JP2008309463A - Method for utilizing exhaust heat of showcase refrigerator of food supermarket for heat pump desiccant air conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method for utilizing exhaust heat of a showcase refrigerator of a food supermarket for a heat pump desiccant air conditioner. <P>SOLUTION: In a flow of refrigerant gas of the showcase, after the refrigerant gas is compressed by a refrigerator (a compressor) of the showcase, the compressed gas is sent to a condenser. A direct expansion coil for heat exchange is installed in the heat pump desiccant air conditioner to utilize exhaust heat before being sent to the condenser. This method is used for the system of the showcase because any obstacle is not caused. The coil of heat exchange is installed on the upstream side of a built-in evaporator of the heat pump desiccant air conditioner on the treatment side of the heat pump desiccant air conditioner. On the other hand, on the regeneration side, the coil is installed on the upstream side and the downstream side of the condenser built in the heat pump desiccant air conditioner. Alternatively, the coils are installed on both of the upstream side and the downstream side. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  In the present invention, when the “heat pump desiccant air conditioner” is installed and used in a food supermarket, the refrigerator for the showcase owned and installed by the food supermarket is used as a part of the heat source of the “heat pump desiccant air conditioner”. It is about the method.

(1) The “heat pump desiccant air conditioner” referred to here is a general term for air conditioners manufactured with the configuration shown in FIG.
The outside air taken into the machine or the mixed air of the outside air and the return air from the room is passed through a direct expansion coil of a compressor (compressor) built in the machine and cooled. Generally, the taken-in air is cooled to the dew point temperature or below the dew point temperature by the direct expansion coil. Therefore, the air that has passed through the direct expansion coil is in a state that is substantially close to the saturation point of the air. In terms of relative humidity, it is 90% or more. This air is taken into the dehumidification rotor.
A dehumidifying rotor has a surface coated or impregnated with a dehumidifying agent, and moisture contained in the air passing through the dehumidifying rotor is adsorbed by the dehumidifying agent, so that the air passing through the dehumidifying rotor becomes dry air. However, since heat of adsorption condensation is generated when the dehumidifying agent adsorbs moisture, the temperature of the air that has passed through the dehumidifying rotor rises. Generally, it is heated at about 1 ° C. with respect to 0.25 g of moisture dehumidification in absolute humidity. On the other hand, the regeneration side creates an air flow (opposite flow) opposite to the processing side. Air (usually outside air) taken into the machine on the regeneration side passes through the direct expansion coil. Since the direct expansion coil functions as a condenser of the compressor at the time of dehumidification, the heat of condensation of the refrigerant gas is dissipated by the direct expansion coil. This condensation heat warms the outside air to near 50 ° C. This warmed air is sent to the regeneration side of the dehumidifying rotor. The dehumidifying rotor is rotating (usually 20 to 30 rotations per hour). The moisture adsorbed by the dehumidifying agent on the processing side of the dehumidifying rotor is desorbed from the dehumidifying agent by warm air close to 50 ° C. on the regeneration side of the dehumidifying rotor. . This desorption is called regeneration.
The regenerated air is exhausted outside the machine. The compressor built in the "heat pump desiccant air conditioner" has a heat pump specification. When heating is required in winter, the direct expansion coil on the processing side functions as a condenser, which allows the condenser condensation heat to It is a method of supplying warm air.
The desiccant air conditioners configured as described above are collectively referred to as “heat pump desiccant air conditioners”.
(2) In the food supermarket, the heat supply of the "heat pump desiccant air conditioner" is passed through the back of the showcase (multistage open showcase) installed in the food supermarket through the duct, and from the kick plate at the bottom of the showcase, It is blown out into the passage on the front of the case.
In a multistage open showcase, the cold air cooled in the showcase leaks from the showcase because there is no door. Since the cold air leaked has a low temperature, it creates a “cold pool” in the passage in front of the showcase. The cold before the showcase is due to this “cold pool”, which is called “cold aisle” in the industry. Since “cold aisle” gives customers the discomfort of being cold, the elimination of this “cold aisle” is one of the important issues in the food supermarket industry. One of the solutions is a method of eliminating “cold aisle” by supplying hot air dried from a “heat pump desiccant air conditioner” toward a “cold pool”. Moreover, the air in front of the showcase is also dehumidified by the dry air, and as a result, the air in the open showcase is also dehumidified. It is generally accepted that reducing the air dew point temperature in the showcase cabinet by 1 ° C. will reduce the power consumption of the showcase refrigerator by about 2%. The dry air from the “heat pump desiccant air conditioner” lowers the dew point temperature of the air in the showcase cabinet by 5 to 8 ° C. As a result, the power consumption of the showcase refrigerator can be reduced by nearly 10 to 15%. .
(3) In the case of a food supermarket, since a refrigerator for a showcase is always installed, it is an object of the present invention to use a refrigerator for a showcase as a heat source of a “heat pump desiccant air conditioner”. . The present invention intends to utilize the heat of condensation of refrigerant gas in a showcase refrigeration system as part of the heat source of a “heat pump desiccant air conditioner”. A refrigerator (compressor) is always used in a refrigeration system of a showcase, and naturally a condenser (condenser) is used. The refrigerant gas compressed by the refrigerator becomes a high-temperature gas (temperature 90 to 100 ° C.), and this gas is sent to the condenser of the showcase refrigerator, where it is dissipated and changes from a gas to a liquid. Since the exhaust heat to be used is the heat of condensation in the condenser, a heat exchanger (direct expansion coil) is installed in the middle of the refrigerant gas compressed by the showcase refrigerator being sent into the showcase condenser. Is installed inside the "heat pump desiccant air conditioner" and the condensation heat of the showcase refrigerant gas is to be used as a part of the heat source of the desiccant air conditioner.
(4) As a specific method of using the above-mentioned exhaust heat,
(B) Used as part or all of the regenerative heat source when the desiccant air conditioner is dehumidified.
(B) Used as part or all of the heating heat source during heating of the desiccant air conditioner.
(C) When the desiccant air conditioner is in a dehumidifying operation, if the enthalpy of the air taken into the processing machine is low, the evaporation temperature of the compressor evaporator may drop more than necessary, and the evaporator may freeze (frost). is there. In order to prevent this icing, the processing side exhaust heat coil is used as a residual heat source.
(D) When heating the desiccant air conditioner, the direct expansion coil of the compressor on the regeneration side works as an evaporator, but when the temperature of the air taken into the apparatus on the regeneration side is low, the direct expansion coil freezes (frost) There is a case. In order to prevent this freezing, the regeneration side exhaust heat coil is used as a residual heat source.
(F) When a food supermarket store is closed, the showcase refrigerator is operating 24 hours a day, even if the compressor of the heat pump desiccant air conditioner is stopped before the store opens. Dehumidifying operation and heating operation using only the exhaust heat of the case refrigerator can be performed.
(G) In the interim period other than the peak hours of summer and winter, if the enthalpy of the air to be processed is low, even if the compressor of the desiccant air conditioner is stopped, only the exhaust heat of the showcase refrigerator is used. A certain amount of work can be done.

  An object of the present invention is how to use the exhaust heat of a refrigerator system of a showcase for a “heat pump desiccant air conditioner” in accordance with the above object.

The cooling system of the showcase is completely separate from the “heat pump desiccant air conditioner” and is a consistent system that is assembled for the purpose of freezing and refrigeration of food. By using it for the “heat pump desiccant air conditioner”, the showcase system It must not cause any trouble. For this purpose, the compressed gas is sent to the condenser (condenser) after being compressed by the showcase refrigerator (compressor) in the flow of refrigerant in the showcase, but before being sent to the condenser. In addition, the direct expansion coil for heat exchange is installed in the "heat pump desiccant air conditioner" and using exhaust heat does not cause any trouble in the showcase system, so this method is adopted. The heat exchange coil is installed upstream of the built-in evaporator of the “heat pump desiccant air conditioner” on the processing side of the “heat pump desiccant air conditioner”. On the other hand, on the regeneration side, it is installed upstream and downstream of the condenser built in the “heat pump desiccant air conditioner”. Install on both the upstream and downstream sides. The positional relationship is shown in Fig. 2-1 and Fig. 2-2.
In addition, as a method of operation utilization (control),
(1) Of the exhaust heat coils installed on the regeneration side during the dehumidifying operation, the showcase refrigerator gas is always supplied to the exhaust heat coil provided downstream of the condenser direct expansion coil as part of the heat source for regeneration of the dehumidification rotor. .
During the heating operation, the flow of the refrigerant gas is switched by a valve to the exhaust heat coil provided upstream of the condenser direct expansion coil. By using exhaust heat during heating, the heating capacity of the heat pump can be greatly increased. Also, defrosting operation can be avoided.
(2) It is provided in front of the processing side direct expansion coil during heating operation, and the heating capacity can be increased by flowing the showcase refrigerant gas through the exhaust heat coil.
(3) In the intermediate period (during dehumidifying operation), the exhaust heat coil provided on the processing side is not normally used. However, when the outside air temperature is about 23 ° C. or lower, the exhaust heat coil is used so that the desiccant air conditioner The supply air temperature from can be raised. If the enthalpy of the outside air temperature is low when the outside air temperature is 5 ° C. or less, the direct expansion coil may freeze (frost) in some cases, but it also prevents frost by using exhaust heat. . The air supply condition of the desiccant air conditioner for food supermarkets is not only to provide dehumidified air but also to eliminate cold aisle, and therefore requires a temperature of about 35 ° C. Therefore, if the exhaust heat is not used in the intermediate period, there is a drawback that the supply air temperature is too low, which is effective as a method for compensating for this.
(4) In general food supermarkets, the store closes at about 10 o'clock at night. Therefore, when the store is closed, the “desiccant air conditioner” generally stops operating. However, even if there is no customer, the food supermarket operates 24 hours a day, so the inside of the store is cooled at night, causing condensation, which causes “mold” and other factors. It is desirable to operate the machine for 24 hours. However, driving will consume energy. In order to solve this problem, after the store is closed, the operation of the compressor of the desiccant air conditioner is stopped, and while it is stopped, the flow of the refrigerant gas is controlled so that the refrigerant gas flows into the exhaust heat coil of the showcase. . By doing so, even if the compressor built in the desiccant air conditioner is stopped after the store is closed, dehumidification can be achieved by using the exhaust heat of the showcase, which leads to prevention of nighttime condensation and mold in the store. In winter, dehumidification is not required, but the “desiccant air conditioner” is used as a heat pump as a heater. During heating, the processing-side evaporator of the “desiccant air conditioner” functions as a condenser, and the regeneration-side condenser functions as an evaporator. However, in the winter season, when the outside air temperature becomes 5 ° C. or less, the coil on the regeneration side forms frost, and it is usually necessary to eliminate the frosting of the coil by providing a defrost cycle. During defrosting, the warm air supply on the processing side must be temporarily stopped. On the contrary, if the device is designed not to frost, it is not necessary to defrost, warm air can be supplied constantly, and the heating efficiency is increased. Therefore, in winter, it is possible to stop the frosting of the coil during heating by increasing the temperature of the air entering the regeneration side coil by flowing the refrigerant gas through the exhaust heat coil of the showcase installed on the regeneration side. I can do it. In addition, the exhaust heat is also passed through the exhaust coil on the processing side to preheat cold outside air, and the preheated air passes through the processing side coil of the “desiccant air conditioner”, thereby increasing the heating efficiency. Will contribute.
When the outside air temperature is 0 ° C. In the current system, COP = 3.19 (evaporation temperature −15 ° C., condensation temperature 35 ° C.), whereas in the designed system, COP = 4.99 (evaporation temperature −5 ° C., condensation) Temperature). That is, the heating capacity is increased by about 50%.

1. Contributing to energy saving and environmental improvement of food supermarkets.
2. Increasing heating efficiency of the heat pump desiccant air conditioner during heating operation in winter.
As a concrete effect by this invention,
(1) In order to save energy during the night operation of the heat pump desiccant air conditioner, the food supermarket where the desiccant air conditioner is installed normally operates the desiccant air conditioner only during the opening hours of the supermarket. The operation is stopped until the opening hours. The fact that the desiccant air conditioner is stopped means that the air in the store is not dehumidified. In addition, because the store is closed, there is no intrusion of outside air into the super store, so the humidity inside the super store is not so high compared to when the store opens, but the humidity inside the store gradually increases because it is not dehumidified. Come. This increase in humidity leads to condensation, which can cause mold at night. In the case of a heat pump desiccant air conditioner using exhaust heat, even if the compressor of the desiccant air conditioner is stopped, the showcase is operated for 24 hours, and the exhaust heat of the showcase can be used for 24 hours. The rotor can be played back. In addition, since there are no people in the super store when the store is closed, it is not necessary to introduce outdoor air for ventilation into the store. For this reason, there is no need to introduce outside air into the heat pump desiccant air conditioner, only the return air from the room is taken in, dehumidification is performed only with the exhaust heat of the showcase, and the air is supplied to the store to operate the system. Therefore, it is possible to suppress an increase in humidity in the super store when the store is closed. During this time, the operation of the compressor of the desiccant air conditioner is stopped, so energy is saved accordingly. In recent years, the number of 24-hour food supermarkets that do not close is increasing. In such a 24-hour food supermarket, the same method can be used to stop the desiccant air conditioner compressor and operate it only with exhaust heat from 9:00 pm until 9:00 am the next morning when the number of shoppers decreases. Become.
As an example, if a heat pump desiccant air conditioner (compressor power consumption 9 kw) is operated with exhaust heat only for 12 hours at night in a 300 tsubo class food supermarket, 9 kw × 12 hours / day = 108 kwh / day Become. This not only saves electricity in food supermarkets but also helps prevent nighttime condensation and mold.
(2) In the winter season (time when heating is required), the desiccant air conditioner normally does not need to be dehumidified. This is because it is not necessary to operate the dehumidification rotor because it is not necessary to dehumidify in the winter when heating is necessary in the case of Japan because the outside air is very dry.
On the other hand, since cold outside air needs to be heated (heated), a heat pump desiccant air conditioner is used as a heat pump in winter and the evaporator on the processing side is used as a condenser. On the regeneration side, there is a possibility that the compressor coil (acting as an evaporator) may form frost due to cold outdoor air in winter. In addition, if the outside air is 5 ° C. or less, frost is formed, so that the heat pump needs to be defrosted. There are various methods for defrosting, but defrosting lowers the heating efficiency, so it is desirable not to cause defrosting. For this purpose, the exhaust heat of the showcase is used to warm the outside air with this exhaust heat, and this warm air is applied to the compressor coil to prevent frost formation on the coil (evaporator). On the other hand, it is possible to increase the heating effect and increase the heating efficiency by preheating the outside air with the exhaust heat coil by installing the exhaust heat coil in front of the compressor coil on the processing side.

BEST MODE FOR CARRYING OUT THE INVENTION

(1) In order to utilize showcase exhaust heat, fins and tube heat exchangers generally used as refrigerant gas condensers can be used in heat exchangers. However, for light weight, compactness, and high performance, a parallel flow capacitor is judged to be optimal at present.
(2) The refrigerator of the showcase to be used utilizes the exhaust heat of one or more refrigerators of 20 HP or more.
(3) The installation position of the heat exchanger and the control of the flow of the refrigerant gas are as shown in FIG. Basically, it is necessary to use exhaust heat so as not to adversely affect the showcase system. Therefore, the heat exchanger using exhaust heat must be installed in the middle of the refrigerant gas compressed by the showcase refrigerator flowing into the showcase condenser. FIG. 4 shows a case where separate showcase compressors are used for the processing side and the reproduction side.

Claims (7)

  When installing a "heat pump desiccant air conditioner" in a food supermarket, the waste heat from the food supermarket showcase refrigerator is used as part of the heat source of the "heat pump desiccant air conditioner".   A method of using a heat exchange coil for exhaust heat of a showcase refrigerator as an auxiliary heat source during heating on the processing side of the “heat pump desiccant air conditioner” before the direct expansion coil of the compressor.   A method of using the same heat exchange coil as a heat source for raising the supply air temperature in the intermediate period (spring, autumn, etc.) and as an auxiliary heat source for preventing freezing of the direct expansion coil of the compressor. On the regeneration side of the "heat pump desiccant air conditioner", the heat exchange coil for exhaust heat use of the showcase refrigerator is installed before and after the direct expansion coil of the compressor, and is installed in front of the direct expansion coil. The heat source is used to increase the heating capacity during heating. And a method used for preventing freezing of the reproduction side direct expansion coil.   Of the heat exchange coils for exhaust heat installed on the regeneration side, the coil installed behind the direct expansion coil is used as an auxiliary heat source for the regeneration heat source during dehumidification.   A method to save energy when the store is closed at night.   A method of energy-saving operation in a 24-hour food supermarket.