air-conditioning system for plant factories. Two sets of heat exchangers with a common air flow passage are arranged in the system, and are connected in series and in tandem in the common air flow passage; in the two sets of heat exchangers, the first heat exchanger is arranged as a heating coil, which is first in contact with air to heat the air; the second heat exchanger is arranged as a cooling coil, which cools and dehumidifies the air of the outlet of the heating coil; and the heat source of the heating coil is the heat of condensation of a refrigerating unit or the heat dissipated by an artificial light source in a plant factory. The air-cooling-and-dehumidifying air-conditioning system solves the problem that the conventional cooling and dehumidifying equipment has a poor dehumidifying effect and even cannot carry out dehumidification under a low-temperature and high-humidity environment.

Description

A kind of plant factor air cooling and dehumidifying air-conditioning system

Technical field:

The utility model relates to a kind of plant factor air cooling and dehumidifying air-conditioning system, particularly relates to the air-conditioning system of air in closed space cooling and dehumidifying under a kind of low temperature and high relative humidity environment.

Background technology:

" plant factor " is meant by artificial environment control and computerized production management and carries out the annual plant cultivation system of stopping that do not have.Plant cultivating is in the confined space just as the industrial building, its grow required temperature, humidity, carbonic acid gas, oxygen, fertilizer, nutrient, illumination etc. are all controlled, no longer be subjected to the influence of extraneous climatic environment, have anniversaryization, sophistication, homogenize and characteristics such as yielding ability.

The population report of delivering according to the United Nations estimates, to the year two thousand fifty whole world population will reach 9,300,000,000, if rely on traditional tillage method that depend on sky to receive, present all in the world arable lands almost operate at full capacity, just support more than 60 hundred million present populations reluctantly.So must seek a radical solving method." plant factor " can reach purposes such as high yield, excellent product with the planting type that intensifies most on limited soil, be the developing direction of modern agricultural technology, has been subjected to the great attention of national governments and each big scientific research institution.

As an important component part of " plant factor ", air handling system is born tasks such as the temperature/humidity regulation of " plant factor " interior air, new wind processing and air cleaning.And the dehumidification of air to handle be a main task of " plant factor " air-conditioning system, in some cases or even top priority.The dehumidification method of air is a lot, as liquid desiccant dehumidification (dehumidification by absorption), solid moisture absorbent dehumidification (absorption dehumidification) and cooling dehumidification etc.

The liquid desiccant dehumidification utilizes the concentrated solution of some salt (such as calcium chloride, lithium chloride etc.) to have strong hygroscopicity to absorb airborne moisture content exactly.The major advantage of the method is that the dehumidification amplitude of air is big, can reach very low water capacity; Can obtain required ventilation state with single dehumidification processing procedure, heat again, avoid the waste of cold and heat and need not to cool air to earlier dew point.But this method needs the reclaim equiment of a cover saline solution, and is big as indoor waste heat amount, also needs a cover cooling system, the systematic comparison complexity, and it is big to take up room; Need resolve the anticorrosion problem of equipment in addition.So be not suitable for " plant factor " such occasion.

The solid moisture absorbent dehumidification utilizes some solid material (such as silica gel, calcium chloride etc.) to have strong hygroscopicity to absorb airborne moisture content exactly.The method need be regenerated and cooling system equally.Though the rotary wheel dehumidifying function realizes the continuous operation of moisture absorption and regeneration, its operation energy consumption is higher, has infiltration between dehumidified air and the regeneration air.Be not suitable for " plant factor " such occasion yet.

Humid air is cooled,, just have moisture content and separate out, the principle of cooling dehumidification that Here it is when the temperature of humid air is lower than its dew-point temperature.In all heat, device for heat/moist exchange, spray chamber and surface-type heat exchanger are most widely used.The major advantage of spray chamber is can realize the processing procedure of multiple air, have certain ability that purifies air, expend the few and easy processing of amount of metal.Shortcoming such as but it is big to hygienic requirements height, the floor space of water quality, water system is complicated and consumed power is more.So in the place (as plant factor) that place, aspect such as energy-conservation is had strict demand, it is more extensive that surface-type heat exchanger uses.

Obviously,, in dehumidification, must be accompanied by the attenuating of air themperature, not reduce, then also need a temperature-rise period for keeping air themperature if merely adopt cooling dehumidification process.

Existing a kind of cooling dehumidifying device that is widely used, its operation principle as shown in Figure 2.The state variation of air as shown in Figure 3 in the dehumidification process.Need the air elder generation process cooling coil 2 of the state A of dehumidification, because the cold-producing medium heat absorption drops to below the air dew point temperature wall surface temperature of cooling coil, thereby air is lowered the temperature, state B is arrived in dehumidification.The air that leaves cooling coil is warming up to state C through airheater again, and this has just reached the purpose that a dehumidification is not lowered the temperature.Here, cooling coil is done low-temperature receiver 4 with chilled water or cold-producing medium, and for saving the energy, airheater utilizes the condensation heat of air-conditioning unit to add hot-air for thermal source 5.

This cooling dehumidifying device floor space is little, makes ceiling mounting type and can not take the ground useful space fully; Dehumidification is effective, and outlet air temperature is controlled relatively; Utilize condensation heat (heat recovery a kind of), economic operating cost; System is simple, ripe, reliable, use, management, easy to maintenance.

But it also has fatal defective.Because it is indoor surplus wet to adopt the cooling and dehumidifying method to get rid of, the wall surface temperature of cooling coil need be lower than the dew-point temperature of room air.In actual the use, there are many places under the environment of low temperature and high relative humidity, to dehumidify.Such as totally-enclosed artificial light type plant factor, in the process of growth of plant, can produce a large amount of surplus wetly, even the temperature of air is lower, relative moisture also can be very big.Under this operating mode, carry out cooling and dehumidifying, consider the medium transport temperature difference, require sink temperature very low, can be lower than 0 ℃ when minimum.As use water as refrigerant, can produce the harm of freezing.Can alleviate this problem though add antifreezing agent, antifreezing agent has corrosion to equipment, and the operational management cost also increases.As making refrigerant with cold-producing medium, though there is not the harm of freezing, the wall surface temperature of cooling coil also can be lower than 0 ℃, its surface meeting frosting, and the time one is long, and air flow channel is blocked, and system can't move.Simultaneously, sink temperature reduces, and the Energy Efficiency Ratio of air-conditioning system also reduces.

The theory analysis of this process as shown in Figure 4.As an example, need supposing the temperature of air of the state A of dehumidification is 16 ℃, relative moisture 60%, through cooling coil, because the cold-producing medium heat absorption drops to below the air dew point temperature wall surface temperature of surface cool coil pipe, thereby air is lowered the temperature, state B is arrived in dehumidification, at this moment about 4.5 ℃ of temperature, relative moisture about 90%.Consider heat transfer temperature difference, get Δ t=5 ℃, then sink temperature tw1＜0 ℃.

Summary of the invention:

For overcoming the defective of prior art, the purpose of this utility model is to provide a kind of plant factor air cooling and dehumidifying air-conditioning system, can both effectively dehumidify under any operating mode, especially is fit to the dehumidifying operation under the low temperature and high relative humidity environment.

The utility model technical solution problem adopts following technical scheme:

A kind of plant factor air cooling and dehumidifying air-conditioning system comprises:

One air-treatment unit, it has air-treatment unit casing, is located at blower fan, the cooling coil of being located at the blower fan rear end, heat(ing) coil and the air cleaner of an end in the unit casing, also is provided with cooling coil outlet air temperature sensor in the unit casing;

One recovery type heat air-conditioning unit, it has compressor, shell and tube exchanger, heat recovering heat exchanger, air side heat exchanger, reaches axial flow blower;

Described heat recovering heat exchanger is communicated with described heat(ing) coil by the hot water line, and in the hot water line, be provided with hot water circulating pump and hot water flow control valve, described shell and tube exchanger is communicated with described cooling coil by the chilled water pipeline, and is provided with chilled water circulating pump in the chilled water pipeline;

One controller, it jointly controls described compressor, chilled water circulating pump, hot water circulating pump, axial flow blower, cooling coil outlet air temperature sensor, hot water flow control valve and is located at factory building interior temperature sensor, humidity sensor.

Described air-conditioning system also comprises:

Be located at artificial light source, artificial light source heat radiation recover and timing controller in the factory building;

Described timing controller is controlled the open and close of described artificial light source, closes the dark phase of artificial light source as plant growing daytime, opens the photophase of artificial light source as plant growing night;

Described artificial light source heat radiation recover is connected among the described hot water line.

Adopt this air-conditioning system to carry out the method for plant factor's air cooling and dehumidifying, comprise the steps:

Two groups of heat exchangers with public air flow channel are set in described plant factor, with described two groups of heat exchanger tandem connections in described public air flow channel;

In described two groups of heat exchangers, first heat exchanger is set to heat(ing) coil, and it contacts with air earlier and adds hot-air; Second heat exchanger is set to cooling coil, and the outlet air of described heat(ing) coil is carried out cooling and dehumidifying;

The thermal source of described heat(ing) coil is the condensation heat of refrigeration unit in the plant factor or the heat radiation of artificial light source.

Compared with the prior art, the beneficial effects of the utility model are embodied in:

1, under the low temperature and high relative humidity environment,, correspondingly can improve the sink temperature of surface cool coil pipe owing to improved the temperature of surface cool coil pipe inlet air.Avoided cooling coil to freeze or the possibility of frosting, the Energy Efficiency Ratio of air-conditioning system also can improve.

2, by changing the heat that adds of heater, can control the outlet air temperature of cooling and dehumidifying equipment easily, realize multiple dehumidification process.

3, effectively utilize the condensation heat of air-conditioning unit and the heat radiation of artificial light source, the heat radiation of use artificial light source has reduced the thermic load of air-conditioning unit on the one hand, has freely used this part heat energy on the other hand, kills two birds with one stone; Use the condensation heat of air-conditioning unit to heat the condensation temperature that has reduced the air-conditioning unit on the one hand, reduce system power dissipation, freely used this part heat energy on the other hand, also kill two birds with one stone.

Description of drawings:

Fig. 1 cools off the schematic diagram of dehumidification method for adopting the utility model air-conditioning system.

Fig. 2 is the schematic diagram of existing cooling dehumidification method.

The i-d figure that Fig. 3 changes for air condition in the existing cooling dehumidifying device.

Fig. 4 is used for the i-d figure that air condition changes under the low temperature and high relative humidity environment for existing cooling dehumidifying device.

The i-d figure that Fig. 5 changes for air condition in the utility model cooling dehumidification air-conditioning system.

Fig. 6 is the utility model air-conditioning system schematic diagram.

Number in the figure: 1 heater, 2 cooling coils, 3 public air channels, 4 low-temperature receivers, 5 thermals source, 6 air-treatment units, 61 unit casings, 62 blower fans, 63 cooling coils, 64 heat(ing) coils, 65 air cleaners, 7 hot water lines, 8 chilled water pipelines, 9 hot water circulating pumps, 10 chilled water circulating pumps, 11 recovery type heat air-conditioning units, 111 compressors, 112 shell and tube exchangers, 113 heat recovering heat exchangers, 114 controllers, 115 air side heat exchangers, 116 axial flow blowers, 117 temperature sensors, 118 humidity sensors, 119 cooling coil outlet air temperature sensors, 121 timing controllers, 122 artificial light sources heat radiation recover, 123 artificial light sources, 13 hot water flow control valves.

Below pass through embodiment, and the utility model is described in further detail in conjunction with the accompanying drawings.

Embodiment:

Embodiment: referring to Fig. 6, the cooling and dehumidifying air-conditioning system of present embodiment comprises:

One air-treatment unit 6, it has air-treatment unit casing 61, is located at blower fan 62, the cooling coil 63 of being located at the blower fan rear end, heat(ing) coil 64 and the air cleaner 65 of an end in the unit casing, also is provided with cooling coil outlet air temperature sensor 119 in the unit casing;

One recovery type heat air-conditioning unit 11, it has compressor 111, shell and tube exchanger 112, heat recovering heat exchanger 113, air side heat exchanger 115, reaches axial flow blower 116;

Described heat recovering heat exchanger 113 is communicated with described heat(ing) coil 64 by hot water line 7, and in hot water line 7, be provided with hot water circulating pump 9 and hot water flow control valve 13, described shell and tube exchanger 112 is communicated with described cooling coil 63 by chilled water pipeline 8, and is provided with chilled water circulating pump 10 in the chilled water pipeline;

One controller, it jointly controls described compressor 111, chilled water circulating pump 10, hot water circulating pump 9, axial flow blower 116, cooling coil outlet air temperature sensor 119, hot water flow control valve 13 and is located at factory building interior temperature sensor 118, humidity sensor 117.

In specifically being provided with, the thermal source of recovery type heat air-conditioning unit 11 is from the artificial light source of being located in the factory building 123, artificial light source heat radiation recover 122 and timing controller 121; The dark phase of artificial light source as plant growing closed in the open and close of the described artificial light source 123 of described timing controller 121 controls daytime, opens the photophase of artificial light source as plant growing night; Described artificial light source heat radiation recover 122 is connected among the described hot water line 7.

Referring to Fig. 1, adopt this air-conditioning system to carry out plant factor's air cooling and dehumidifying method, be that two groups of heat exchangers with public air channel 3 are set in plant factor, with described two groups of heat exchanger tandem connections in public air channel.

In described two groups of heat exchangers, first heat exchanger is set to heat(ing) coil 1, and it contacts with air earlier and adds hot-air; Second heat exchanger is set to cooling coil 2, and the outlet air of described heat(ing) coil is carried out cooling and dehumidifying.

In the practical application, the thermal source of heat(ing) coil 1 is the condensation heat of refrigeration unit in the plant factor or the heat radiation of artificial light source.

Adopt this air-conditioning system to cool off dehumidification method principle referring to Fig. 1, the variation of air condition is referring to Fig. 5 in the cooling dehumidification air-conditioning system.The air themperature that needs the state A of dehumidification is 16 ℃, and relative moisture 60%, dew-point temperature are 8.2 ℃.Be warming up to state B through airheater, temperature is about 22 ℃, and dew-point temperature still is 8.2 ℃.Pass through cooling coil again, because the cold-producing medium heat absorption, as long as the wall surface temperature of cooling coil drops to the air dew point temperature below 8.2 ℃, air just can be lowered the temperature, state C is arrived in dehumidification.This has just reached the purpose that a dehumidification is not lowered the temperature.Here, because the inlet temperature of cooling coil improves, sink temperature remains on 3 ℃～7 ℃ and gets final product.This has just solved existing cooling dehumidification method sink temperature problem on the low side under the low temperature and high relative humidity environment.Similarly, for saving the energy, airheater utilizes the condensation heat of air-conditioning unit or the heat radiation of artificial light source to add hot-air.

The control procedure of this system is as follows:

Timing controller 121 control artificial light sources are opened, are closed between daytime 123 nights.

In the course of work, the blower fan 62 of air-treatment unit 6 is opened all the time, and temperature sensor 117 detects indoor temperature, and humidity sensor 118 detects indoor humidity, and cooling coil outlet air temperature sensor 119 detects cooling coil 63 leaving air temps.

When indoor temperature greater than design temperature, humidity is greater than setting humidity, compressor 111, axial flow blower 116, chilled water circulating pump 10 are opened, hot water circulating pump 9, hot water flow control valve 13 are closed, system's operation cool-down dehumidification pattern.

When indoor temperature equals design temperature, humidity is greater than setting humidity, compressor 111, axial flow blower 116, chilled water circulating pump 10, hot water circulating pump 9, hot water flow control valve 13 are all opened, the aperture of the rotating speed of axial flow blower 116, hot water flow control valve 13 is regulated according to cooling coil 63 leaving air temps, make cooling coil 63 leaving air temps equal design temperature, system's operation isothermal dehumidifying pattern.

When indoor temperature less than design temperature, humidity is greater than setting humidity, and compressor 111, chilled water circulating pump 10, hot water circulating pump 9, hot water flow control valve 13 are all opened, and axial flow blower 116 is closed, the aperture maximum of hot water flow control valve 13, system's operation intensification dehumidification mode.

When indoor temperature is less than or equal to design temperature, humidity is less than or equal to setting humidity, compressor 111, axial flow blower 116, chilled water circulating pump 10, hot water circulating pump 9, hot water flow control valve 13 are all closed, and recovery type heat air-conditioning unit 11 is in holding state.

Claims (2)

1. plant factor's air cooling and dehumidifying air-conditioning system is characterized in that, comprising:

One air-treatment unit (6), it has air-treatment unit casing (61), is located at blower fan (62), the cooling coil (63) of being located at the blower fan rear end, heat(ing) coil (64) and the air cleaner (65) of an end in the unit casing, also is provided with cooling coil outlet air temperature sensor (119) in the unit casing;

One recovery type heat air-conditioning unit (11), it has compressor (111), shell and tube exchanger (112), heat recovering heat exchanger (113), air side heat exchanger (115), reaches axial flow blower (116);

Described heat recovering heat exchanger (113) is communicated with described heat(ing) coil (64) by hot water line (7), and in hot water line (7), be provided with hot water circulating pump (9) and hot water flow control valve (13), described shell and tube exchanger (112) is communicated with described cooling coil (63) by chilled water pipeline (8), and is provided with chilled water circulating pump (10) in the chilled water pipeline;

One controller, it jointly controls described compressor (111), chilled water circulating pump (10), hot water circulating pump (9), axial flow blower (116), cooling coil outlet air temperature sensor (119), hot water flow control valve (13) and is located at factory building interior temperature sensor (118), humidity sensor (117).

2. a kind of plant factor according to claim 1 air cooling and dehumidifying air-conditioning system is characterized in that described air-conditioning system also comprises:

Be located at artificial light source (123), artificial light source heat radiation recover (122) and timing controller (121) in the factory building;

Described timing controller (121) is controlled the open and close of described artificial light source (123);

Described artificial light source heat radiation recover (122) is connected among the described hot water line (7).

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