TWM555983U - Generated power assessment device for solar panel - Google Patents

Abstract

The novel solar photovoltaic panel power generation quantity evaluation device includes an input device, a receiving unit, a processing unit, an evaluation unit, and a display unit. Among them, the long-term meteorological data of each place are established by the quantity evaluation unit, so that the input requirements Set the specifications of solar panels used in the area to predict and evaluate the long-term meteorological data of the built-in areas. The evaluation and forecast calculation at the place where solar photovoltaic panels are to be installed in advance can be performed at any time during a statistical period. The obtained power generation forecast is to achieve effective control of solar photovoltaic panels to achieve the best power generation, thereby improving the use efficiency of maximum energy conversion.

Description

Solar photovoltaic panel power generation amount evaluation device

This creation relates to the design of a device for evaluating power generation, in particular to a device for evaluating power generation of solar photovoltaic panels.

With the advancement of science and technology and the continuous development of industrialization, the overall environment is in a state of science and technology. The demand for electricity is increasing, but in view of the limited energy resources of the earth, the awareness of environmental protection, and the safety and cleanliness of the people. Energy demand, and also under the premise of not setting up a new power plant, the use of renewable energy and alternative energy is the future trend, and many renewable energy sources include hydropower, wind energy, geothermal, solar energy and ocean tides, etc. These aforementioned renewable energy sources are converted into power sources for use. Therefore, they can effectively convert economical sources of renewable energy sources into power sources. It has become an important industrial development policy for advanced science and technology countries that considers power generation and environmental protection, among which solar energy is used as a renewable energy source. First, solar energy is the most promising energy source in renewable energy. It has the characteristics of pollution-free, pollution-free, and inexhaustible. It is very suitable for the location of Taiwan near the Tropic of Cancer. Technical development of photovoltaic power generation.

However, when the current solar energy system is installed, it is installed in a manner recognized by the installer, so that the solar system after installation can only receive the sunlight intensity in a passive manner, but due to the actual daily reception The sunlight is constantly changing. Therefore, if the solar energy is to be converted into a power source for efficient output use, there will be a certain degree of gap with actual cognition. Therefore, if it is impossible to effectively grasp the role of the solar system in any statistical period, Information on the amount of electricity generated over a period of time has limited help in the efficient reuse of renewable energy.

Therefore, the purpose of this new model is to provide a solar photovoltaic panel power generation capacity evaluation device. Based on the weather data of many years in various places, the solar photovoltaic panels installed in a place can be used to generate power at any time in a statistical period. Prediction and evaluation to effectively improve the use of the best conversion efficiency.

Therefore, the novel solar photovoltaic panel power generation amount evaluation device includes an input device for inputting information of various types of solar photovoltaic panel information, a receiving unit connected to the input device, a processing unit connected to the receiving unit, and respectively An evaluation unit and a display unit connected to the processing unit; in particular, the evaluation unit has a data module connected to the processing unit and a prediction calculation module connected to the data module and the processing unit, and The above-mentioned data module is built with long-term meteorological data of various places. As for the prediction calculation module, the type, specification and quantity of a solar photovoltaic panel input by the receiving unit through the input device can be integrated with the data. The data in the module is used to predict and evaluate the efficiency of power generation conversion after receiving solar radiation in various regions; therefore, in order to effectively control the generation of electricity that can be obtained at any time in the statistical period at the place where the solar panel is installed So that it can be inputted in advance by the input device connected to the receiver to the solar photovoltaic panel to be set in an area Type, specification, and quantity (that is, the type of system), so that the processing unit can process and analyze the input information, and connect to the evaluation unit at the same time, so as to make perfect and accurate predictions based on various types of use status Calculate the calculation of the solar photovoltaic panels with any specified conversion efficiency in one place and the calculation of the power generation at any time during a statistical period. This can effectively and reliably evaluate the optimized conversion efficiency of the solar power generation systems installed in each region. The forecast of power generation is to improve the efficiency of energy use and to maximize the benefits of solar energy with the name of renewable energy.

The foregoing and other technical contents, features, and effects of the present invention will be clearly understood in the following detailed description of the preferred embodiments with reference to the drawings.

Referring to FIG. 1, a preferred embodiment of the present invention. The solar photovoltaic panel power generation evaluation device 1 of this embodiment includes an input device 11 for inputting information of various types of solar photovoltaic panels (not shown). The receiving unit 12 connected to the input device 11, a processing unit 13 connected to the receiving unit 12, and an evaluation unit 14 and a display unit 15 respectively connected to the processing unit 13. Among them, the receiving unit 12 can receive various solar photovoltaic devices. Input the type and specification information (ie system type) used by the board (not shown), and process and analyze the information by the processing unit 13 against the information of the receiving unit 12, and the processing unit 13 will The processing and analysis results are displayed on the display unit 15.

Continuing from the foregoing, the evaluation unit 14 has a data module 141 and a prediction calculation module 142 connected to the data module 141 and the processing unit 13; among them, the data module 141 is built with long-term local Meteorological data information, and the aforementioned meteorological data information is the establishment of time-dependent temperature, humidity, airflow, and solar radiation data in various regions in the past ten years, thereby forming a large-scale data database; in addition, the The prediction calculation module 142 can receive the information of the type, specifications and quantity of each solar photovoltaic panel inputted by the input unit 11 for the receiving unit 12, and construct the data module 141 according to the instruction of the processing unit 13. The data in the data is used to predict and evaluate the power generation of the region to be set at any time during a statistical period. That is, the forecast calculation module 142 will be based on the input type, specifications and quantity, etc. Data such as temperature, humidity, airflow, and solar radiation are used to calculate and predict the prediction and evaluation of any specified conversion efficiency and power generation of the solar photovoltaic panel settings, and convert them into a number Value through the display unit 15 connected to the processing unit 13 to display the value on the same time, and the calculation prediction module 142 is more directed to the receiving orientation and angle of the solar photovoltaic panel to receive the amount of solar radiation to be set in each area The benefit evaluation data is displayed and converted into a statistical table for analysis and comparison, which is displayed by the display unit 15 according to the group processing and analysis results of the processing unit 13.

Referring to FIG. 1 and FIG. 2, in actual application, the new model can first use the input 11 (connected to the receiving unit 12) (shown as a simplified diagram) for the type, specification and type of the solar photovoltaic panel to be used. The input of the quantity (that is, the type of system) and related information such as the area to be set, so that the receiving unit 12 is linked to the processing unit 13 one by one according to the received message. At this time, the processing unit 13 will be based on the received information. Each message is further connected to the evaluation unit 14 for processing and analysis, that is, the data set in the data module 141 for the input solar photovoltaic panel and the area to be set through the calculation prediction module 142 Data for forecasting and evaluation of any specified conversion efficiency beforehand if the solar photovoltaic panel is to be installed in a local setting, that is to say, it is reused and built in the data module 141 for a period of nearly ten years. Calculate the hourly temperature, humidity, airflow, and solar radiation data, and calculate the power generation in a statistical period to effectively predict the use efficiency of the solar photovoltaic panel's best conversion efficiency. Of course, different types, specifications, and quantities are input. Of course, the prediction and evaluation results of the calculations performed will also show different conversion efficiency values. Furthermore, the calculation prediction module 142 can also be specified according to the input. A single message of the solar photovoltaic panel is used to synchronize the numerical evaluation and prediction display of the conversion efficiency that can be achieved in the desired area, as shown in Figure 2, or to synchronize the information of the different types of solar photovoltaic panels. The evaluation, prediction, etc. of a better conversion efficiency value is performed in a single area, and is also converted into a data, and the display unit 15 connected to the processing unit 13 is used to display the results of processing and analysis according to the processing unit 13 at the same time. At the same time, the processing unit 13 can also be set to display the processing results in a statistical form and connected to the display unit 23 to display the processing results of the processing unit 21. In this way, the solar photovoltaic panel power generation amount evaluation device 1 to design for various types of use conditions, so that it can effectively predict and evaluate the installation of solar power generation systems in various regions The calculation of the amount of power generation optimized by the conversion efficiency to improve the efficiency of energy use, to maximize the potential of solar energy with the name of renewable energy, while effectively grasping the optimal power generation of solar photovoltaic panels into energy efficiency.

Summarizing the foregoing, the new solar photovoltaic panel power generation evaluation device has a long-term meteorological data in each evaluation unit, and a design that can predict and evaluate calculations based on the input information and the meteorological data. Set solar photovoltaic panels for evaluation and forecast calculation to calculate the amount of power that can be obtained at any time during a statistical period. Therefore, the type, specifications and number of solar photovoltaic panels in the area to be set can be performed before installation. Complete and accurate prediction and evaluation of a solar photovoltaic panel with any specified conversion efficiency in one place, and a forecast of the amount of power generation that can be obtained at any time during a statistical period, so as to effectively and accurately grasp the desired solar power generation system in each region to obtain the best The amount of power generation, in order to improve the efficiency of the maximum conversion of energy, and to achieve the ultimate benefit of the potential of solar energy with the name of renewable energy, it can indeed achieve the purpose of this new type.

However, the above are only for explaining the preferred embodiments of the present invention. When the scope of the implementation of the present invention cannot be limited by this, that is, the simple equivalent changes and modifications made according to the scope of the patent application of the new application and the content of the new specification , All should still fall within the scope of this new patent.

(This model)

1‧‧‧Solar photovoltaic panel power generation evaluation device

11‧‧‧ Input

12‧‧‧Receiving unit

13‧‧‧processing unit

14‧‧‧ Evaluation Unit

15‧‧‧display unit

141‧‧‧Data Module

142‧‧‧Prediction Calculus Module

FIG. 1 is a schematic block diagram of a preferred embodiment of the present invention.

FIG. 2 is a schematic diagram of the power generation forecast and evaluation calculation of the solar photovoltaic panel in the preferred embodiment.

1‧‧‧Solar photovoltaic panel power generation evaluation device

11‧‧‧ Input

12‧‧‧Receiving unit

13‧‧‧processing unit

14‧‧‧ Evaluation Unit

15‧‧‧display unit

141‧‧‧Data Module

142‧‧‧Prediction Calculus Module

Claims (2)

A solar photovoltaic panel power generation amount evaluation device includes an input device for inputting information of various types of solar photovoltaic panel information, a receiving unit connected to the input device, a processing unit connected to the receiving unit, and the receiving unit respectively An evaluation unit and a display unit connected to the processing unit; wherein, the receiving unit can receive input of various types and specifications of the solar photovoltaic panels, and the information is processed and analyzed by the processing unit. In addition, the evaluation unit has A data module and a prediction calculation module connected to the data module and the processing unit. The aforementioned data module has weather data information for many years in various places. As for the prediction calculation module, The type, specification, and data built into the data module of the solar photovoltaic panel are used to predict and evaluate the power generation efficiency of solar radiation conversion after being set in each area, and convert it into a value. The results of processing and analysis by this processing unit are shown above. According to the solar photovoltaic panel power generation amount evaluation device described in item 1 of the scope of the patent application, wherein the meteorological data information of the data module is data such as temperature, humidity, airflow, and insolation amount in each region in the past ten years.