KR101365384B1 - Method and control system for controlling supply of heat energy from a furnace to multiple dryers - Google Patents

Abstract

The method for controlling the supply of thermal energy from the furnace 11 to the plurality of dryers 12 includes a preset temperature T ₀ , a predetermined humidity W ₀ and a drying time for each dryer 12. determining t); Calculate a thermal energy requirement of each of the dryers 12 in accordance with the predetermined temperature T ₀ , the predetermined humidity W ₀ and the drying time t of each one of the dryers 12, and Calculating an amount of fuel supplied to the furnace (11) and a volume of hot air supplied to each of the dryers (12); Detecting a drying temperature (T) in each of said dryers (12); For each of the dryers 12, the drying temperature T of the dryer 12 is compared with the preset temperature T ₀ so that the drying temperature T is greater than the preset temperature T ₀ . Increasing the volume of hot air if low and decreasing the volume of hot air if the drying temperature T is above the predetermined temperature T ₀ .

Description

METHOD AND CONTROL SYSTEM FOR CONTROLLING SUPPLY OF HEAT ENERGY FROM A FURNACE TO MULTIPLE DRYERS}

The present invention relates to a method and a control system for controlling the supply of thermal energy, and more particularly to controlling the supply of thermal energy from a furnace to a plurality of dryers, and monitoring the drying process of the dryer. It relates to a method and a control system that can be controlled.

In general, raw materials such as crusts and crust waste of crops can burn these materials, even if they are inedible, to generate useful heat energy. The heat-exchanging furnaces disclosed in U.S. Patent Nos. 7,422,429 and 7,393,206 burn raw materials to generate useful heat energy, thereby achieving the effects of resource recycling and energy reuse.

The thermal energy generated by the heat exchange furnace described above is mainly applied to a dryer for drying materials such as grains, flowers and fruits. However, conventionally, the effect of drying the material is obtained by supplying thermal energy generated in a single furnace to a single dryer. This not only wastes combustible resources, but also results in high equipment costs and therefore may not meet the demand for economical efficiency.

Until now, it has been proposed in the industry to supply thermal energy to a plurality of dryers from one furnace. However, since the heat energy required by the plurality of dryers is generated in the same furnace, the drying conditions in each dryer are set equally as a result of the restriction in the pipe connection. Therefore, it is not easy to use and also cannot meet the requirement to set different drying conditions for the corresponding dryer.

Therefore, one object of the present invention is to provide a method and control system for controlling the supply of thermal energy from a furnace to a plurality of dryers. The method and control system can improve economic efficiency and can also set individual drying conditions for a plurality of dryers.

In one aspect, a method for controlling the supply of thermal energy from a furnace to a plurality of dryers, in accordance with the present invention, is implemented by a control system. The method comprises:

(A) configuring said control system to determine a predetermined temperature, a predetermined humidity and a drying time for each said dryer;

(B) calculate a thermal energy demand of each of the dryers according to the predetermined temperature, the predetermined humidity and the drying time of each one of the dryers, and also supply to the furnace according to the thermal energy requirements of each of the dryers Configuring the control system to calculate an amount of fuel to be supplied, and a volume of hot air supplied to each of the dryers according to the thermal energy demand of each one of the dryers;

(C) configuring the control system to detect a drying temperature in each of the dryers;

(D) For each of the dryers, the drying temperature of the dryer is compared with the preset temperature to increase the volume of hot air supplied from the furnace to the dryer when the drying temperature is lower than the preset temperature. And, if the drying temperature is higher than the predetermined temperature, configuring the control system to reduce the volume of hot air supplied from the furnace to the dryer.

In another aspect, a control system for controlling the supply of thermal energy from a furnace to a plurality of dryers, in accordance with the present invention, includes a computation module, a detection module and a control module. The calculating module calculates a heat energy demand of each of the dryers according to a predetermined temperature, a predetermined humidity and a drying time of each one of the dryers, and also supplies an amount of fuel supplied to the furnace according to the heat energy requirements of each of the dryers. And a volume of the hot air supplied to each of the dryers according to the heat energy requirement of each one of the dryers. The detection module is for detecting a drying temperature in each of the dryers. A control module is operably connected with the computation module and the detection module. For each of the dryers, the control module compares the drying temperature of the dryer with the predetermined temperature to determine the volume of hot air supplied from the furnace to the dryer when the drying temperature is lower than the predetermined temperature. And decrease the volume of hot air supplied from the furnace to the dryer when the drying temperature is above the predetermined temperature.

The effect of the present invention is to satisfy individual drying conditions for a plurality of dryers by intelligently using the thermal energy generated in the same furnace to improve economical efficiency.

Other features and advantages of the present invention will become apparent from the following detailed description of preferred embodiments with reference to the accompanying drawings.
1 is a schematic diagram illustrating one preferred embodiment of a method and control system for controlling the supply of thermal energy from a furnace to a plurality of dryers in accordance with the present invention.
2 is a block diagram of the above preferred embodiment.
3 is a flowchart of the preferred embodiment.

1 and 2, there is shown one preferred embodiment of a control system for controlling the supply of thermal energy from a furnace 11 to a plurality of dryers 12 in accordance with the present invention. The furnace 11 is connected to the several dryer 12 through the pipe network 13. The control system includes a calculation module 2, a detection module 3, a control module 4 and a plurality of valve units 5.

The calculating module 2 calculates the thermal energy demand of each of the dryers 12 according to the preset temperature T ₀ , the predetermined humidity W ₀ and the drying time t of each one of the dryers 12 and In addition, the amount of fuel supplied to the furnace 11 according to the heat energy demand of each dryer 12, and the volume of the hot air supplied to each of the dryer 12 according to the heat energy demand of each one of the dryers 12. It is to calculate.

The detection module 3 includes a plurality of thermometers 31 and a plurality of hygrometers 32. Each of the thermometers 31 is arranged in each one of the dryers 12 in order to detect the drying temperature T in each one of the dryers 12. Each hygrometer 32 is arranged in each one of the dryers 12 to detect the humidity W in each one of the dryers 12.

The control module 4 is operatively connected with the arithmetic module 2 and the detection module 3. For each of the dryers 12, the control module 4 compares the drying temperature T of the dryer 12 with the preset temperature T ₀ so that the drying temperature T is greater than the preset temperature T ₀ . If it is low, the volume of the hot air supplied to the dryer 12 from the furnace 11 is increased, and if the drying temperature T is higher than the preset temperature T ₀ , it is transferred from the furnace 11 to the dryer 12. It is configured to reduce the volume of hot air supplied.

Each valve unit 5 is arranged in a pipe network 13 between each one of the furnace 11 and the dryer 12. Each valve unit 5 is controlled by a control module 4 and includes a hot air valve 51 and a cold air valve 52. The hot air valve 51 is operable to adjust the volume of hot air supplied from the furnace 11 to each one of the dryers 12. The cold air valve 52 is operable to control mixing of cold air with hot air.

1 to 3, an operational flow is described for a preferred embodiment of the method for controlling the supply of thermal energy from a furnace to a plurality of dryers, in accordance with the present invention.

In step 61 the furnace 11 is operated.

In step 62, the furnace 11 performs an automatic combustion process and hot air is supplied from the furnace 11 to each of the dryers 12 through the pipe network 13 as it burns the fuel material. At this time, the low temperature air valve 52 is controlled by the control module 4 to be completely closed.

In step 63, the calculating module 2 is configured to determine for each of the dryers 12 the preset temperature T ₀ , the preset humidity W ₀ and the drying time t.

In step 64, the calculating module 2 requests the thermal energy of each of the dryers 12 according to the preset temperature T ₀ , the predetermined humidity W ₀ and the drying time t of each one of the dryers 12. The amount of fuel supplied to the furnace 11 according to the heat energy requirement of each of the dryers 12, and the high temperature supplied to each of the dryers 12 according to the heat energy requirements of each one of the dryers 12 are calculated. And to calculate a volume of air.

In step 65, each thermometer 31 is used to detect the drying temperature T in each one of the dryers 12, and each hygrometer 32 is used in each one of the dryers 12. Humidity (W) is detected.

In step 66, for each of the dryers 12, the control module 4 determines that the humidity W in the dryer 12 is a predetermined value ΔW over the predetermined humidity W ₀ of the dryer 12. Make a first determination as to whether

In step 67, for each of the dryers 12, the control module 4, if the result of the first determination made in step 66 is affirmative, from the furnace 11 until the drying time t is reached. And to block the hot air valve 51 to stop the supply of hot air to the dryer 12.

In step 68, for each of the dryers 12, the control module 4 determines whether the drying temperature T is higher than the preset temperature T ₀ when the result of the first determination made in step 66 is negative. And make a second determination.

In step 69, for each of the dryers 12, if the result of the second determination made in step 68 is affirmative, the control module 4 determines the volume of hot air supplied from the furnace 11 to each dryer 12. To control the hot air valve 51 to introduce a low temperature air into the pipe network 13 to reduce the temperature of the hot air of the low temperature air to lower the temperature of the hot air supplied to the respective dryers 12. And adjust the cryogenic air valve 52 to control mixing with the flow, and the process flow returns to step 63.

In step 70, for each of the dryers 12, if the result of the second determination made in step 68 is negative, the control module 4 determines the volume of the hot air supplied from the furnace 11 to each dryer 12. To control the hot air valve 51 to increase the pressure, and to reduce or block the introduction of the surrounding cold air into the pipe net 13 to raise the temperature of the hot air supplied to each dryer 12. Configured to control the cold air valve 52, and the process flow returns to step 63.

As is apparent from the foregoing, the method and control system for controlling the supply of thermal energy from a furnace to a plurality of dryers has the following advantages and effects.

The present invention makes it possible to utilize the thermal energy generated from the same furnace 11, thereby saving the fuel material for combustion and increasing the utilization rate of the thermal energy. In addition, the present invention can satisfactorily satisfy individual drying conditions for the dryer 12 without affecting the heat energy supply of the furnace 11, thereby improving its economical efficiency.

Although the present invention has been described with what are considered to be the most practical and preferred embodiments, the present invention is not limited to the disclosed embodiments and is intended to include various configurations falling within the spirit and scope of the broadest interpretation, and therefore all such modifications. Examples and equivalent configurations are also included.

Claims (6)

A method for controlling the supply of thermal energy from a furnace 11 to a plurality of dryers 12, implemented by a control system,
(A) configuring said control system to determine a predetermined temperature (T ₀ ), a predetermined humidity (W ₀ ) and a drying time (t) for each said dryer (12);
(B) calculate a thermal energy requirement of each of the dryers 12 according to the predetermined temperature T ₀ , the predetermined humidity W ₀ and the drying time t of each one of the dryers 12. And the amount of fuel supplied to the furnace 11 according to the heat energy demand of each of the dryers 12, and each of the dryers 12 according to the heat energy demand of each one of the dryers 12. Configuring the control system to calculate a volume of hot air that is;
(C) configuring said control system to detect a drying temperature (T) in each said dryer (12);
(D) For each of the dryers 12, the drying temperature T of the dryer 12 is compared with the predetermined temperature T ₀ , so that the drying temperature T is the predetermined temperature T If it is lower than ₀ ), the volume of hot air supplied from the furnace 11 to the dryer 12 is increased, and if the drying temperature T is higher than the preset temperature T ₀ , the furnace ( 11) configuring the control system to reduce the volume of hot air supplied to the dryer 12 from
A method for controlling the supply of thermal energy from a furnace to a plurality of dryers. The method of claim 1,
In the step (C), the control system is further configured to detect the humidity W in each of the dryers 12,
The method comprises:
(E) for each of the dryers 12, when the humidity W in the dryer 12 is less than the predetermined humidity W ₀ of the dryer 12 by a predetermined value ΔW, the Further comprising configuring the control system to stop the supply of hot air from the furnace 11 to the dryer 12.
A method for controlling the supply of thermal energy from a furnace to a plurality of dryers. As a control system for controlling the supply of thermal energy from the furnace 11 to the plurality of dryers 12,
Calculate a thermal energy requirement of each of the dryers 12 according to a preset temperature T ₀ , a predetermined humidity W ₀ and a drying time t of each one of the dryers 12, 12) the volume of fuel supplied to the furnace 11 according to each of the thermal energy requirements, and the volume of hot air supplied to each of the dryers 12 according to the thermal energy requirements of each one of the dryers 12. A calculation module 2 for calculating,
A detection module 3 for detecting a drying temperature T in each of the dryers 12,
A control module 4 operatively connected with the arithmetic module 2 and the detection module 3,
For each of the dryers 12, the control module 4 compares the drying temperature T of the dryer 12 with the preset temperature T ₀ so that the drying temperature T is determined by the control module 4. If it is lower than a preset temperature T ₀ , the volume of hot air supplied from the furnace 11 to the dryer 12 is increased, and the drying temperature T is higher than the preset temperature T ₀ . The volume of hot air supplied to the dryer 12 from the furnace 11
A control system for controlling the supply of thermal energy from the furnace to the plurality of dryers. The method of claim 3, wherein
The detection module 3 also detects the humidity W in each of the dryers 12,
For each of the dryers 12, the control module 4 allows the humidity W at the dryer 12 to be determined by a predetermined value ΔW over the predetermined humidity W ₀ of the dryer 12. If small, configured to stop the supply of hot air from the furnace 11 to the dryer 12.
A control system for controlling the supply of thermal energy from the furnace to the plurality of dryers. The method of claim 3, wherein
Further comprising a plurality of valve units 5 respectively disposed between each one of the furnace 11 and the dryer 12,
Each of the valve units 5 is controlled by the control module 4 to adjust the volume of hot air supplied from the furnace 11 to each one of the dryers 12.
A control system for controlling the supply of thermal energy from the furnace to the plurality of dryers. The method of claim 5, wherein
Each of the valve units 5,
A hot air valve (51) operable to adjust a volume of hot air supplied to each one of said dryers (12) from said furnace (11);
A cold air valve 52 operable to control mixing of the cold air with the hot air;
A control system for controlling the supply of thermal energy from the furnace to the plurality of dryers.

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