KR20220075078A - Monitoring and control of energy management for economic operation of building-integrated photovoltaic power generation facilities - Google Patents

Abstract

The present invention relates to energy management monitoring and a control method for the economical operation of a building-integrated photovoltaic power generation facility, and specifically, a time series exponential smoothing technique is used to utilize sunlight installed on an exterior wall or glass window of a building as industrial or commercial power. Energy management for economical operation of building-integrated photovoltaic power generation facilities, which predicts power demand forecast and generation amount and compares the amount of solar power installed in the building and power consumption based on this to enable economical operation according to industrial or commercial purposes It relates to monitoring and its control method.
Energy management monitoring and control method for the economical operation of a building-integrated photovoltaic power generation facility proposed in the present invention is a collecting unit that collects the photovoltaic power generation information;
A PCS unit providing PCS information of the energy storage device, a battery unit providing battery information of the energy storage device,
A setting unit for setting environmental information for the solar power generation facility and the energy storage device, and a monitoring unit for integrally managing the information of the energy storage device;
A demand prediction unit for predicting the demand according to the hourly power demand and temperature correction, and a power generation prediction unit for predicting the hourly solar power generation data;
Energy management monitoring and control method for the economical operation of a building-integrated photovoltaic power generation facility that provides a control operation unit that provides economic operation according to commercial and industrial uses based on the demand forecasting unit and power generation forecasting unit data.

Description

Energy management monitoring and control method for economic operation of building-integrated photovoltaic power generation facilities {Monitoring and control of energy management for economic operation of building-integrated photovoltaic power generation facilities}

The present invention relates to energy management monitoring and a control method for the economical operation of a building-integrated photovoltaic power generation facility, and specifically, a time series exponential smoothing technique is used to utilize sunlight installed on an exterior wall or glass window of a building as industrial or commercial power. Energy management for economical operation of building-integrated photovoltaic power generation facilities, which predicts power demand forecast and generation amount and compares the amount of solar power generation installed in the building and power consumption based on this to enable economical operation according to industrial or commercial purposes It relates to monitoring and its control method.

Building-integrated photovoltaic power generation facilities are installed on the existing rooftops, and as one of the countermeasures to solve the difficulties of expanding capacity and securing the installation area, they can be installed on the exterior walls and glass windows of buildings, as well as efficient power use in conjunction with energy storage devices. do.

However, as the purpose of use of buildings is classified into industrial such as factories and commercial buildings such as commercial buildings, power usage patterns are different. Therefore, energy management that enables economic operation control based on the analysis of power consumption and solar power generation according to the purpose of the building Monitoring and control methods are needed.

In the present invention, economical operation by determining the battery charge/discharge schedule by determining the power consumption characteristics of the building load based on the accumulated data for load management according to the commercial or industrial purpose of the building, and deriving the power consumption through the generation amount prediction A possible energy management monitoring and control method is provided.

The energy management monitoring and control method for the economical operation of the building-integrated photovoltaic power generation facility proposed in the present invention includes a collecting unit that collects photovoltaic power generation information, a PCS unit providing PCS information of the energy storage device, and the energy storage It is configured to include a battery unit that provides battery information of the device, a setting unit that sets environmental information for the solar power generation facility and the energy storage device, and a monitoring unit that integrally manages the information of the energy storage device.

In addition, a demand forecasting unit for predicting the demand according to the hourly power demand and temperature correction, a power generation forecasting unit for predicting the hourly solar power generation data, and the demand forecasting unit and power generation forecasting unit data based on industry and industry It consists of a control operation unit that provides economic operation.

Through the present invention, it is possible to predict the amount of solar power produced in a building according to temperature and weather by date and time, and to analyze the electric load demand pattern according to the industrial and industrial purpose of the building, so that the electricity supply in the building can be effectively managed. This has the effect of greatly improving the convenience of management.

Through the present invention, it is possible to maximize the self-consumption in the building and suppress the load, thereby providing flexibility to the power system, thereby improving the quality of the product.

1 is a main flowchart of an energy management monitoring and control method for economical operation of a building-integrated photovoltaic power generation facility according to an embodiment through the present invention.
FIG. 2 is a main screen of an energy management monitoring and control method for economical operation of a building-integrated photovoltaic power generation facility according to an embodiment through the present invention.
3 is a PCS and PV screen for energy management monitoring and control method for economical operation of a building-integrated photovoltaic power generation facility according to an embodiment through the present invention
4 is a battery screen for energy management monitoring and control method for economical operation of a building-integrated photovoltaic power generation facility according to an embodiment through the present invention.
5 is a state information screen for an energy management monitoring and control method for economical operation of a building-integrated photovoltaic power generation facility according to an embodiment through the present invention.
6 is a demand prediction algorithm according to hourly power demand and temperature correction for energy management monitoring and control method for economical operation of a building-integrated photovoltaic power generation facility according to an embodiment through the present invention.
7 is a photovoltaic power generation amount prediction algorithm for energy management monitoring and control method for economical operation of a building-integrated photovoltaic power generation facility according to an embodiment through the present invention.
8 is a commercial operation scenario for an energy management monitoring and control method for economical operation of a building-integrated photovoltaic power generation facility according to an embodiment through the present invention.
9 is an industrial operation scenario for an energy management monitoring and control method for economical operation of a building-integrated photovoltaic power generation facility according to an embodiment through the present invention.

The energy management monitoring and control method for the economical operation of the building-integrated photovoltaic power generation facility proposed in the present invention includes a collecting unit that collects photovoltaic power generation information, a PCS unit providing PCS information of the energy storage device, and the energy storage It is configured to include a battery unit that provides battery information of the device, a setting unit that sets environmental information for the solar power generation facility and the energy storage device, and a monitoring unit that integrally manages the information of the energy storage device.

In addition, a demand forecasting unit for predicting the demand according to the hourly power demand and temperature correction, a power generation forecasting unit for predicting the hourly solar power generation data, and industrial and commercial It consists of a control operation unit that provides economic operation.

The energy management monitoring and control method for the economical operation of the building-integrated photovoltaic facility will be described in detail with reference to the accompanying drawings.

In adding reference numerals to the components of the drawings, only the same components are to have the same reference numerals as possible even if they are displayed on different drawings, and a known function determined to unnecessarily obscure the gist of the present invention. and detailed description of the configuration will be omitted.

Also, directional terms such as 'top', 'bottom', 'front', 'back', etc. are used in connection with the orientation of the disclosed figure(s). The directional terminology is used for purposes of illustration and not limitation, as components of embodiments of the present invention may be positioned in various orientations.

Energy management monitoring and its control method for economical operation of a building-integrated photovoltaic power generation facility according to a preferred embodiment of the present invention is a system that performs an optimal operation function of power and manages a load at the same time by monitoring and analyzing the amount of electricity consumption. 1 is an embodiment through the present invention, including determining the power consumption characteristics of the building load based on the accumulated data for load management, and determining the charge/discharge schedule for the battery by deriving the power consumption through the generation amount prediction It is composed like the main flowchart of energy management monitoring and control method for economic operation of building-integrated photovoltaic power generation facility by

2 is a main screen for energy management monitoring and control method for the economical operation of a building-integrated photovoltaic power generation facility according to an embodiment of the present invention. provide information.

The energy storage device status provides information currently displayed for standby, operation, charging, and discharging, the battery status provides real-time battery charge rate information, and the solar power status provides generation information on the real-time power generation status, and the power The operation provides the amount of electricity for grid transmission and battery charging.

3 is a PCS and PV screen for energy management monitoring and control method for economic operation of a building-integrated photovoltaic power generation facility according to an embodiment through the present invention, PCS information, PV information, PCS state, error code information provides

The PCS information provides power, current, and voltage information, the solar information provides power, current, and frequency information, and the PCS status information displays charging, discharging, standby, stop, and failure information, and the error code provides the error message provided by the PCS.

At this time, if there is no error code in the PCS, it is displayed as NONE. If there is an error code, the corresponding error is displayed, and the error list and operation history function are activated.

4 is a battery screen for the energy management monitoring and control method for the economical operation of the building-integrated photovoltaic power generation facility according to an embodiment through the present invention, and provides status information and error code information.

The status information provides power, voltage, current, SOH, and SOC information, and the error code information provides information such as overvoltage, overcurrent, overcharge, and overdischarge.

5 is a state information screen for energy management monitoring and control method for economical operation of a building-integrated photovoltaic power generation facility according to an embodiment through the present invention, providing system setting, battery setting, PCS control and setting information. .

The system setting provides the maximum battery voltage, battery minimum voltage, maximum charge amount, battery capacity, PV capacity and charge amount, and battery setting can set auto mode and initialization mode for operation, and PCS control and setting information is automatic, manual, You can control operation, stop, schedule, time, initialization, restart, etc.

6 is a view showing the collection of load data with a demand prediction algorithm according to hourly power demand and temperature correction for energy management monitoring and control method for economic operation of a building-integrated solar power generation facility according to an embodiment through the present invention, KEPCO Based on the electricity billing system, the classification was performed by season, and the group patterns were filtered by dividing the classified loads into weekdays and weekends. Extract and filter the forecast date and dates with similar patterns.

By extracting similar weather data for additional correction of the collected data, hourly power demand forecasting through the data average value, and demand forecasting information according to the hourly power demand and temperature correction are derived.

7 is a meteorological forecast data of the Korea Meteorological Administration for predicting the amount of photovoltaic power generation with a photovoltaic power generation amount prediction algorithm for energy management monitoring and control method for economic operation of a building-integrated photovoltaic power generation facility according to an embodiment through the present invention; was used for forecasting, and the amount of insolation and cloudiness were used for weather measurement information.

The solar radiation forecasting model is a machine learning model SVR by establishing a power generation prediction model from the finally predicted insolation, weather forecast, and weather measurement data using weather forecast and weather measurement data, and a Grid Search method. Optimize the model by finding suitable parameters for

The optimized model derives final prediction data by simplifying the model by removing variables that do not affect model performance by using a backward elimination method.

8 is a commercial operation scenario for the energy management monitoring and control method for the economical operation of the building-integrated photovoltaic power generation facility according to an embodiment through the present invention, comparing the amount of solar power generation and the commercial power consumption.

When the commercial power consumption is higher than the above solar power generation, if the battery SOC is 91%, the battery is discharged (mode 1) at the predicted peak time 2 hours before the current time or the load power peak time, and the battery is discharged before the peak time (mode 2) If not, proceed with battery charging (mode 3).

When the commercial power consumption is lower than the above solar power generation, when the battery soc is 91%, the battery is discharged (mode 4,5) at the predicted peak time 2 hours before the current time or the peak time of the load power, and the battery is discharged before the peak time Discharge standby (mode 6) and if the soc is 9%, the battery is discharged (mode7), otherwise, the battery is charged (mode 8), and the battery is discharged (mode9) at the predicted peak time or load power peak time after 2 hours of the current time (mode9), If not, proceed with battery standby (mode 10).

9 is an industrial operation scenario for an energy management monitoring and control method for economical operation of a building-integrated solar power generation facility according to an embodiment through the present invention, and compares the amount of solar power generation and the industrial power consumption.

When the industrial power consumption is higher than the solar power generation amount, if the battery SOC is 91%, the battery is discharged (mode 1) if the predicted peak time 2 hours before the current time or the load power peak time, and the battery is discharged before the peak time Standby (mode 2), if not, proceed with battery charging (mode 3).

When the industrial power consumption is lower than the above solar power generation, if the battery soc is 91%, the load prediction is 2 hours before the current time. At the peak time or the maximum load, the battery is discharged (mode 4), and if the peak time is over, the battery is discharged ( mode 5) and if not, the predicted peak time or load power peak time 2 hours before the current time, and the battery is fully charged at light load (mode 6), otherwise the battery is discharged (mode 7), the predicted peak time or load power peak 2 hours after the current time In case of time, it proceeds to battery standby (mode 8).

Through this, it is possible to predict the amount of solar power produced in the building according to the temperature and weather by date and time, and to analyze the electric load demand pattern according to the industrial and industrial purpose of the building. Convenience can be greatly improved. In addition, it is possible to maximize the self-consumption in the building and suppress the load, thereby providing flexibility to the power system and improving the quality of the product.

Claims (1)

A collection unit that collects building-integrated solar power generation information, a PCS unit that provides PCS information of the energy storage device, a battery unit that provides battery information of the energy storage device, and the environment for the solar power generation facility and energy storage device A setting unit for setting information, and a monitoring unit for integrally managing the information of the energy storage device;
A demand forecasting unit for predicting the demand according to the hourly power demand and temperature correction, a power generation forecasting unit for predicting the hourly solar power generation data, and economical according to commercial and industrial based on the, demand forecasting and power generation forecasting data Energy management monitoring and control method for economical operation of a building-integrated photovoltaic power generation facility that provides a control operation unit providing operation.

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