CN116007136A - Control method of photovoltaic direct-current air conditioning system - Google Patents

Abstract

The invention discloses a control method of a photovoltaic direct-current air conditioning system, and relates to the technical field of air conditioning system control. The method specifically comprises the following steps: acquiring the starting states of all air conditioners; when all the air conditioners are synchronously started, judging whether the power generation power of the photovoltaic power generation module for supplying power to the air conditioners is larger than a first preset threshold value, if not, judging whether the reserve electric quantity of the energy storage module for supplying power to the air conditioners is larger than a second preset threshold value and is in an electricity price peak value, and if not, controlling all the air conditioners to take electricity from a power grid in turn according to preset interval time and limiting the running power of all the started air conditioners so as to avoid exceeding a power limit value when the air conditioners are started. The method aims to prevent power from being taken from a power grid to exceed a power limit value when a plurality of direct current air conditioners are started simultaneously and the photovoltaic and energy-storage electric quantity is insufficient.

Description

A control method for a photovoltaic DC air-conditioning system

technical field

The invention relates to the technical field of air conditioning system control, in particular to a control method for a photovoltaic DC air conditioning system.

Background technique

The traditional household photovoltaic air conditioner is one outdoor unit dragging one indoor unit to run. When a family needs more than one indoor unit, it is necessary to configure multiple photovoltaic air conditioner outdoor units, which will waste resources. In the new household photovoltaic air conditioner application scheme, one photovoltaic (storage) DC air conditioner can be combined with multiple DC air conditioners to meet the needs of the entire family, but the current problems are based on the existing photovoltaic side, energy storage side, and grid side. According to the power configuration, the power required for the start-up process of the air conditioner is the largest. When the photovoltaic does not have the power generation conditions and the energy storage capacity is insufficient, multiple air conditioners are started at the same time, and the power drawn from the grid will exceed the limit. Long-term use will affect the life of the air conditioner.

When multiple DC air conditioners are turned on at the same time and the power of photovoltaics and energy storage is insufficient, how to avoid exceeding the power limit from the power grid has become a technical problem that needs to be solved urgently.

Contents of the invention

The main purpose of the present invention is to provide a control method for a photovoltaic DC air-conditioning system, which aims to avoid exceeding the power limit value of electricity taken from the grid when multiple DC air conditioners are started at the same time and the power of photovoltaics and energy storage is insufficient.

In order to achieve the above object, the present invention proposes a control method for a photovoltaic DC air-conditioning system, comprising the following steps:

Obtain the start status of all air conditioners;

When all air conditioners are started synchronously, it is judged whether the generated power of the photovoltaic power generation module that supplies power to the air conditioners is greater than the first preset threshold, and if not, it is judged at the same time whether the power reserve of the energy storage module that supplies power to the air conditioners is greater than the second preset threshold. Set the threshold and it is at the peak value of electricity price. If it is not satisfied, control each air conditioner to start up from the grid in turn at predetermined intervals and limit the operating power of each air conditioner that has completed the start, so as to avoid exceeding the power limit when the air conditioner starts.

In an embodiment of the present application, it is judged whether the generated power of the photovoltaic power generation module that supplies power to the air conditioner is greater than the first preset threshold, and if not, it is judged at the same time whether the power reserve of the energy storage module that supplies power to the air conditioner is greater than the second preset threshold. The threshold is preset and is at the peak of the electricity price. If the threshold is met, the energy storage module and the grid will jointly supply power for the operation of the air conditioner and keep the air conditioner in normal operation.

In one embodiment of the present application, it is judged whether the generated power of the photovoltaic power generation module that supplies power to the air conditioner is greater than the first preset threshold, and if it is satisfied, it is also judged whether the power reserve of the energy storage module that supplies power to the air conditioner is greater than the second preset threshold. The threshold is set and it is at the peak price of electricity. If it is met, the photovoltaic power generation module and the energy storage module will jointly supply power for the operation of the air conditioner and keep the air conditioner in normal operation.

In one embodiment of the present application, it is judged whether the generated power of the photovoltaic power generation module that supplies power to the air conditioner is greater than the first preset threshold, and if it is satisfied, it is also judged whether the power reserve of the energy storage module that supplies power to the air conditioner is greater than the second preset threshold. The threshold is set and it is at the peak price of electricity. If it is not met, the photovoltaic power generation module and the grid will jointly supply power for the operation of the air conditioner and keep the air conditioner in normal operation.

In an embodiment of the present application, the second preset threshold is 30%.

In an embodiment of the present application, it also includes:

When all the air conditioners are not started, it is judged whether the photovoltaic power generation module that supplies power to the air conditioner can generate electricity; power grid.

In one embodiment of the present application, it is judged whether the photovoltaic power generation module that supplies power to the air conditioner can generate electricity; into the energy storage module.

In one embodiment of the present application, it is judged whether the photovoltaic power generation module that supplies power to the air conditioner can generate electricity; Take electricity and supply it to the energy storage module.

In one embodiment of the present application, it is judged whether the photovoltaic power generation module that supplies power to the air conditioner can generate electricity; if not, it is judged whether the stored power of the energy storage module is less than the second preset threshold and is at the valley value of electricity price; if not, the system is in standby mode.

In an embodiment of the present application, the third preset threshold is 80%.

With the above technical solution, when all the air conditioners are started synchronously, when the photovoltaic power generation module and the energy storage module are unable to provide electric energy, the start of each air conditioner is completed by controlling each air conditioner to take power from the grid in sequence according to the predetermined time interval, and at the same time The operating power of the air conditioners that have been started is limited, so as to ensure that the air conditioners that have not been started later have enough power to start, and avoid exceeding the power limit when all air conditioners are started synchronously. The process is simple and easy to implement.

Description of drawings

Below in conjunction with specific embodiment and accompanying drawing, the present invention is described in detail, wherein:

Fig. 1 is a structural schematic diagram of the first embodiment of the present invention.

Detailed ways

In order to make the object, technical solution and advantages of the present invention clearer, the present invention will be described in detail below in conjunction with the accompanying drawings and embodiments. It should be understood that the following specific examples are only used to explain the present invention, but not to limit the present invention.

As shown in Figure 1, in order to achieve the above purpose, the present invention proposes a control method for a photovoltaic DC air-conditioning system, including the following steps:

Obtain the start status of all air conditioners;

When all air conditioners are started synchronously, it is judged whether the generated power of the photovoltaic power generation module that supplies power to the air conditioners is greater than the first preset threshold, and if not, it is judged at the same time whether the power reserve of the energy storage module that supplies power to the air conditioners is greater than the second preset threshold. Set the threshold and it is at the peak value of electricity price. If it is not satisfied, control each air conditioner to start up from the grid in turn at predetermined intervals and limit the operating power of each air conditioner that has completed the start, so as to avoid exceeding the power limit when the air conditioner starts.

Specifically, a photovoltaic DC air conditioner system includes: a photovoltaic DC air conditioner and multiple DC air conditioners connected to the DC bus of the photovoltaic DC air conditioner.

A control method for a photovoltaic DC air-conditioning system includes the following steps:

Obtain the working status of the photovoltaic DC air conditioner and the DC air conditioner in the air conditioning system. The photovoltaic DC air conditioner in this application refers to the air conditioner that is connected to the photovoltaic module and supplies power for its own work through the electricity generated by the photovoltaic module. A DC air conditioner refers to an air conditioner that can directly use direct current to work, and it does not need to be equipped with corresponding photovoltaic modules. The working state of the air conditioner includes at least two kinds of power-on and power-off.

Obtain the current state of all air conditioners. When all air conditioners are turned on synchronously, judge whether the power generated by the photovoltaic power generation module at this time meets the first preset threshold. When the power generated by the photovoltaic power generation module meets the first preset threshold When the threshold is set, it means that the electric energy generated by the current photovoltaic power generation module is sufficient to ensure the stable operation of the air conditioner. When the power generated by the photovoltaic power generation module does not meet the first preset threshold, it means that the current electric energy generated by the photovoltaic power generation module cannot meet the stable operation of the air conditioner.

Wherein, when the power generated by the photovoltaic power generation module is less than the first preset threshold, the electric energy generated by the photovoltaic power generation module is not enough to maintain the operation of the air conditioner, and then it is judged whether the power stored in the energy storage module is greater than the second preset threshold At the same time, it is judged whether the electricity price at the current moment is the peak of the electricity price. If it is not satisfied, each air conditioner is controlled to start up from the grid in turn at a predetermined interval and the operating power of each air conditioner that has been started is limited to avoid exceeding the power limit when the air conditioner starts.

The energy storage module refers to a module that can store electric energy. The energy storage module is connected with the photovoltaic power generation module and the grid, and can store the electric energy generated by the photovoltaic power generation module and the electric energy of the grid for power supply when needed.

When the electric energy stored in the energy storage module is greater than the second preset threshold, it means that the current energy storage module can perform a normal power supply operation. When the electric energy stored in the energy storage module is less than the second preset threshold, it means that the electric energy in the energy storage module is too small to maintain the operation of the air conditioner. By judging the electric quantity in the energy storage module, the power consumption in the energy storage module can be avoided, the service life of the energy storage module can be extended, and the stability of the air conditioner can be ensured at the same time.

Determine whether the electricity price at the current moment is the peak value of the electricity price. If the current moment is the peak value of the electricity price, it will increase the input cost of the user, and it is not conducive to energy conservation and environmental protection.

When the electricity stored in the energy storage module does not meet the second preset threshold and the electricity price at the current moment is the peak price, the energy storage module cannot supply power for the air conditioner. Take power from the power grid in a predetermined order to avoid the instantaneous power exceeding the total power limit, and at the same time limit the power of the air conditioners that have been started, so that the power of the air conditioners that have started is reduced, ensuring that the air conditioners that have not been started in the future can operate according to normal conditions. Power up.

With the above technical solution, when all the air conditioners are started synchronously, when the photovoltaic power generation module and the energy storage module are unable to provide electric energy, the start of each air conditioner is completed by controlling each air conditioner to take power from the grid in sequence according to the predetermined time interval, and at the same time The operating power of the air conditioners that have been started is limited, so as to ensure that the air conditioners that have not been started later have enough power to start, and avoid exceeding the power limit when all air conditioners are started synchronously. The process is simple and easy to implement.

In an embodiment of the present application, it is judged whether the generated power of the photovoltaic power generation module that supplies power to the air conditioner is greater than the first preset threshold, and if not, it is judged at the same time whether the power reserve of the energy storage module that supplies power to the air conditioner is greater than the second preset threshold. The threshold is preset and is at the peak of the electricity price. If the threshold is met, the energy storage module and the grid will jointly supply power for the operation of the air conditioner and keep the air conditioner in normal operation.

Specifically, it is judged whether the power generated by the photovoltaic power generation module at this time meets the first preset threshold, and when the power generated by the photovoltaic power generation module meets the first preset threshold, it means that the current power generated by the photovoltaic power generation module is sufficient to ensure the stability of the air conditioner run. When the power generated by the photovoltaic power generation module does not meet the first preset threshold, it means that the current electric energy generated by the photovoltaic power generation module cannot meet the stable operation of the air conditioner.

Wherein, when the power generated by the photovoltaic power generation module is less than the first preset threshold, the electric energy generated by the photovoltaic power generation module is not enough to maintain the operation of the air conditioner, and then it is judged whether the power stored in the energy storage module is greater than the second preset threshold At the same time, it is judged whether the electricity price at the current moment is the peak electricity price. If it is satisfied, the energy storage module and the power grid jointly supply power for the operation of the air conditioner and maintain the normal operation of the air conditioner.

The energy storage module refers to a module that can store electric energy. The energy storage module is connected with the photovoltaic power generation module and the grid, and can store the electric energy generated by the photovoltaic power generation module and the electric energy of the grid for power supply when needed.

When the electric energy stored in the energy storage module is greater than the second preset threshold, it means that the current energy storage module can perform a normal power supply operation. At the same time, it is determined whether the electricity price at the current moment is the peak value of the electricity price. If the current moment is the peak value of the electricity price, it will increase the input cost of the user, and it is not conducive to energy conservation and environmental protection. When the electric energy stored in the energy storage module is greater than the second preset threshold and the electricity price at the current moment is the peak value of the electricity price, the energy storage module and the grid jointly provide electric energy for the operation of the air conditioner. Can effectively reduce the user's electricity cost.

Using the above technical solution, when the photovoltaic power generation module cannot provide electric energy, it is judged whether the electric energy stored in the energy storage module is greater than the second preset threshold, and when the electric energy in the energy storage module is greater than the second preset threshold, it indicates the current energy storage The module can supply power, and at the same time judge whether the current electricity price is at the peak value. When the electricity price is at the peak value, the power supply through the cooperation of the energy storage module and the grid can reduce the user's electricity consumption cost.

In one embodiment of the present application, it is judged whether the generated power of the photovoltaic power generation module that supplies power to the air conditioner is greater than the first preset threshold, and if it is satisfied, it is also judged whether the power reserve of the energy storage module that supplies power to the air conditioner is greater than the second preset threshold. The threshold is set and it is at the peak price of electricity. If it is met, the photovoltaic power generation module and the energy storage module will jointly supply power for the operation of the air conditioner and keep the air conditioner in normal operation.

Specifically, the current state of all air conditioners is obtained. When all air conditioners are turned on synchronously, it is judged whether the power generated by the photovoltaic power generation module meets the first preset threshold. When the power generated by the photovoltaic power generation module satisfies When the first preset threshold is reached, it means that the current electric energy generated by the photovoltaic power generation module is sufficient to ensure the stable operation of the air conditioner. When the power generated by the photovoltaic power generation module does not meet the first preset threshold, it means that the current electric energy generated by the photovoltaic power generation module cannot meet the stable operation of the air conditioner.

Wherein, when the power generated by the photovoltaic power generation module is greater than the first preset threshold, the electric energy generated by the photovoltaic power generation module is sufficient to maintain the operation of the air conditioner. It is judged whether the electricity price at the current moment is the peak electricity price, and if it is satisfied, the photovoltaic power generation module and the energy storage module jointly supply power for the operation of the air conditioner, thereby ensuring the normal operation of the air conditioner.

In one embodiment of the present application, it is judged whether the generated power of the photovoltaic power generation module that supplies power to the air conditioner is greater than the first preset threshold, and if it is satisfied, it is also judged whether the power reserve of the energy storage module that supplies power to the air conditioner is greater than the second preset threshold. The threshold is set and it is at the peak price of electricity. If it is not met, the photovoltaic power generation module and the grid will jointly supply power for the operation of the air conditioner and keep the air conditioner in normal operation.

Specifically, it is determined whether the generated power of the photovoltaic power generation module that supplies power to the air conditioner is greater than the first preset threshold, and if so, at the same time, it is determined whether the power stored in the energy storage module that supplies power to the air conditioner is greater than the second preset threshold, and at that time The current electricity price is the peak electricity price. If it is not satisfied, it means that the current reserve power in the energy storage module is low or the current electricity price is valley price. Together with the power grid, the air conditioner is powered to ensure the normal operation of the air conditioner.

In an embodiment of the present application, the second preset threshold is 30%.

Specifically, the second preset threshold value is 30%, and setting the second preset threshold value at 30% can ensure the stable operation of the energy storage module and avoid the situation that the energy storage module will reduce the service life of the energy storage module because the power is too low Appear.

In an embodiment of the present application, it also includes:

When all the air conditioners are not started, it is judged whether the photovoltaic power generation module that supplies power to the air conditioner can generate electricity; power grid.

Specifically, when all air conditioners are not activated, all air conditioners will not consume electric energy. At this time, it is judged whether the photovoltaic power generation module can generate electric energy. If electric energy can be generated, it is judged whether the electric quantity in the photovoltaic energy storage When the preset threshold is greater than the third preset threshold, it means that the electricity in the photovoltaic energy storage module is sufficient, and at this time, the electric energy generated by the photovoltaic power generation module is sent to the grid.

With the above technical solution, when the photovoltaic power generation module can generate electric energy and the electric energy in the energy storage module is sufficient, the electric energy is transmitted to the grid, further reducing the electricity cost of the user.

In one embodiment of the present application, it is judged whether the photovoltaic power generation module that supplies power to the air conditioner can generate electricity; into the energy storage module.

Specifically, when all air conditioners are not activated, all air conditioners will not consume electric energy. At this time, it is judged whether the photovoltaic power generation module can generate electric energy. If electric energy can be generated, it is judged whether the electric quantity in the photovoltaic energy storage When the preset threshold is less than the third preset threshold, it means that the electricity in the photovoltaic energy storage module is in a state to be replenished, and at this time, the electric energy generated by the photovoltaic power generation module is delivered to the energy storage module.

With the above technical solution, when the photovoltaic power generation module can generate electric energy and the electricity in the energy storage module needs to be replenished, the photovoltaic electric energy is stored in the energy storage module, and only taken out from the energy storage module when it needs to be used, which further reduces the user cost.

In one embodiment of the present application, it is judged whether the photovoltaic power generation module that supplies power to the air conditioner can generate electricity; Take electricity and supply it to the energy storage module.

Specifically, when the photovoltaic power generation module cannot generate electricity and the electricity price is at a valley value, the electric energy of the mains power is stored in the energy storage module, which reduces the electricity consumption cost of the user.

In one embodiment of the present application, it is judged whether the photovoltaic power generation module that supplies power to the air conditioner can generate electricity; if not, it is judged whether the stored power of the energy storage module is less than the second preset threshold and is at the valley value of electricity price; if not, the system is in standby mode.

Specifically, when the photovoltaic power generation module cannot generate power and the electricity price is at a peak, the system is set in a standby state, which reduces the electricity consumption cost of the user.

In an embodiment of the present application, the third preset threshold is 80%.

Specifically, the third threshold is set at 80%, which can avoid overcharging of the energy storage module while ensuring sufficient power of the energy storage system, and further prolong the service life of the energy storage module.

The above is only a preferred embodiment of the present invention, and does not therefore limit the patent scope of the present invention. Under the inventive concept of the present invention, the equivalent structural transformation made by using the description of the present invention and the contents of the accompanying drawings, or direct/indirect use All other relevant technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. The control method of the photovoltaic direct-current air conditioning system is characterized by comprising the following steps of:

acquiring the starting states of all air conditioners;

when all the air conditioners are synchronously started, judging whether the power generation power of the photovoltaic power generation module for supplying power to the air conditioners is larger than a first preset threshold value, if not, judging whether the reserve electric quantity of the energy storage module for supplying power to the air conditioners is larger than a second preset threshold value and is in an electricity price peak value, and if not, controlling all the air conditioners to take electricity from a power grid in turn according to preset interval time and limiting the running power of all the started air conditioners so as to avoid exceeding a power limit value when the air conditioners are started.

2. The method for controlling a photovoltaic direct current air conditioning system according to claim 1, wherein it is determined whether the generated power of a photovoltaic power generation module for supplying power to an air conditioner is greater than a first preset threshold, if not, it is determined whether the reserve power of an energy storage module for supplying power to the air conditioner is greater than a second preset threshold and is at a peak value of electricity price, and if so, the energy storage module and a power grid supply power together to the operation of the air conditioner and keep the air conditioner operating normally.

3. The method for controlling a photovoltaic direct current air conditioning system according to claim 1, wherein it is determined whether the generated power of a photovoltaic power generation module that supplies power to an air conditioner is greater than a first preset threshold, if so, it is determined whether the reserve power of an energy storage module that supplies power to the air conditioner is greater than a second preset threshold and is at a peak value of electricity price, and if so, the photovoltaic power generation module and the energy storage module supply power to the air conditioner together and keep the air conditioner operating normally.

4. The method for controlling a photovoltaic direct current air conditioning system according to claim 1, wherein it is determined whether the generated power of a photovoltaic power generation module that supplies power to an air conditioner is greater than a first preset threshold, if yes, it is determined whether the reserve power of an energy storage module that supplies power to the air conditioner is greater than a second preset threshold and is at a peak value of electricity price, and if not, the photovoltaic power generation module and a power grid supply power together to the operation of the air conditioner and keep the air conditioner operating normally.

5. The method for controlling a photovoltaic direct current air conditioning system according to claim 1, wherein the second preset threshold is: 30%.

6. The method for controlling a photovoltaic direct current air conditioning system according to claim 1, further comprising:

when all the air conditioners are not started, judging whether the photovoltaic power generation module for supplying power to the air conditioners can generate power or not; if yes, judging whether the reserve electric quantity of the energy storage module is larger than a third preset threshold value, and if yes, supplying electric energy generated by the photovoltaic power generation module into a power grid.

7. The method for controlling a photovoltaic direct current air conditioning system according to claim 6, wherein it is determined whether a photovoltaic power generation module that supplies power to an air conditioner can generate power; if yes, judging whether the reserve electric quantity of the energy storage module is larger than a third preset threshold value, and if not, supplying the electric energy generated by the photovoltaic power generation module into the energy storage module.

8. The method for controlling a photovoltaic direct current air conditioning system according to claim 6, wherein it is determined whether a photovoltaic power generation module that supplies power to an air conditioner can generate power; if not, judging whether the reserve electric quantity of the energy storage module is smaller than a second preset threshold value and is in the electricity price valley value, and if so, taking electricity from the power grid to supply the electricity to the energy storage module.

9. The method for controlling a photovoltaic direct current air conditioning system according to claim 8, wherein it is determined whether a photovoltaic power generation module that supplies power to an air conditioner can generate power; if not, judging whether the reserve electric quantity of the energy storage module is smaller than a second preset threshold value and is in the electricity price valley value, and if not, enabling the system to be in a standby state.

10. The method of claim 6, wherein the third preset threshold is 80%.

Images