JP3695087B2 - Method and apparatus for controlling multiple units of absorption chiller / heater - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a method and apparatus for controlling the operation of a plurality of absorption chiller / heaters, and more specifically, a plurality of absorption chiller / heaters for controlling the amount of heating in multiple positions are provided in parallel with each other, The refrigerant sent from the water machine is merged by the outlet collecting part and supplied to the refrigerant use space, and the refrigerant used in the refrigerant use space is divided by the inlet collecting part and supplied to each absorption chiller / heater. In addition, the present invention relates to a method and apparatus for controlling the operation of a plurality of absorption chiller / heaters applied to a system in which each absorption chiller / heater is controlled by a number controller using the temperature of the refrigerant at the outlet assembly.
[0002]
[Prior art]
Conventionally, in order to increase the capacity, a plurality of absorption chiller / heater units that control the amount of heating in multiple positions are provided in parallel with each other, and the chilled / warm water delivered from all the absorption chiller / heater units is joined by the outlet assembly. The system is configured to supply the cold / hot water using the cold / hot water used in the cold / hot water use space, and to supply the absorption / cooling water to each absorption chiller / heater by using the inlet collective part. A system in which each absorption chiller / heater is controlled by a number controller is provided.
[0003]
In this system, the heating control valves of each absorption chiller / heater are controlled in synchronization with each other (see FIG. 10). Therefore, by controlling the heating control valves of the respective absorption chiller / heaters in synchronism with each other in accordance with the load, the capacity of the system can be made to correspond to the load.
[0004]
[Problems to be solved by the invention]
When the above-mentioned multiple-unit operation control method is adopted, the heating sources of all the absorption chiller / heaters are controlled in the same manner at the same time. For example, when the load is low, the heating source operates and heats at a low heating amount. Stopping is repeated (starting and stopping is repeated), and the loss due to purge (discharge of air from the combustion section) is large and wasteful operation, and the heating amount control valve deteriorates due to frequent combustion valve operation. There is an inconvenience. In addition, when a plurality of absorption chiller / heaters are installed, it is regarded as one heat source for multi-position control (for example, when there are three three-position control chiller / heaters, The temperature stability of the cold / hot water outlet assembly portion (corresponding to one absorption-type cold / hot water machine) can be improved, but there is also a disadvantage that the merit cannot be utilized effectively.
[0005]
In consideration of such points, conventionally, a method for preventing synchronization of the heating control valves by shifting the set values of the cold / hot water outlet temperatures of the respective heating sources is known (see FIG. 11). However, when this method is adopted, there is a disadvantage that the temperature fluctuation range of the cold / hot water outlet gathering portion becomes large and the temperature controllability of the cold / hot water outlet control portion is deteriorated.
[0006]
OBJECT OF THE INVENTION
The present invention has been made in view of the above-described problems, and can prevent synchronization of the heating control valve without increasing the fluctuation range of the refrigerant outlet temperature. Moreover, the control is considered to be multi-position as a whole. It is an object of the present invention to provide a method and apparatus for controlling the operation of a plurality of absorption chiller / heater units that can improve the temperature controllability of the refrigerant outlet assembly and realize energy-saving operation.
[0007]
[Means for Solving the Problems]
The method for controlling the operation of a plurality of absorption chiller / heater units according to claim 1 includes a plurality of absorption chiller / heater units that control the amount of heating in multiple positions in parallel with each other, and the refrigerant sent from all the absorption chiller / heater units. The refrigerant is combined by the outlet collecting portion and supplied to the refrigerant use space, and the refrigerant used in the refrigerant use space is divided by the inlet collecting portion and supplied to each absorption chiller / heater. In a system in which each absorption chiller / heater is controlled by a unit controller with temperature as input,
In response to an instruction to operate a plurality of absorption chiller / heaters, when the temperature of the refrigerant at the outlet assembly corresponds to a medium load or less, some absorption is performed by the unit controller. Instructs the heating source of the chiller-type water heater to operate without limiting the heating amount to a specific heating amount. When the refrigerant temperature at the outlet assembly corresponds to the medium load or higher, specify the amount of heat for the heating source of some absorption chiller / heater units using the unit controller. It is instructed to operate without being limited to the amount of heating, and the unit controller operates at a high heating amount with respect to the heating source of at least one absorption chiller / heater among the remaining absorption chillers. It is a way to indicate what to do.
[0008]
In the method for controlling the operation of a plurality of absorption chiller / heater units according to claim 2, a plurality of absorption chiller / heater units for controlling the amount of heating in multiple positions are provided in parallel with each other, and the refrigerant sent from all the absorption chiller / heater units is supplied. The refrigerant is combined by the outlet collecting portion and supplied to the refrigerant use space, and the refrigerant used in the refrigerant use space is divided by the inlet collecting portion and supplied to each absorption chiller / heater. In a system in which each absorption chiller / heater is controlled by a unit controller with temperature as input,
In response to being instructed to operate multiple absorption chiller / heater units, When the temperature of the refrigerant at the outlet assembly corresponds to a medium load or lower, The number controller instructs the heat source of some absorption chiller water heaters to switch between high and low heating amounts, and the unit controller heats the remaining absorption chiller water heaters. Against the source Operates with low heating Tell you what to do However, when the temperature of the refrigerant at the outlet collecting section corresponds to a medium load or higher, the number controller switches between a high heating amount and a low heating amount for the heating source of some absorption chiller-heaters. Instruct that it should operate, and instruct the unit controller to operate at a high heating amount for the remaining absorption chiller water source It is a method to do.
The method for controlling the operation of a plurality of absorption chiller / hot water machines according to claim 3 responds to an instruction to operate one absorption chiller / warm water machine, and the corresponding absorption chiller / warm water is provided by the number controller. This is a method for instructing the heating source of the machine to operate without limiting the heating amount to a specific heating amount.
[0010]
According to a fourth aspect of the present invention, there is provided a plurality of absorption chiller / heater operation control devices, wherein a plurality of absorption chiller / heater units for controlling the amount of heating in multiple positions are provided in parallel with each other, and the refrigerant sent from all the absorption chiller / heater units is supplied. The refrigerant is combined by the outlet collecting portion and supplied to the refrigerant use space, and the refrigerant used in the refrigerant use space is divided by the inlet collecting portion and supplied to each absorption chiller / heater. In a system in which each absorption chiller / heater is controlled by a unit controller with temperature as input,
In response to an instruction to operate a plurality of absorption chiller / heaters, when the temperature of the refrigerant at the outlet assembly corresponds to a medium load or less, some absorption is performed by the unit controller. Instructs the heating source of the chiller-type water heater to operate without limiting the heating amount to a specific heating amount. When the refrigerant temperature at the outlet assembly corresponds to the medium load or higher, specify the amount of heat for the heating source of some absorption chiller / heater units using the unit controller. It is instructed to operate without being limited to the amount of heating, and the unit controller operates at a high heating amount with respect to the heating source of at least one absorption chiller / heater among the remaining absorption chillers. Heating amount instruction means for instructing what to do is included.
[0011]
The multiple-unit operation control device for the absorption chiller / heater of claim 5 includes a plurality of absorption-type chiller / heater units (1) for controlling the heating amount in multiple positions in parallel, and all the absorption chiller / heater units (1) The refrigerant sent out from the refrigerant is combined by the outlet collecting portion (32) and supplied to the refrigerant use space, and the refrigerant used in the refrigerant use space is divided by the inlet collecting portion (31) to each absorption chiller-heater (1 In the system in which each absorption chiller / heater (1) is controlled by the number controller (4) with the temperature of the refrigerant in the outlet assembly (32) as an input,
In response to an instruction to operate a plurality of absorption chiller / heaters (1), When the temperature of the refrigerant in the outlet collecting portion (32) corresponds to a medium load or lower, The number controller (4) instructs the heating source (16) of some absorption chiller water heaters (1) to switch between a high heating amount and a low heating amount, and the number controller ( 4) With respect to the heating source (16) of the remaining absorption chiller / heater (1) Operates with low heating Tell you what to do When the temperature of the refrigerant at the outlet collecting portion (32) corresponds to the medium load or higher, the number controller (4) controls the heating source (16) of some absorption chiller-heaters (1). Instructing that the operation should be performed by switching between a high heating amount and a low heating amount, and a higher heating amount than the heating source (16) of the remaining absorption chiller-heater (1) by the number controller (4). Instruct what should work The heating amount instruction means (4) to be included is included.
The multiple-unit operation control device of the absorption chiller / heater according to claim 6 responds to the instruction that the single absorption-type chiller / heater should be operated as the heating amount instruction means by the unit controller. What instruct | indicates that it should operate | move without limiting a heating amount to a specific heating amount is employ | adopted with respect to the heating source of a corresponding absorption type cold / hot water machine.
[0013]
[Action]
If it is the multiple unit operation control method of the absorption-type cold / hot water machine of Claim 1, the absorption-type cold / hot water machine which carries out multi-position control of the amount of heating will be provided in parallel mutually, and it will be sent out from all the absorption-type cold / hot water machines. The refrigerant is merged by the outlet collecting portion and supplied to the refrigerant using space, and the refrigerant used in the refrigerant using space is divided by the inlet collecting portion and supplied to each absorption chiller / heater, and in the outlet collecting portion In the system in which each absorption chiller / heater is controlled by the number controller using the refrigerant temperature as input,
In response to an instruction to operate a plurality of absorption chiller / heaters, when the temperature of the refrigerant at the outlet assembly corresponds to a medium load or less, some absorption is performed by the unit controller. Instructs the heating source of the chiller-type water heater to operate without limiting the heating amount to a specific heating amount. When the refrigerant temperature at the outlet assembly corresponds to the medium load or higher, specify the amount of heat for the heating source of some absorption chiller / heater units using the unit controller. It is instructed to operate without being limited to the amount of heating, and the unit controller operates at a high heating amount with respect to the heating source of at least one absorption chiller / heater among the remaining absorption chillers. The refrigerant at the outlet collecting section. The stability of the temperature can be increased, the expansion of the temperature fluctuation range of the refrigerant at the outlet collecting part can be prevented, and further, energy saving operation can be realized, and the absorption chiller / heater part Further energy-saving operation can be realized by taking advantage of the load efficiency.
[0014]
If it is the multiple unit operation control method of the absorption-type cold / hot water machine of Claim 2, the absorption-type cold / hot water machine which carries out multi-position control of the heating amount is provided in parallel mutually, and it sends out from all the absorption-type cold / hot water machines The refrigerant is merged by the outlet collecting portion and supplied to the refrigerant using space, and the refrigerant used in the refrigerant using space is divided by the inlet collecting portion and supplied to each absorption chiller / heater, and in the outlet collecting portion In the system in which each absorption chiller / heater is controlled by the number controller using the refrigerant temperature as input,
In response to being instructed to operate multiple absorption chiller / heater units, When the temperature of the refrigerant at the outlet assembly corresponds to a medium load or lower, The number controller instructs the heat source of some absorption chiller water heaters to switch between high and low heating amounts, and the unit controller heats the remaining absorption chiller water heaters. Against the source Operates with low heating Tell you what to do However, when the temperature of the refrigerant at the outlet collecting section corresponds to a medium load or higher, the number controller switches between a high heating amount and a low heating amount for the heating source of some absorption chiller-heaters. Instruct that it should operate, and instruct the unit controller to operate at a high heating amount for the remaining absorption chiller water source Therefore, it is possible to improve the stability of the temperature of the refrigerant at the outlet gathering portion, to prevent an increase in the fluctuation range of the temperature of the refrigerant at the outlet gathering portion, and to realize an energy saving operation. In addition, the number of operation-stops can be reduced, purge loss can be greatly reduced, and further energy saving operation can be realized.
If it is the multiple unit operation control method of the absorption-type cold / hot water machine of Claim 3, in response to having instruct | indicated that one absorption-type cold / hot water machine should be drive | operated, a corresponding absorption type is carried out by the number controller. Since the heating source of the chiller / heater is instructed to operate without limiting the heating amount to a specific heating amount, only the minimum absorption chiller / heater is operated, and the outlet collecting unit It is possible to improve the stability of the temperature of the refrigerant in the refrigerant, and to prevent an increase in the fluctuation range of the temperature of the refrigerant in the outlet collecting portion.
[0017]
If it is a multiple unit operation control apparatus of the absorption type cold / hot water machine of Claim 4, several absorption type cold / hot water machines which carry out multi-position control of the amount of heating will be provided in parallel mutually, and it will be sent out from all the absorption type cold / hot water machines The refrigerant is merged by the outlet collecting portion and supplied to the refrigerant using space, and the refrigerant used in the refrigerant using space is divided by the inlet collecting portion and supplied to each absorption chiller / heater, and in the outlet collecting portion In the system in which each absorption chiller / heater is controlled by the number controller using the refrigerant temperature as input,
In response to an instruction to operate a plurality of absorption chiller / heaters, the unit control is performed when the temperature of the refrigerant at the outlet collecting section corresponds to a medium load or lower by the heating amount instruction means. Instruct the heat source of some absorption chiller water heaters to operate without limiting the heating amount to a specific heating amount, and use the number controller to heat the remaining absorption chiller water heaters If the temperature of the refrigerant at the outlet assembly corresponds to a medium load or higher, the unit controller controls the heat source of some absorption chiller-heaters. In contrast, the heating amount is instructed to be operated without being limited to a specific heating amount, and the heating controller of at least one absorption chilling water heater among the remaining absorption chilling water heaters is controlled by the number controller. Can instruct you to operate with high heating . Therefore, it is possible to improve the stability of the refrigerant temperature at the outlet collecting portion, to prevent the refrigerant temperature fluctuation range at the outlet collecting portion from being expanded, and to realize energy saving operation. Further energy saving operation can be realized by taking advantage of the partial load efficiency of the absorption chiller / heater.
[0018]
If it is a multiple-unit operation control apparatus of the absorption-type cold / hot water machine of Claim 5, several absorption-type cold / hot water machines which carry out multi-position control of the amount of heating will be provided in parallel mutually, and it will be sent out from all the absorption-type cold / hot water machines The refrigerant is merged by the outlet collecting portion and supplied to the refrigerant using space, and the refrigerant used in the refrigerant using space is divided by the inlet collecting portion and supplied to each absorption chiller / heater, and in the outlet collecting portion In the system in which each absorption chiller / heater is controlled by the number controller using the refrigerant temperature as input,
In response to an instruction to operate a plurality of absorption chiller / heaters, by the heating amount instruction means, When the temperature of the refrigerant at the outlet assembly corresponds to a medium load or lower, The number controller instructs the heat source of some absorption chiller water heaters to switch between high and low heating amounts, and the unit controller heats the remaining absorption chiller water heaters. Against the source Operates with low heating Tell you what to do However, when the temperature of the refrigerant at the outlet collecting section corresponds to a medium load or higher, the number controller switches between a high heating amount and a low heating amount for the heating source of some absorption chiller-heaters. Instruct that it should operate, and instruct the unit controller to operate at a high heating amount for the remaining absorption chiller water source Can be made. Therefore, it is possible to improve the stability of the refrigerant temperature at the outlet collecting portion, to prevent the refrigerant temperature fluctuation range at the outlet collecting portion from being expanded, and to realize energy saving operation. Further, the number of operation-stops can be reduced and the purge loss can be greatly reduced to realize further energy saving operation.
If it is a multiple-unit operation control apparatus of the absorption-type cold / hot water machine of Claim 6, in response to having instruct | indicated that one absorption-type cold / hot water machine should be operated as a heating amount instruction | indication means, unit control The equipment that instructs the heating source of the corresponding absorption chiller / heater to operate without limiting the heating amount to a specific heating amount is adopted. By operating only this, it is possible to increase the stability of the refrigerant temperature at the outlet collecting portion and to prevent the fluctuation range of the refrigerant temperature at the outlet collecting portion from increasing.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of a method for controlling the operation of a plurality of absorption chiller / heaters of the present invention and an apparatus therefor will be described in detail below with reference to the accompanying drawings.
FIG. 1 is a schematic diagram showing the configuration of a system having three absorption chiller / heaters.
In this system, three absorption chiller / hot water machines 1 are provided in parallel with each other between the inlet / outlet gathering part 31 and the outlet gathering part 32 of the cold / hot water. A cooling tower 33 is provided for cooling one refrigerant (for example, cooling water) and supplying it again to the three absorption chiller heaters 1. Moreover, the controller 4 which supplies a starting instruction | indication signal, an operation control signal, etc. with respect to each of the three absorption-type cold / hot water machines 1 is provided. Further, a temperature sensor (first refrigerant temperature sensor) 37 for detecting the cooling water inlet temperature is provided in advance at the cooling water inlet of each absorption chiller / heater 1. Furthermore, the outlet assembly part 32 is provided with a temperature sensor (second refrigerant temperature sensor) 36 for detecting the temperature of the second refrigerant. However, instead of a system having three absorption chiller / heaters, a system having two absorption chillers / heaters can be employed, and a system having four or more absorption chillers / heaters can be adopted.
[0022]
In addition, the 1st pump 34 is provided in the predetermined position of the pipe line which supplies cold / hot water from the inlet gathering part 31 to each absorption type cold / hot water machine 1, and cold / hot water is supplied from the cooling tower 33 to each absorption type cold / hot water machine 1. The 2nd pump 35 is provided in the predetermined position of the pipe line which supplies. Further, the second refrigerant (for example, cold / hot water) sent out from the outlet collecting portion 32 is led to a use space such as a room through the pipe 38 and then led to the inlet collecting portion 31. Furthermore, a flow rate control valve 38a is provided at a predetermined position of the pipe line 38, and a flow rate control unit 38b is provided. Reference numeral 38c denotes a bypass pipe that communicates between the inlet collecting portion 31 and the outlet collecting portion 32, and is controlled by a differential pressure switch 38d that operates by a differential pressure between the inlet collecting portion 31 and the outlet collecting portion 32. Valve 38e.
[0023]
However, as shown in FIG. 2, it is of course possible to employ a configuration in which the cooling tower 33 is provided for each absorption chiller / heater 1. In the system of FIG. 2, each absorption chiller / heater 1 is provided with a pump control unit 38f, and the pump control unit 38f controls the corresponding first pump 34 and second pump 35 to control the first refrigerant. The flow rate and the flow rate of the second refrigerant are controlled.
[0024]
FIG. 3 is a block diagram schematically showing the configuration of the absorption chiller / heater 1.
The absorption chiller / heater 1 surrounds a part of a chilled water pipe 11 through which chilled / hot water passes, and evaporates water (first refrigerant) in a state where the inside is set to a high vacuum, and the chilled water pipe is heated by latent heat of evaporation. Steam through an evaporator 12 that cools cold water flowing through an evaporator heat exchanger 12 ′ through 1 and an aqueous lithium bromide solution that is cooled with cooling water that flows through an absorber heat exchanger 14 ′ through a cooling pipe 13. , A high temperature regenerator 17 that separates water vapor from the lithium bromide aqueous solution by being fed by a pump 15 and heated by a burner 16, and a high temperature regenerator 17. The aqueous solution of lithium bromide from which the water vapor was separated was supplied, and the water vapor separated in the high-temperature regenerator 17 was passed through to further separate the water vapor from the aqueous solution of lithium bromide. The low-temperature regenerator 18 that supplies the lithium bromide aqueous solution from which the water vapor has been separated to the absorber 14, the water vapor separated in the high-temperature regenerator 17, and the water vapor separated in the low-temperature regenerator 18 are supplied and pass through the cooling water pipe 13. A condenser 19 that condenses water vapor by cooling with cooling water and supplies it to the evaporator 12 and a lithium bromide aqueous solution that absorbs water vapor and is supplied from the low-temperature regenerator 18 that is supplied to the high-temperature regenerator 17 by the pump 15. A low-temperature heat exchanger 20 that exchanges heat with the aqueous solution of lithium bromide supplied to the regenerator 14, an aqueous solution of lithium bromide that has absorbed water vapor, and a bromide supplied from the high-temperature regenerator 17 to the low-temperature regenerator 18. A high-temperature heat exchanger 21 that exchanges heat with the lithium aqueous solution, a temperature sensor 22 that detects the temperature of cold / hot water passing through the heat transfer tube (cold water tube) 11, and a burner 16 A multi-position control valve 23 for controlling the amount of heating by the control device and a control signal for controlling the multi-position control valve 23 with the temperature detected by the temperature sensor 22 as an input are output to the multi-position control valve 23 via a driver 25. Controller 24. Reference numeral 26 denotes a pump for circulating water accumulated at the bottom of the evaporator 12 and spraying the water again on the heat transfer tube 11.
[0025]
As the multi-position control valve 23, for example, a three-position control valve is adopted. However, as the multi-position control valve 23, for example, a 2-position control valve, a 4-position control valve, or the like can be adopted.
Instead of the burner 16, it is possible to employ a heating source that uses waste heat such as steam.
[0026]
Furthermore, the low-temperature regenerator 18 can be omitted, and various types of absorption chiller / heaters can be adopted as the absorption chiller / heater.
In addition, since the effect | action of the absorption-type cold / hot water machine of said structure is conventionally well-known, description of an effect | action is abbreviate | omitted.
FIG. 4 is a block diagram schematically showing the configuration of the controller (heating amount instruction means, number controller) 4.
[0027]
The controller 4 includes a load calculation unit 41 that performs load calculation using the temperature of the second refrigerant in the outlet collecting unit 32 detected by the temperature sensor 36 as an input, and an operation of the absorption chiller / heater using the calculated load as an input. An operation instruction signal and a heating amount limitation instruction signal to the controller 24 of each absorption chiller / heater 1 using the number of units and the heating amount calculation unit 42 for calculating the number and the heating amount, and the calculated operation number and heating amount as inputs. And a signal transmission unit 43 that calculates and transmits the signal.
[0028]
FIG. 5 is a block diagram schematically showing the configuration of the controller 24 of each absorption chiller / heater 1.
The controller 24 includes a first determination unit 24a that determines whether or not the operation of the corresponding absorption chiller / heater 1 is instructed with the number of operations and the amount of heating sent from the number / heating amount calculation unit 42 as inputs. A second determination unit 24b that determines whether or not the heating amount is limited in response to the determination that the operation of the corresponding absorption chiller / heater 1 is instructed by the first determination unit 24a; In response to the determination result by the second determination unit 24b, the burner 16 is controlled to correspond to the corresponding heating amount, and it is determined that the operation of the corresponding absorption chiller / heater 1 is not instructed by the first determination unit 24a. And a burner control unit 24c for stopping the burner 16 in response to this.
[0029]
6 and 7 are flowcharts for explaining the processing of the controller 4 and the controller 24, respectively.
First, the flowchart of FIG. 6 will be described.
In step SP1, the temperature of the cold / hot water at the outlet collecting portion 32 is taken in from the temperature sensor 36, and in step SP2, the load is calculated from the temperature of the taken cold / hot water (this calculation is conventionally known, for example, each absorption equation) Based on the actual output during the sampling period with respect to the value when the maximum output is given during the sampling period, for example, the integral value, by performing sampling with the cycle of the low heating amount-high heating amount-low heating amount of the water heater 1 Value, for example, the ratio of the integral value is obtained as a load factor), and in step SP3, the number of operating cooling water heaters 1 and the amount of heating are calculated from the calculated load. In step SP4, the calculated number of operating units and Send out the operation instruction signal and heating amount limitation instruction signal for each absorption chiller / heater 1 from the heating amount, And it ends the process of the communication.
[0030]
The calculation of the number of operating units and the heating amount in step SP3 is, for example, calculating the heating amount based on the deviation of the temperature of the cold / hot water from the set temperature and the flow rate of the cold / hot water, and calculating the operating number based on the calculated heating amount. Is done. The heating amount limitation instruction signal is set as follows. When the number of operating absorption-type chiller / heaters 1 is one, the heating amount limitation instruction signal instructs that the heating amount is not limited at all. Conversely, when there are a plurality of absorption-type chiller / heater units 1 in operation, the heating amount limitation instruction signal indicates that the heating amount of one absorption-type chiller / heater unit 1 is not limited at all, and the remainder The heating amount of the absorption chiller / heater 1 is set to a high heating amount, set to a low heating amount, or set to switch between a high heating amount and a low heating amount.
[0031]
Next, the flowchart of FIG. 7 will be described.
In step SP1, the relevant operation instruction signal and heating amount limitation instruction signal are received, and in step SP2, it is determined whether or not it is instructed that the absorption chiller / heater 1 should be operated. If it is not instructed to operate the absorption chiller / heater 1, the operation of the corresponding absorption chiller / heater 1 is stopped in step SP3. Conversely, if it is determined in step SP2 that it is instructed to operate the absorption chiller / heater 1, in step SP4, a heating amount limitation instruction signal is determined, and in response to the determination result, In step SP5, the heating amount by the burner 16 is instructed to be limited to a high heating amount, and in step SP6, the heating amount by the burner 16 is instructed to be switched between a high heating amount and a low heating amount. Or, in step SP7, it is instructed that the heating amount by the burner 16 is not limited at all. And when the process of step SP3, step SP5, step SP6, or step SP7 is performed, a series of processes are complete | finished as it is.
[0032]
8 and 9 are diagrams showing an operating state corresponding to the load. However, FIG. 8 corresponds to the operation control method of the present invention, and FIG. 9 corresponds to the conventional burner synchronous control method. 8 and 9 correspond to the case where the number control is performed. Accordingly, the number of both operating units increases corresponding to the increase in load. Further, the cases corresponding to the proportional control are shown by broken lines in FIGS.
[0033]
When the operation control method of the present invention is adopted, as shown in FIG. 8, when the number of operating units is one, the operation is performed without any limitation on the heating amount {the leftmost in FIG. Only when the load is small, the operation is stopped / operation with a low heating amount (L / 0), and when the load is large, the operation with a low heating amount / the operation with a high heating amount (H / L) is performed. Done. When the number of operating units is two, one unit is operated with a heating amount limited to a high heating amount (H), and the other unit is operated with no heating amount limitation {FIG. Among the other units, if the load is small, the operation is stopped / operation with a low heating amount (L / 0) is performed, and if the load is large, the operation is performed with a low heating amount / high heating. Operation in quantity (H / L) is performed. When the number of operating units is three, two units are operated in a state where the heating amount is limited to a high heating amount, and the remaining one unit is operated in a state where there is no heating amount limitation {in FIG. 8, Refer to the rightmost only}, and the remaining one unit is stopped / operated with a low heating amount (L / 0) if the load is small, and operated with a low heating amount / high heating amount if the load is large. (H / L) is performed.
[0034]
On the other hand, when the conventional burner synchronous control method is adopted, as shown in FIG. 9, when the number of operating units is one, the operation is performed without any limitation on the heating amount. If it is small, the operation is stopped / operation with a low heating amount is performed, and if the load is large, operation with a low heating amount / operation with a high heating amount is performed. When the number of operating units is two, both absorption chiller / heaters are operated with a low heating amount / operating with a high heating amount. When the number of operating units is 3, all the absorption chiller / heaters are operated with a low heating amount / operating with a high heating amount.
[0035]
Comparing FIG. 8 and FIG. 9, the operating state when the number of operating units is one is equal. However, when the number of operating units is two or three, the capability variation range (the region indicated by the vertical broken line in FIGS. 8 and 9) is significantly different between the two. That is, it can be seen that the capability variation range can be made smaller in the case of FIG. As a result, it can be seen that the temperature controllability of the cold / hot water in the outlet collecting portion 32 can be improved by employing the operation control method of the present invention.
[0036]
Although the case where the heating amount is limited to a high heating amount has been described above, it is also possible to limit the heating amount to a low heating amount, and it is added to FIG. 8 that the heating amount is limited to a low heating amount. As a result, the temperature of the cold / hot water at the outlet collecting portion 32 can be controlled more finely. In addition, if the amount of heating is limited so that the absorption chiller / heater that is not limited in FIG. 8 can be operated at a low heating amount / operated at a high heating amount, the number of operations / stops can be greatly reduced. In addition, further energy saving operation can be realized while minimizing purge loss.
[0037]
【The invention's effect】
The invention according to claim 1 can increase the stability of the temperature of the refrigerant at the outlet collecting portion, can prevent the fluctuation range of the temperature of the refrigerant at the outlet collecting portion from expanding, and further realizes energy saving operation. In addition, there is a specific effect that further energy saving operation can be realized by taking advantage of the partial load efficiency of the absorption chiller / heater.
The paragraph 0038 is corrected as follows.
[0038]
The invention of claim 2 can improve the stability of the temperature of the refrigerant at the outlet collecting portion, can prevent the fluctuation range of the temperature of the refrigerant at the outlet collecting portion from expanding, and further realizes energy saving operation. In addition, there is a specific effect that the number of operation-stops can be reduced, purge loss can be greatly reduced, and further energy saving operation can be realized.
In addition to the effect of claim 1 or claim 2, the invention of claim 3 can increase the stability of the temperature of the refrigerant at the outlet assembly by operating only the minimum absorption chiller / heater. Thus, there is a specific effect that it is possible to prevent an increase in the fluctuation range of the temperature of the refrigerant at the outlet collecting portion.
[0039]
The invention according to claim 4 can increase the stability of the temperature of the refrigerant in the outlet collecting portion, can prevent the refrigerant from fluctuating in the outlet collecting portion, and can realize energy saving operation. In addition, there is a specific effect that further energy saving operation can be realized by taking advantage of the partial load efficiency of the absorption chiller / heater.
The paragraph 0040 is corrected as follows.
[0040]
The invention according to claim 5 can improve the stability of the temperature of the refrigerant at the outlet collecting portion, can prevent the fluctuation range of the temperature of the refrigerant at the outlet collecting portion from expanding, and further realizes energy saving operation. In addition, there is a specific effect that the number of operation-stops can be reduced, purge loss can be greatly reduced, and further energy saving operation can be realized.
In addition to the effect of claim 4 or claim 5, the invention of claim 6 can improve the stability of the temperature of the refrigerant at the outlet assembly by operating only the minimum absorption chiller / heater. Thus, there is a specific effect that it is possible to prevent an increase in the fluctuation range of the temperature of the refrigerant at the outlet collecting portion.
[Brief description of the drawings]
FIG. 1 is a schematic diagram showing the configuration of a system having three absorption chiller / heaters.
FIG. 2 is a schematic diagram showing a modification of the system of FIG.
FIG. 3 is a block diagram schematically showing the configuration of an absorption chiller / heater.
4 is a block diagram schematically showing a configuration of a controller 4. FIG.
5 is a block diagram schematically showing the configuration of a controller 24. FIG.
FIG. 6 is a flowchart for explaining processing of the controller 4;
FIG. 7 is a flowchart for explaining processing of a controller 24;
FIG. 8 is a diagram for explaining a change in an operation state according to the operation control method of the present invention.
FIG. 9 is a diagram for explaining a change in an operation state according to a conventional burner synchronous control method.
FIG. 10 is a diagram illustrating an example of a conventional heating amount control method.
FIG. 11 is a diagram illustrating another example of a conventional heating amount control method.
[Explanation of symbols]
1 Absorption chiller / heater 4 Controller
16 Burner 31 Entrance assembly
32 Exit assembly

Claims (6)

A plurality of absorption chiller / heaters (1) for controlling the amount of heating in multiple positions are provided in parallel with each other, and the refrigerant sent from all the absorption chiller / heaters (1) is merged by the outlet collecting portion (32). The refrigerant that is supplied to the use space, is divided into the refrigerant used in the refrigerant use space by the inlet collecting portion (31) and is supplied to each absorption chiller / heater (1), and the refrigerant in the outlet collecting portion (32). In the system in which each absorption chiller / heater (1) is controlled by the number controller (4) with the temperature of
In response to an instruction that the plurality of absorption chiller / heaters (1) should be operated, the unit control is performed when the temperature of the refrigerant in the outlet assembly portion (32) corresponds to the medium load or less. The unit (4) instructs the heating source (16) of some absorption chiller / heaters (1) to operate without limiting the heating amount to a specific heating amount, and the number controller (4 ) Instruct the remaining absorption-type chiller / heater (1) of the heating source (16) to operate at a low heating amount, and the refrigerant temperature at the outlet assembly (32) corresponds to a medium load or higher. The number controller (4) instructs the heating source (16) of some absorption chiller water heaters (1) to operate without limiting the heating amount to a specific heating amount. And at least one absorption-type cooling / cooling machine (1) of the remaining absorption-type chiller / heater (1) by the number controller (4). Plural operation control method of the water machine (1) heat source (16) for high should be operating in the heating amount, characterized in that indicating the absorption chiller-heater. A plurality of absorption chiller / heaters (1) for controlling the amount of heating in multiple positions are provided in parallel with each other, and the refrigerant sent from all the absorption chiller / heaters (1) is merged by the outlet collecting portion (32). The refrigerant that is supplied to the use space, is divided into the refrigerant used in the refrigerant use space by the inlet collecting portion (31) and is supplied to each absorption chiller / heater (1), and the refrigerant in the outlet collecting portion (32). In the system in which each absorption chiller / heater (1) is controlled by the number controller (4) with the temperature of
In response to an instruction that the plurality of absorption chiller / heaters (1) should be operated , the unit control is performed when the temperature of the refrigerant in the outlet assembly portion (32) corresponds to the medium load or less. The unit (4) instructs the heating source (16) of some absorption chiller water heaters (1) to switch between a high heating amount and a low heating amount, and the number controller (4) The remaining absorption chiller-heater (1) is instructed that the heating source (16) should operate with a low heating amount, and the refrigerant temperature at the outlet assembly (32) corresponds to the medium load or higher. The number controller (4) instructs the heating source (16) of some absorption chiller water heaters (1) to switch between a high heating amount and a low heating amount, High heating amount with respect to the heating source (16) of the remaining absorption chiller / heater (1) by the number controller (4) Plural operation control method of an absorption chiller-heater is characterized in that to indicate that it should operate.   In response to the instruction that one absorption chiller / heater (1) should be operated, the number controller (4) sends the corresponding absorption chiller / heater (1) to the heating source (16). The operation control method for a plurality of absorption chiller / heater units according to claim 1 or 2, wherein an instruction is made to operate without limiting the heating amount to a specific heating amount. A plurality of absorption chiller / heaters (1) for controlling the amount of heating in multiple positions are provided in parallel with each other, and the refrigerant sent from all the absorption chiller / heaters (1) is merged by the outlet collecting portion (32). The refrigerant that is supplied to the use space, is divided into the refrigerant used in the refrigerant use space by the inlet collecting portion (31) and is supplied to each absorption chiller / heater (1), and the refrigerant in the outlet collecting portion (32). In the system in which each absorption chiller / heater (1) is controlled by the number controller (4) with the temperature of
In response to an instruction that the plurality of absorption chiller / heaters (1) should be operated, the unit control is performed when the temperature of the refrigerant in the outlet assembly portion (32) corresponds to the medium load or less. The unit (4) instructs the heating source (16) of some absorption chiller / heaters (1) to operate without limiting the heating amount to a specific heating amount, and the number controller (4 ) Instruct the remaining absorption-type chiller / heater (1) of the heating source (16) to operate at a low heating amount, and the refrigerant temperature at the outlet assembly (32) corresponds to a medium load or higher. The number controller (4) instructs the heating source (16) of some absorption chiller water heaters (1) to operate without limiting the heating amount to a specific heating amount. And at least one absorption-type cooling / cooling machine (1) of the remaining absorption-type chiller / heater (1) by the number controller (4). Multiple unit operation control device for absorption chiller / heater characterized by including heating amount instruction means (4) for instructing heating source (16) of water machine (1) to operate at high heating amount . A plurality of absorption chiller / heaters (1) for controlling the amount of heating in multiple positions are provided in parallel with each other, and the refrigerant sent from all the absorption chiller / heaters (1) is merged by the outlet collecting portion (32). The refrigerant that is supplied to the use space, is divided into the refrigerant used in the refrigerant use space by the inlet collecting portion (31) and is supplied to each absorption chiller / heater (1), and the refrigerant in the outlet collecting portion (32). In the system in which each absorption chiller / heater (1) is controlled by the number controller (4) with the temperature of
In response to an instruction that the plurality of absorption chiller / heaters (1) should be operated , the unit control is performed when the temperature of the refrigerant in the outlet assembly portion (32) corresponds to the medium load or less. The unit (4) instructs the heating source (16) of some absorption chiller water heaters (1) to switch between a high heating amount and a low heating amount, and the number controller (4) The remaining absorption chiller-heater (1) is instructed that the heating source (16) should operate with a low heating amount, and the refrigerant temperature at the outlet assembly (32) corresponds to the medium load or higher. The number controller (4) instructs the heating source (16) of some absorption chiller water heaters (1) to switch between a high heating amount and a low heating amount, High heating amount with respect to the heating source (16) of the remaining absorption chiller / heater (1) by the number controller (4) Plural operation control device of an absorption chiller-heater characterized in that it comprises a heating amount instruction means for instructing to operate (4).   In response to an instruction that the one absorption chiller / heater (1) should be operated, the heating amount instruction means (4) responds by the number controller (4) to the corresponding absorption chiller / heater ( The plurality of absorption chiller / heater units according to claim 4 or 5, wherein the heating source (16) of 1) is instructed to operate without limiting the heating amount to a specific heating amount. Stand operation control device.

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