KR100586878B1 - Method for controlling apparatus of cold heat transportation system using ice slurry - Google Patents

Abstract

The present invention relates to a control method of a cold heat transportation apparatus for directly transporting ice slurries using an ice slurry type cold storage system, and more particularly, an ice maker for producing ice slurries; A heat storage tank for storing the ice slurry with stirring; A partition formed inside the heat storage tank or a separate storage tank installed outside the heat storage tank such that only liquid is present without ice particles; A supply pipe for supplying ice slurries to the demand destination from the heat storage tank; A first pump for supplying ice sludge inside the heat storage tank to a demand destination through the supply pipe; A second pump for supplying a liquid stored in the partition wall or a separate reservoir to a supply pipe; It characterized in that the control method of the cold heat transportation device having a configuration consisting of a third pump for supplying the liquid stored in the partition or separate reservoir inside the ice maker, by the present invention directly transports ice slurry with a large amount of cold heat per unit flow rate By preventing the sealing of the pipe by ice sludge which can occur at this time, it has the effect of reducing the pump power and the size of the pipe in cold and heat transportation, greatly reducing the energy saving and the pipe installation cost, and improving the stability and reliability of the system. .

Ice Slurry, Direct Transport, Cold Heat Transport, Cold Storage System, Bulkhead, Storage Tank

Description

Method for controlling apparatus of cold heat transportation system using ice slurry}

1 is a schematic view showing a cold heat transportation apparatus according to the prior art,

2A and 2B are photographs in which ice sludge having fluidity flows through a pipe,

Figure 3 is a graph showing the rate of increase in cold water transport and shrinkage of the piping according to the ratio of ice particles in the ice slurry (Ice Packing Factor, IPF),

Figure 4a is a schematic diagram showing an ice sludge direct transportation apparatus installed in the heat storage tank according to the present invention,

Figure 4b is a schematic diagram showing an ice sludge direct transport apparatus equipped with a separate reservoir according to the present invention,

Figure 5 is a graph showing the pressure drop experimental value according to the IPF change of the ice slurry in the cold heat transportation apparatus according to the present invention.

<Description of the symbols for the main parts of the drawings>

(100): cold heat source device (101): heat storage tank

(102): Ice maker 103: Agitator

(104): bulkhead (105): reservoir

(106) Supply piping (107): Return piping

108: first pump 109: second pump

110: third pump

The present invention relates to a method for controlling a cold heat transportation apparatus by direct transportation of ice slurries. In particular, an ice slurry is required by using an ice sludge-type ice storage system that ices and stores ice sludge mixed with small ice particles in water or an aqueous solution. The present invention relates to a control method of a cold heat transportation apparatus for stably increasing the amount of cold heat transportation by stably transporting directly.

In general, a cold heat transportation device is a device for transporting secondary refrigerant, such as low temperature water or brine solution, to a demanding place where cooling heat is required, and is installed in a building cooling system, a district cooling system, and an industrial cooling / refrigeration system. It consists of a cold heat source device that produces cold heat, a heat storage tank that stores it, and a pipe and pump that supplies and recovers it.

1 is a conventional cold heat transportation apparatus, which is composed of a cold heat source device 100, a heat storage tank 101, a pump 108, and pipes 106 and 107. When cold heat is required at the customer's side, secondary coolant such as low temperature water or brine solution stored in the heat storage tank is supplied to the customer through the pump and piping, and after the cold heat is transferred from the customer's source, the temperature rises and returns to the heat storage tank again. The cold heat source device is necessary to keep the secondary coolant such as water or brine solution in the heat storage tank at a low temperature. In a special case, a secondary coolant such as water or brine solution cooled in a cold heat source device without a heat storage tank is directly supplied to the demand through pumps and piping, and can be returned to the cold heat source device.

However, the conventional cold heat transport apparatus as described above is a device for transporting cold heat by using sensible heat, and when transporting a large amount of cold heat, the pipe size, pump capacity, and power consumption increase, and due to heat loss to the outside during long distance transportation When the temperature of the secondary refrigerant such as water or brine solution rises to the demand, there is a problem in that it cannot be utilized for cooling, cooling, and refrigeration.

Therefore, a method of transporting cold heat by using ice slurries having fluidity (see FIGS. 2A and B) while small ice particles (tens of several tens to several mm) are mixed in water or brine solution is proposed. Since ice slurries have cold heat in the form of latent heat of ice, the amount of cold heat per unit flow rate is large. Accordingly, when the same cold heat is transported, the size of the pipe, the capacity and the power consumption of the pump can be greatly reduced compared to the conventional method using sensible heat. There is an advantage (see FIG. 3).

In addition, even if the heat loss to the outside during the long-distance transport, the proportion of ice particles in the ice slurry is reduced, but the temperature does not change, so it has the advantage that there is no problem in reaching the demand and cooling, cooling and refrigeration.

However, when ice sludge is directly transported through a pipe, it is easy to cause a pipe closure phenomenon in which the ice particles are agglomerated with each other and block the inside of the pipe, which is often caused by a complicated flow path or a low flow rate. Cause the result of stopping. In particular, when the ice slurry is transported through the pipe and stopped as necessary, the ice particles in the ice slurry stopped inside the pipe are suspended in the upper part of the pipe and become coagulated with each other and gradually become large chunks. There is always this, which is a major deterioration of the reliability and stability of the system, which is the main cause of impeding the introduction of ice heat transportation system using ice slurry.

An object of the present invention for solving the above problems is to supply and store the ice slurries produced from the ice making machine to the heat storage tank, install a partition wall in the heat storage tank or install a storage tank outside the heat storage tank to always maintain only the liquid state without ice particles The present invention provides a control method of an ice sludge direct transportation device that secures a large amount of cold heat by using an ice sludge type cold storage system that secures space and supplies ice sludge to a demand destination through a pump installed in a supply pipe.

The present invention to achieve the object as described above and to perform the problem for eliminating the conventional drawbacks

An ice-cold transportation apparatus by ice sludge direct transportation, comprising: an ice maker for producing ice slurries; A heat storage tank configured to receive the ice slurries produced by the ice maker and to supply the ice slurries with stirring; A means for installing a partition in the heat storage tank and storing only the liquid supplied from the ice maker in a space separated by the partition; A stirrer installed at the lower end of the heat storage tank and installed to prevent stirring of the ice particles suspended in the upper surface of the water layer while stirring the ice slurry in the heat storage tank; A supply pipe for supplying ice slurries from the heat storage tank to a demand destination requiring cold heat; A first pump installed in the supply pipe to supply ice slurries inside the heat storage tank to a demand destination; A second pump for supplying a liquid stored in the means for storing only the liquid to a supply pipe; And a third pump for supplying the liquid stored in the means for storing only the liquid to the ice maker.
In addition, the present invention can form a means for storing only the liquid as a storage tank installed adjacent to the heat storage tank to store only liquid without ice solids.

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In addition, the control method of the cold heat transportation apparatus using the ice sludge direct transport according to the present invention prevents the agitation of the ice particles suspended in the upper surface of the water layer while stirring the ice slurries in the heat storage tank after the means is provided, and only stirring the lower side Supplying only the liquid separated by a partition or a storage tank to the ice maker through a third pump to make ice, and then supplying the ice slurry to the heat storage tank;
When supplying the ice slurry stored in the heat storage tank to the demand destination by using the first pump, by adjusting the strength of the second pump to supply the liquid to the supply pipe together to reduce the possibility of sealing the pipe, the IPF of the ice slurry in the pipe Maintaining at 20% or less and supplying to the demand source;
When the pressure of the pump rises due to the aggregation of ice particles in the supply pipe during transportation of ice slurry and the pressure received by the pump increases, the operation of the first pump is stopped and only the second pump is operated to remove the ice slurry in the supply pipe and then again. Operating a first pump to enable stable ice slurry transportation without sealing the pipe;
When the operation of the first pump is stopped because the cold heat transportation is no longer needed, only the second pump is operated to supply only liquid to the supply pipe for a suitable time, thereby removing ice sludge containing ice particles in the supply pipe and stopping in the supply pipe. Characterized in that it comprises a; to prevent the sealing of the pipes generated by the aggregation of the ice particles.

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Hereinafter, the configuration and the operation of the embodiment of the present invention will be described in detail with reference to the accompanying drawings. Figure 4a is a schematic diagram showing an ice sludge direct transport apparatus is installed in the heat storage tank partition wall according to the present invention, Figure 4b is a schematic diagram showing an ice sludge direct transport apparatus installed a separate storage tank according to the present invention,

By using the cold heat source device 100 and the ice maker 102, ice sludge mixed with small ice particles is produced from water or an aqueous solution, stored in the heat storage tank 101, and operated by an agitator 103 installed at the bottom of the heat storage tank. While the ice particles in the slurry are evenly mixed with the liquid, the stirring of the ice particles suspended in the upper surface of the water layer is prevented, and the ice slurries are in need of cooling heat through the supply pipe 106 by the first pump 108. After the supply, it is returned to the heat storage tank 101 through the return pipe 107.

At this time, by the partition 104 in the heat storage tank 101 or a separate storage tank 105 installed outside the heat storage tank to ensure a constant space in which only liquid water or an aqueous solution with little ice particles exists, and transportation of the ice slurry. After this is completed, the liquid contained therein is supplied to the supply pipe 106 through the second pump 109 for a suitable time to remove the ice slurry in the supply pipe, whereby ice particles in the stopped ice slurry float and flocculate. To prevent the sealing of pipes.

In addition, by supplying the liquid formed by the partition 104 or the storage tank 105 to the ice maker through the third pump 110 in the ice slurry ice making process, to prevent the instability of the ice making process caused by the inflow of ice particles into the ice maker. To do that.

In addition, when the ice slurry in the heat storage tank 101 is supplied to the demand destination through the supply pipe 106, the second pump 109 operates the liquid formed by the partition 104 or the storage tank 105, but increases the strength of the pump. By adjusting and supplying together to the supply pipe 106, it is possible to control the IPF of the ice slurry extracted from the heat storage tank 101 and transported through the supply pipe 106.

5 is an experimental value showing the pressure drop generated inside the pipe while adjusting the IPF. Looking at this, it can be seen that maintaining the IPF at 20% or less does not increase the pressure drop inside the pipe and minimizes the possibility of pipe closure. When the IPF is over a certain ratio, the pressure drop increases when supplying the ice slurries in the pipe. Therefore, the pump power is consumed a lot and the pipe may be blocked by the ice particles.

The stirrer 103 installed at the lower end of the heat storage tank 101 allows the ice particles to be suspended to be mixed well with the liquid by the density difference so that the ice slurry containing the ice particles can be transported through the supply pipe 106. It is to prevent the agitation of the ice particles already floating on the upper surface of the layer, except that the ice particles floating on the upper surface of the water layer coagulate with each other and easily turn into hardened ice masses, and these ice masses cause a pipe closure. It is necessary to stir.

That is, when stirring the entire inside of the heat storage tank 101, such ice mass may come down to the bottom of the heat storage tank and transported through the pipe, which may cause the pipe to be closed. It is advantageous to stir only the ice slurry of the portion. Ice particles suspended above the water layer are preferably melted or stirred using water or an aqueous solution returned to the heat storage tank 101 through the return pipe 107.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

The control method of the cold heat transportation apparatus for directly transporting ice slurries by using the ice slurry type cold storage system according to the present invention secures a space in which only liquid exists by using a partition or a storage tank installed outside the heat storage tank, together with an ice slurry. The liquid is sent to the supply pipe through the second pump so that ice slurries having a constant IPF are supplied to maintain smooth ice slurry flow, and only the liquid is supplied to the supply pipe through the second pump after the ice slurry is directly transported. By eliminating the ice particles in the supply pipe to prevent the sealing of the pipes, and in reducing the pump power and the size of the pipes in the cold transport, energy saving and pipe installation cost significantly reduced, and at the same time improve the stability and reliability of the system The invention which is expected to be used industrially as a useful invention having an effect All.

Claims (10)

delete delete delete delete In the control method of the cold heat transportation apparatus by the ice slurry direct transportation, An ice maker for producing ice slurries; A heat storage tank configured to receive the ice slurries produced by the ice maker and to supply the ice slurries with stirring; A separate reservoir installed inside a partition wall or outside installed in the heat storage tank configured to store only a liquid in which ice particles are excluded among ice sludges supplied from an ice maker; A supply pipe for supplying ice slurries from the heat storage tank to a demand destination requiring cold heat; A first pump installed in the supply pipe to supply ice slurries inside the heat storage tank to a demand destination; A second pump for supplying a liquid stored in the partition or in a separate reservoir to a supply pipe; After having a cold heat transportation device for directly transporting ice slurries using an ice slurry type cold storage system comprising a third pump for supplying a liquid stored in the partition or in a separate reservoir to an ice maker, When the ice slurry is stirred in the heat storage tank, stirring of the ice particles suspended in the upper surface of the water layer is prevented, and only the lower side is stirred, and only the liquid separated by the partition or the storage tank through the third pump when the ice slurry is defrosted. Supplying the ice maker to the ice maker and supplying the ice maker to the heat storage tank; When supplying the ice slurry stored in the heat storage tank to the demand destination by using the first pump, by adjusting the strength of the second pump to supply the liquid to the supply pipe together to reduce the possibility of sealing the pipe, the IPF of the ice slurry in the pipe Maintaining at 20% or less and supplying to the demand source; When the pressure of the pump rises due to the aggregation of ice particles in the supply pipe during transportation of ice slurry and the pressure received by the pump increases, the operation of the first pump is stopped and only the second pump is operated to remove the ice slurry in the supply pipe and then again. Operating a first pump to enable stable ice slurry transportation without sealing the pipe; When the operation of the first pump is stopped because the cold heat transportation is no longer needed, only the second pump is operated to supply only liquid to the supply pipe for a suitable time, thereby removing ice sludge containing ice particles in the supply pipe and stopping in the supply pipe. A method for controlling a cold heat transportation apparatus using ice sludge direct transportation, comprising the steps of: preventing the sealing of pipes generated by agglomeration of ice particles. delete delete delete delete delete

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