KR100954576B1 - Heat recovering ventilation system with function of temperature control and humidifying in mushroom production plant and it's operating method - Google Patents

Abstract

PURPOSE: An exhaust heat recovery and ventilation system is provided to properly maintain concentration of carbon dioxide in a mushroom growing house with suitable temperature and humidity, and to save energy with a heat-exchanger. CONSTITUTION: An exhaust heat recovery heat exchanger(300) transfers and recovers exhaust heat with a heat exchange member. On an outer side of the exhaust heat recovery heat exchanger, a dust-collecting filter(310,320) is equipped to remove foreign materials in outdoor air. An electric heater installed on a suction inlet of the exhaust heat recovery heat exchanger is selectively driven by temperature of outdoor air. A heating/cooling heat exchanger(500) adjust temperature of underground water. A humidifying unit comprises an evaporation/gasification type humidifier(600) and a nozzle spray type humidifier(610).

Description

Heat recovering ventilation system with function of temperature control and humidifying in mushroom production plant and it's operating method}

The present invention relates to a mushroom cultivation company for cultivating mushrooms, to control the temperature and humidity in the cultivator while the ventilation is made, the temperature, humidification, heat recovery ventilator and operating method of the mushroom cultivation.

Cultivation of mushrooms grown in all seasons according to natural growth conditions requires artificial growers to create conditions similar to natural growth environments.

Since growers for growing mushrooms have a large difference in temperature and humidity inside and outside during summer and winter, the grower must artificially adjust the temperature and humidity of the grower to the mushroom growth conditions.

Mushroom growers vary slightly depending on the type of mushroom grown, but the temperature should be kept at 18 wh 3 ^o C, the humidity should be maintained at around 90%, and the CO ₂ concentration should be maintained at 1000 ppm or less. Can grow quickly.

In some cases, an air conditioner using a refrigeration cycle is used to control the temperature of mushroom growers, but this requires a high initial investment cost and a high maintenance cost. Alternatively, dust removal and humidification in the air by a water drop scrubber method may be used. On the other hand, while the ventilation system using the double duct type heat recovery device has been developed and spread, this also has a problem that the operation cost is increased due to the complicated structure and low heat recovery efficiency.

The existing method described above is provided with an air supply device 5 which serves to supply external air to the groundwater energy recoverer 4 or to circulate air in the cultivator 100 without congestion as shown in FIG. ; A groundwater energy recoverer (4) for exchanging outside air (or indoor air in circulation) supplied through the air supply device (5) by using groundwater, while simultaneously humidifying and filtering and washing it; Installed in connection with the groundwater energy recovery unit (4), the double duct exhaust exhaust heat exchanged by the groundwater energy recovery unit (4) heat exchanged once more in the process of discharging the muddy air inside the cultivator outside An energy recovery unit 3; The T-type pipe 22 and the air supply 연결된 connected to the filter 23 for filtration and suctioning the indoor air of the cultivator 100 while allowing the outside air heat exchanged through the exhaust energy recovery unit 3 to be supplied to the inside of the cultivator 100 ( 21) and a supply pipe (1) having a discharge hole (11); By circulating the cultivator 100 is made by having a contaminated air discharge device (6) that serves to discharge the polluted air to the outside through the exhaust energy recovery device (3), which is registered in Patent 10-0739976 .

The energy-saving windowless ventilation device of the mushroom cultivator of this type uses the groundwater energy recovery device (4) of the water vertical falling scrubber, and adopts the double duct exhaust energy recovery device (3) with a complicated structure. There is a problem that the heat recovery efficiency is low, and the structure is complicated and the cost is high.

The present invention can save energy by transferring and recovering the heat in the exhaust discharged from the grower to the outside for ventilation by using a heat exchanger to save the energy, while the air supply passes through the fincoil heat exchanger After heating and cooling, the humidifier of evaporation method and nozzle spray method is used to maintain the temperature and humidity suitable for mushroom growth, while supplying fresh outside air through ventilation of supply and exhaust, so that the concentration of carbon dioxide inside the grower is also increased. It is maintained properly.

The present invention provides an air-to-air heat recovery heat exchanger that delivers and recovers exhaust heat to the air supply while passing through the exhaust and air supply with a thin heat exchanger interposed therebetween. After passing through the air-heated cooling heat exchanger, the evaporation method and the nozzle spray type humidifier are supplied to the grower, and the exhaust from the grower is discharged to the outside by the exhaust fan after passing through the heat recovery heat exchanger.

When the concentration of carbon dioxide in the grower is low, and the introduction of fresh outside air is not necessary, the inside of the grower is passed through a warm cooling heat exchanger, an evaporator-type, and a nozzle spray-type humidifier so that the temperature and humidity are properly maintained.

Supply air inlet side of the heat recovery heat exchanger in the present invention, by installing an electric heater to be used for the condensation include flatulence increase the supply air temperature to about 5 ^o C cold weather in winter the air temperature falls below 0 ^o C.

The present invention is to cultivate mushrooms throughout the four seasons by adjusting the temperature and humidity of the mushroom grower according to the growth conditions of the mushroom, recovering the exhaust heat using the heat recovery heat exchanger and temperature control through a fincoil type heat-cooled heat exchanger Finally, the humidity is controlled through a humidifier of the evaporation method and the nozzle spray method.

The present invention recovers more than 80% of the exhaust heat from the heat recovery heat exchanger, while the ground water is used as it is in the mid-term, such as spring and autumn, in the warm-cooled heat exchanger that uses a small amount of ground water as it is, or warms and cools it. In addition, the humidity is controlled through the evaporation and spray humidifiers, thereby saving energy by using exhaust heat recovery and renewable energy of groundwater, and controlling the temperature and humidity in a hygienic and stable manner. .

The present invention has a heat recovery heat exchanger for receiving and recovering heat from the exhaust while passing the air supply and the exhaust to both sides of the heat exchange membrane, and the ground air is heated or cooled as it is, or is heated. It is equipped with a heating cooling heat exchanger to control the temperature while passing through the fincoil-type heating cooling heat exchanger to be used, and a humidifier of the evaporation method and a nozzle spray method to control the humidity of the air supply passing through the heating cooling heat exchanger. And an electric heater for preheating the air supply from the outside introduced into the heat recovery heat exchanger to a cold weather, and condensing condensation, and foreign substances (dust, mushroom spores, etc.) in the air intake side and the ventilation system of the heat recovery heat exchanger, respectively. ) To provide a dust collecting filter for removing.

The air from the mushroom cultivator is discharged to the outside by the exhaust fan after passing through the heat recovery heat exchanger, and the outside air is supplied to the mushroom cultivator through the heat recovery heat exchanger to the air supply, and the heat recovery heat exchanger is connected to the air supply via the heat exchange membrane. The heat recovery heat exchanger for transferring the exhaust heat to the supply air by using the heat exchange membrane by causing the exhaust flow to cross each other is a known device.

An electric heater is installed at the air supply inlet of the heat recovery heat exchanger, so that when the outside air temperature is low, such as in winter, the air is preheated to an appropriate temperature to be supplied to the air supply.

The air supply passing through the heat recovery heat exchanger is passed through a fin-coiled warm-cooling heat exchanger where the ground water is cooled or the ground-cooled ground water flows to the air supply temperature. Finally, the humidifier of the evaporator type and the nozzle spray method is used. Allow the humidification to take place.

Here, the humidifier of the evaporation method is a humidifying plate in which water is continuously supplied and absorbed from the upper tank regardless of the humidity in the mushroom cultivator so that the wet state is sufficiently maintained. Moisture in the humidification plate is evaporated naturally by the water vapor pressure difference as it passes through, and the humidity is supplied to the air supply so that the relative humidity is maintained at 80 to 90% at the outlet of the humidifier. ) Is left in the humidifying plate as it is sanitary, and is registered as a patent by the present inventors with a stable humidification technology that is not humidified. (Registration No. 10-0698518)

In addition, the nozzle spray humidifier is connected with a humidity sensor that measures the humidity inside the mushroom grower, and when the humidity inside the mushroom grower is lower than the set humidity, the electronic valve on the water supply pipe opens and water is supplied to the spray nozzle. This allows for rapid humidification.

In the fincoil type warm-cooling heat exchanger and the humidifier of the present invention, the groundwater stored in the tank is supplied to the pump while the groundwater used is circulated in the tank and reused or discharged to be used for another purpose or discarded.

In the present invention, the air supplied to the mushroom cultivator is supplied by the air supply fan, the exhaust discharged to the outside is discharged by the exhaust fan, the dust collecting filter and the damper is installed in the air supply and exhaust system, respectively, supply air, exhaust In addition, according to the removal of foreign substances in the ventilation and the flow of air in each system, the circulation operation to continuously circulate only the ventilation of the mushroom cultivator's internal air, the supply and exhaust operation or the supply and exhaust operation at the same time as the supply and exhaust, and ventilation The mixed operation in which the circulation operation is performed at the same time is controlled.

The present invention will be described in detail with reference to the accompanying drawings.

Embodiment configuration of the present invention is as shown in Figure 2, a perspective view and a front view showing an overview of the mushroom cultivation use ventilation apparatus of the present invention is shown in Figures 3 and 4, respectively.

The present invention includes a heat recovery heat exchanger (300) having the exhaust (EA) is ventilated and discharged from the mushroom cultivator and the outside air (OA) supplied to the mushroom cultivator while passing through each other on the boundary of the heat exchange membrane has the exhaust (EA) It is a known device that is commercially available to give heat to the outside air (OA) supplied to the mushroom cultivator to give a cooling effect in the summer, heating in the winter.

That is, since the heat recovery heat exchanger (300) has a lower exhaust (EA) temperature than the outdoor air (OA) temperature in summer, the heat recovery heat exchanger (300) transfers the heat contained in the exhaust (EA) to the air supply (SA) to increase the temperature of the air supply (SA). Since the temperature of the air is lower than the temperature of the outside air (OA), and in the winter, the temperature of the exhaust air (EA) is higher than the temperature of the outside air (OA), the heat contained in the exhaust (EA) is transferred to the air supply (SA) to supply the air (SA). By allowing the temperature to be higher than the outside air (OA) temperature, heat is transferred from the exhaust (EA) to the air supply (SA) to save energy.

An exhaust fan 340 is installed at the outlet side of the exhaust heat exchanger 300 to discharge the exhaust gas EA, and at the inlet side of the heat recovery heat exchanger 300 at the air supply SA side. Install the filter 310 to filter foreign matter in the outside air (OA) and at the same time install the electric heater 410 when the outside air (OA) temperature is significantly lower, such as winter, heat the outside air (OA) to the appropriate temperature heat recovery heat exchange To pass through the device (300).

The air supply (SA) passing through the heat recovery heat exchanger (300) is connected through a separate duct (not shown), such that it is properly supplied to the mushroom grower, and the exhaust (EA) is connected through a duct not shown. Allow them to be discharged outside the mushroom farm.

The air supply (SA) recovering the exhaust heat from the heat recovery heat exchanger (300) is evaporated by the air supply fan (330) after being heated or cooled through the fincoil type warming and cooling heat exchanger (500) in which groundwater is circulated. After humidification is made through the humidifier 600 and the nozzle spray method of the humidifier 610, the mushroom is supplied to the inside of the grower.

In the present invention, the internal air from the mushroom cultivator is passed through the dust collecting filter 320 by the ventilation (RA) and then supplied to the heat recovery heat exchanger (300) or to the circulation damper (360) to select the circulation air supply (RSA). To be.

The following table shows the air condition amount for each step.

The present invention is installed CO ₂ , temperature, humidity sensor not shown in the exhaust system to allow the operation of the supply and exhaust operation, ventilation circulation operation or a mixture of the exhaust and ventilation circulation at the same time depending on the CO ₂ , temperature, humidity conditions.

If the concentration of CO2 in the mushroom cultivator is higher than the set value, operate the exhaust / exhaust.

In the present invention, the air flow of the supply and exhaust operation, the ventilation (RA) from the mushroom cultivator is the outside through the dust collecting filter 320, the heat recovery heat exchanger 300, the exhaust damper 350 by the exhaust fan 340 Is discharged to, the circulation damper 360 is in a closed state.

In addition, the outside air (OA) from the outside is supplied to the outside air damper 370, the dust collecting filter 310, the electric heater 410, the heat recovery heat exchanger 300, fincoil type heat-cooled heat exchanger by the air supply fan 330 After being sucked while passing through 500, the discharge is supplied into the mushroom cultivation company while passing through the evaporation type humidifier 600 and the nozzle spray type humidifier 610.

The air supply and exhaust operation is mainly adopted when the concentration of CO ₂ in the mushroom grower exceeds the management standard, thereby rapidly supplying outside air (OA) to the mushroom grower to lower the CO ₂ concentration in the mushroom grower.

According to the present invention, when the temperature and humidity of the mushroom grower are higher or lower than the set value, the ventilation circulation operation is performed. When the air flow of the ventilation circulation operation is observed, the ventilation (RA) from the mushroom grower is supplied by the air supply fan 330. After being sucked while passing through the dust collecting filter 320, the circulation damper 360, and the fincoil type heating and cooling heat exchanger 500, the mushroom cultivation is carried out while passing through the evaporation type humidifier 600 and the nozzle spray type humidifier 610. The discharge is supplied to the inside. At this time, the exhaust fan 340 is stopped, the air damper 370 and the exhaust damper 350 is in a closed state.

On the other hand, the present invention, when the CO 2 concentration, temperature, humidity is within the set value or within a certain range, it becomes a mixed operation in which the supply and exhaust operation and the ventilation circulation operation is performed at the same time.

In the above-described mixed operation, the circulation damper 360, the outdoor air damper 370, and the exhaust damper 350 are placed in the intermediate position to be half-opened so that all the air flows, so that some of the air supply and exhaust operations are described. The ventilation circulation operation described above allows the CO ₂ concentration, temperature, and humidity to be properly maintained in the mushroom cultivator.

Although not shown, the fincoil type warming and cooling heat exchanger 500 of the present invention is made of a conventional fincoil, but the groundwater (cold water or hot water) flows through the fincoil and passes through the heat recovery heat exchanger (300). Air supply (SA) or circulating air (RSA) is passed through the pin coil to be warmed or cooled according to the temperature conditions of the groundwater.

Groundwater used as a heat medium flowing inside the fincoil type heated cooling heat exchanger (500) of the present invention is supplied to and stored in the heat storage tank (800) by a pump (720) from a deep water vein in the ground, wherein the heat storage tank (800) The ground water is heated or cooled by the heating electric heater 820 or the cooling coil 810 of the refrigeration cycle, which is installed in the heat storage tank 800 as necessary to maintain the required temperature.

The ground water of the heat storage tank 800 is supplied to the fincoil type heat-cooling heat exchanger 500, the evaporation type humidifier 600, and the nozzle spray type humidifier 610 by pumps 700 and 740. .

Here, the nozzle spray type humidifier 610 operates the electromagnetic valve 730 so that the operation is selected.

In the present invention, by the groundwater filled in the heat storage tank 800 by using the pump 700 to the fincoil type heat-cooled heat exchanger 500, the temperature of the fincoil is warmer than the air supply (SA) in winter, summer Since it is colder than the air supply (SA), the air supply (SA) is a temperature compensation is made while passing through the heat-cooled heat exchanger (500) consisting of a fin coil.

That is, in winter, the air supply SA1 passing through the fincoil type heat-cooled heat exchanger 500 becomes higher than the air supply SA, and in the summer season, the fincoil type heat-cooled heat exchanger 500 is used. Temperature of the air supply SA1 passed through is lower than that of air supply SA.

Therefore, it is possible to save energy for adjusting the temperature of the air supply SA1.

The air supply SA1 passing through the fincoil type heating and cooling heat exchanger 500 passes through the evaporation type humidifier 600 and the nozzle spray type humidifier 610 by the air supply fan 330. Humidification is performed to SA1).

The evaporator humidifier 600 is to allow the air to flow between the humidification plate to naturally evaporate the moisture retained by the humidification plate to naturally humidify, the humidifying water is stored in the heat storage tank ( At 800, it is supplied by the pump 740, the absorbent cloth is cross-linked between the water tank (not shown) and the humidification plate to naturally supply water from the water tank to the humidification plate to maintain sufficient wetness at all times.

The humidifier 610 of the nozzle spray method operates the electron valve 730 only when the humidity inside the mushroom cultivator is lower than the set value so that the groundwater is supplied, so that the groundwater is directly sprayed from the nozzle in a large amount to quickly humidify.

The discharged water from the evaporator humidifier 600 and the nozzle spray humidifier 610 of the present invention is drained through the drain pipe.

1 is a block diagram of a conventional embodiment

2 is an embodiment configuration of the present invention

Figure 3 is a perspective view showing the outline of the ventilator of the present invention

Figure 4 is a front view showing an overview of the ventilator of the present invention

[Description of Symbols for Main Parts of Drawing]

300: heat recovery heat exchanger 310,320: dust collecting filter

330: supply fan 340: exhaust fan

350,360,370: Damper 410: Electric Heater

500: heating cooling heat exchanger 600,610: humidifier

800: heat storage tank

Claims (8)

It is provided with a heat recovery heat exchanger that transfers and recovers the exhaust heat to the air supply while passing through the supply and exhaust cross the heat exchange membrane, On the outside air side of the heat recovery heat exchanger is provided with a dust collecting filter for removing foreign matters in the outside air supplied to the mushroom cultivation company, while having an electric heater to preheat the outside air, the electric heater installed in the outside air inlet of the heat recovery heat exchanger To be selectively driven according to the temperature of the outside air, It is provided with a fincoil type heating and cooling heat exchanger for controlling the temperature by passing the ground water temperature to the air supply by passing the supply air passing through the heat recovery heat exchanger through the fin coil flowing through the ground water, Humidification means for adjusting the humidity of the air supply passing through the fincoil-type heated cooling heat exchanger is a humidifier of the mushroom cultivation, humidification, heat recovery ventilator using a mushroom cultivation, characterized in that consisting of a humidifier. delete delete delete The method of claim 1, wherein the fincoil type heat-cooled heat exchanger and the humidification means of the evaporator-type humidifier and the nozzle spray-type humidifier are supplied with ground water stored in a heat storage tank in which a heating coil or a cooling coil of a refrigeration cycle is installed. Mushroom cultivation, temperature, humidification, heat recovery ventilator. delete According to claim 1, the exhaust from the mushroom cultivation (EA) is supplied to the ventilation (RA) by the operation of the circulation damper 360 or after the heat exchange with the air supply (SA) in the heat recovery heat exchanger after the exhaust damper The outside air is supplied through the air supply damper and the heat recovery heat exchanger, and then supplied to the air supply SA. The air supply SA is supplied to the mushroom cultivator with the ventilation RA selected from the circulation damper 370. Temperature, humidification, heat recovery ventilator. The exhaust (EA) of the mushroom cultivator performs the heat recovery operation of passing and recovering the exhaust heat to the air supply while passing through the air supply (SA) at the boundary of the heat exchange membrane. When the mushroom grower's CO ₂ concentration is higher than the set value, the ventilation (RA) from the mushroom grower is discharged to the outside, and the outside air (OA) is supplied to the mushroom grower (SA) to lower the CO ₂ concentration inside the mushroom grower. Drive the exhaust and exhaust If the mushroom grower's CO ₂ concentration is lower than the set point and the temperature and humidity are higher or lower than the set point, the ventilation (RA) from the mushroom grower passes through the warm-cooling heat exchanger and the humidification means, and then the air supply (SA) The ventilation circulation operation supplied to the When the mushroom grower's CO2 concentration, temperature, and humidity are within a predetermined range or within a predetermined range, the mushroom grower's temperature, humidification, and arrangement are characterized in that the mixed operation is performed at the same time as the above-described exhaust / exhaust operation and ventilation circulation operation. Recovery operation method.

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