KR20240039867A - Simulation system and method for caculating electric power of construction based data - Google Patents

Abstract

The present invention provides a data-based building power calculation simulation system and method. One aspect of the data-based building power calculation simulation system and method according to an embodiment of the present invention includes an existing data storage unit that stores information about existing buildings in use and power use patterns of the existing buildings for a preset period of time; A new data input unit where information about new buildings is input; a power usage calculation unit that calculates power consumption of the new building from the power usage pattern of the existing building by comparing information about the existing building and information about the new building; A renewable power calculation unit that plans the scale of renewable energy facilities that can be installed in the new building based on information about the new building, and simulates and calculates the amount of renewable energy produced by the new renewable energy facility of the planned scale; a renewable power ratio calculation unit that calculates a ratio of the amount of renewable power produced by the new renewable energy facility to the power consumed by the new building; And depending on the ratio of the amount of renewable power produced by the new renewable energy facility to the power consumption of the new building, only renewable power produced by the new and renewable energy facility is used, or renewable power produced by the new and renewable energy facility and external power are used. a power use planning department that plans to use renewable power purchased from renewable energy producers in the new building; Includes.

Description

Data-based building power calculation simulation system and method {SIMULATION SYSTEM AND METHOD FOR CACULATING ELECTRIC POWER OF CONSTRUCTION BASED DATA}

The present invention relates to a data-based building power calculation simulation system and method.

Recently, the use of new and renewable energy facilities such as solar power generation, wind power generation and fuel cells has been increasing. Since the power produced from such renewable energy facilities is often consumed in the power load of buildings, it is important to predict the power load of buildings, i.e. power consumption, in advance and design the scale of new and renewable energy facilities by reflecting this. need.

In addition, if the ratio of electricity produced by new and renewable energy facilities to the power consumed by the building is less than the ratio set according to government policies such as zero energy buildings, it will not be certified as a zero energy building and will not receive the accompanying benefits. do. Therefore, the building's power use must be planned to satisfy the ratio of power produced by new and renewable energy facilities to the building's power consumption.

However, in the past, only technologies for designing the scale of new and renewable energy facilities considering the absolute amount of power consumption of buildings have been disclosed, and new and renewable energy facilities that take into account the ratio of the amount of power produced by new and renewable energy facilities to the power consumption of buildings. Currently, no technology has been proposed to plan the power use of buildings from the design of energy facilities.

Republic of Korea Patent No. 2259860 (Name: Renewable energy facility system design method reflecting the energy consumption characteristics of buildings) Republic of Korea Patent No. 2165639 (Name: Urban energy supply planning method) Republic of Korea Patent Publication No. 2016-0056643 (Name: Life-cycle energy evaluation system and method for buildings to save energy by applying new and renewable energy) Republic of Korea Patent No. 1467221 (Name: Method for calculating optimal design capacity of complex new and renewable energy system) Republic of Korea Patent No. 1113335 (Name: Building Energy Efficiency Evaluation System)

The present invention is intended to solve the problems caused by the prior art as described above, and the purpose of the present invention is to determine the scale of new and renewable energy facilities according to the power consumption of the building, the power consumption of the building, and the production from the new and renewable energy facilities of the building. It provides a data-based building power calculation simulation system and method that can be used to plan the power use of a building by considering the ratio of the generated power.

One aspect of the data-based building power calculation simulation system and method according to the embodiment of the present invention for achieving the above-described object is information about the existing building in use and the power use pattern of the existing building during a preset period. Existing data storage to be stored; A new data input unit where information about new buildings is input; a power usage calculation unit that calculates power consumption of the new building from the power usage pattern of the existing building by comparing information about the existing building and information about the new building; A renewable power calculation unit that plans the scale of renewable energy facilities that can be installed in the new building based on information about the new building, and simulates and calculates the amount of renewable energy produced by the new renewable energy facility of the planned scale; a renewable power ratio calculation unit that calculates a ratio of the amount of renewable power produced by the new renewable energy facility to the power consumed by the new building; And depending on the ratio of the amount of renewable power produced by the new renewable energy facility to the power consumption of the new building, only renewable power produced by the new and renewable energy facility is used, or renewable power produced by the new and renewable energy facility and external power are used. a power use planning department that plans to use renewable power purchased from renewable energy producers in the new building; Includes.

In one aspect of an embodiment of the present invention, the information about the existing building stored in the existing data storage unit and the information about the new building input into the new data input unit include the location on the map and the floor height of the existing building and the new building. , roof area and slope, exterior wall direction and area, floor height and separation distance from adjacent buildings, type according to purpose of use, total floor area, and the total power load installed on the building.

In one aspect of the embodiment of the present invention, the renewable power calculation unit sets an installation area of the new building where the renewable energy equipment is installed and can produce electricity based on information about the new building, and Considering the power generation efficiency of energy facilities, plan the size of the new renewable energy facilities with the optimal and maximum number of units that can be installed in the installation area of the new building, and then calculate the amount of renewable power produced by the optimal and maximum number of new renewable energy facilities, respectively. Through simulation, the power production from the optimal and maximum number of renewable energy facilities is calculated as the optimal power production and maximum power production, respectively.

One aspect of the embodiment of the present invention is to install the renewable energy facility on a scale planned or corrected by the renewable electric power calculation unit, according to the ratio of the optimal power production or maximum power production to the power consumption of the new building. It further includes an energy facility design unit that designs the scale, and the power use planning unit uses only renewable power produced by the renewable energy facility of the scale designed by the energy facility design department, or uses only renewable power produced by the renewable energy facility of the scale designed by the energy facility design department. It is planned to use the renewable power produced by the renewable energy facility and the renewable power purchased from the renewable energy producer in the new building.

In one aspect of the embodiment of the present invention, if the ratio of the optimal power production to the power consumption of the new building is more than a preset standard renewable power ratio, the energy equipment design unit selects the new and renewable energy equipment by a number exceeding the optimal number. The scale is designed, and the power use planning department plans to use only renewable power produced by the renewable energy facility of the scale designed by the energy facility design department for the new building.

In one aspect of an embodiment of the present invention, if the ratio of the optimal power production to the power consumption of the new building is less than the reference renewable power ratio but the ratio of the maximum power production is more than the reference renewable power ratio, the energy facility design department Designs the scale of the renewable energy facilities to the maximum number, and the power use planning department plans to use only renewable power produced by the renewable energy facilities of the scale designed by the energy facility design department for the new building. .

In one aspect of the embodiment of the present invention, if the ratio of the maximum power production to the power consumption of the new building is less than the standard renewable power ratio, the energy facility design unit designs the scale of the new and renewable energy facility to an optimal number. And, the power use planning department plans to use the renewable power produced by the renewable energy facility on a scale designed by the energy facility design department and the renewable power purchased from an external renewable energy producer for the new building.

One aspect of the power calculation simulation method for a data-based building according to an embodiment of the present invention is a simulation method for calculating the power of a building using the power calculation simulation system for a data-based building of claim 1: The power calculation simulation method includes a power consumption calculation step in which the power consumption calculation unit calculates the power consumption of the new building from the power usage pattern of the existing building by comparing information about the existing building and information about the new building; The renewable power calculation unit plans the scale of the new renewable energy equipment that can be installed in the new building based on information about the new building, and simulates and calculates the renewable electric power produced by the new renewable energy equipment of the planned scale. Power calculation step; A renewable power ratio calculation step in which the renewable power ratio calculation unit calculates a ratio of the amount of renewable power produced by the new renewable energy facility to the power consumed by the new building; The energy facility design department designs the scale of the new and renewable energy facility to the scale planned or corrected in the renewable power calculation step according to the ratio of the amount of renewable power produced by the new and renewable energy facility to the power consumption of the new building. energy facility design stage; And the power use planning department uses only renewable power produced by the renewable energy facility of the scale planned in the energy facility design stage according to the ratio of the amount of renewable power produced by the new renewable energy facility to the power consumption of the new building. Alternatively, a power use planning step of planning to use renewable power produced by the renewable energy facility of the scale planned in the energy facility design step and renewable power purchased from an external renewable energy producer for the new building; Includes.

In one aspect of the embodiment of the present invention, the step of calculating the amount of renewable power is performed so that the renewable power amount calculator can produce power based on information about the new building. An installation area setting step of setting an installation area; A facility size planning step in which the renewable power calculation unit plans the scale of the new renewable energy facility with an optimal and maximum number of units that can be installed in the installation area of the new building in consideration of the power generation efficiency of the new renewable energy facility; And the renewable power calculation unit simulates the renewable power produced by the optimal and maximum number of renewable energy facilities, respectively, and calculates the power production from the optimal and maximum number of new and renewable energy facilities into optimal power production and maximum power production, respectively. A simulation step of calculating the amount of renewable power; Includes.

In one aspect of the embodiment of the present invention, if the ratio of the optimal power production to the power consumption of the new building calculated in the renewable power ratio calculation step is more than a preset reference renewable power ratio, in the energy facility design step, The energy facility design unit designs the scale of the renewable energy facility with a number exceeding the optimal number, and in the power use planning step, the power use planning section designs the new and renewable energy facility at a scale designed in the energy facility design step. It is planned that only the renewable electricity produced will be used in the new building.

In one aspect of an embodiment of the present invention, the ratio of the optimal power production to the power consumption of the new building calculated in the renewable power ratio calculation step is less than the reference renewable power ratio, but the ratio of the maximum power production is the reference renewable power ratio. If the power ratio is greater than or equal to the power ratio, in the energy facility design step, the energy facility design unit designs the scale of the renewable energy facility with the maximum number, and in the power use planning step, the power use planning unit designs the energy facility design step. It is planned that only renewable power produced by the new renewable energy facility of the designed scale will be used in the new building.

In one aspect of an embodiment of the present invention, if the ratio of the maximum power production to the power consumption of the new building calculated in the renewable power ratio calculation step is less than the reference renewable power ratio, in the energy facility design step, the energy The facility design unit designs the scale of the new and renewable energy facilities at an optimal number, and in the power use planning step, the power use planning section designs renewable power produced by the new and renewable energy facilities at the scale designed in the energy facility design step. and plan to use renewable power purchased from the renewable energy producer for the new building.

In the data-based building power calculation simulation system and method according to an embodiment of the present invention, the new building's power consumption calculated by considering the power use pattern of the existing building and the new and renewable energy installed thereon based on information about the new building. The optimal and maximum scale of the facility is planned, the amount of renewable power produced by the new renewable energy facility is calculated through simulation, and the final ratio of the amount of renewable power produced by the new and renewable energy facility to the power consumption of the new building is set to a preset ratio. The power use of new buildings is finally designed to meet the requirements. Therefore, according to embodiments of the present invention, it is possible to design optimal new renewable energy facilities and design power use in buildings.

1 is a conceptual diagram schematically showing a power calculation simulation system for a data-based building according to an embodiment of the present invention.
Figure 2 is a configuration diagram showing an embodiment of the present invention.
Figure 3 is a flow chart showing a power calculation simulation method for a data-based building according to an embodiment of the present invention.

Hereinafter, the data-based building power calculation simulation system according to an embodiment of the present invention will be described in more detail with reference to the attached drawings.

Figure 1 is a conceptual diagram schematically showing a power calculation simulation system for a data-based building according to an embodiment of the present invention, and Figure 2 is a configuration diagram showing an embodiment of the present invention.

Referring to Figures 1 and 2, the data-based building power calculation simulation system 10 according to this embodiment (hereinafter referred to as 'power calculation system') plans the scale of the renewable energy facility 1 and , After simulating and calculating the amount of renewable power produced by the planned renewable energy facility (1), the power use of the new building (B2) is ultimately planned. The power calculation system 10 for this purpose includes an existing data storage unit 100, a new data input unit 200, a power usage calculation unit 300, a regenerative power amount calculation unit 400, and a regenerative power ratio calculation unit 500. , includes an energy facility design department 600 and a power use planning department 700.

More specifically, the existing data storage unit 100 stores information about the existing building (B1) and the power usage pattern of the existing building (B1). Here, 'existing building (B1)' refers to the existing building (B1). This refers to a building that has been completed and is in use, and the existing data storage unit 100 will store information and power usage patterns regarding a plurality of existing buildings (B1). In addition, information about the existing building (B1) stored in the existing data storage unit 100 includes, for example, the location of the existing building (B1) on the map, floor height, rooftop area and slope, exterior wall direction and area, It may include the floor height and separation distance from adjacent buildings, type according to purpose of use, total floor area, and the total power load installed in the building.

Next, information about the new building B2 is input into the new data input unit 200. Here, the 'new building (B2)' is a building that is subject to power calculation by the power calculation system 10. Not only new buildings but also buildings that are already completed and in use are used in the power calculation system 10. This refers to a building that is newly subject to electricity generation. Information about the new building (B2) input to the new data input unit 200 includes the location of the new building (B2) on the map, floor height, rooftop area and slope, direction and area of the exterior wall, floor height of the adjacent building, and It may include separation distance, type according to purpose of use, total floor area, and total power load installed in the building.

Next, the power usage calculation unit 300 calculates the power consumption of the new building (B2). In this embodiment, the power usage calculation unit 300 compares information about the existing building (B1) and information about the new building (B2) and calculates the new building (B1) from the power usage pattern of the existing building (B1). Calculate the power consumption of the building (B2).

And the renewable power amount calculation unit 400 simulates and calculates the renewable power amount produced by the renewable energy facility 1. In particular, in order to calculate the amount of renewable power, the renewable energy calculation unit 400 first uses the scale of the renewable energy facility 1 that can be installed in the new building B2 based on information about the new building B2. plan.

In this embodiment, the renewable power calculation unit 400 sets the installation area of the new building (B2) based on information about the new building (B2). Here, the 'installation area' refers to an area where the renewable energy facility 1 is installed and can produce electricity based on information about the new building B2. Therefore, substantially, the location and area of the installation area of the new building B2 will be set differently depending on the type of the new renewable energy facility 1. For example, in the case of solar power generation equipment, the area excluding the area used for other purposes on the rooftop of the new building (B2) or the exterior wall facing south, east, or west is the installation area of the new building (B2). can be set. In the case of a wind power generation facility, the area on the rooftop of the new building (B2), excluding the area used for other purposes, may be set as the installation area of the new building (B2).

In addition, the renewable energy calculation unit 400 determines the optimal and maximum number of renewable energy facilities (1) that can be installed in the installation area of the new building (B2) in consideration of the power generation efficiency of the new and renewable energy facilities (1). ) Plan the size of. And the renewable power amount calculation unit 400 simulates the amount of renewable power produced by the optimal and maximum number of new and renewable energy facilities 1, respectively, to produce power produced by the optimal and maximum number of new and renewable energy facilities 1. are calculated as the optimal power production and maximum power production, respectively.

Here, the 'optimal number' is the number of units capable of producing maximum renewable power from each of the renewable energy facilities 1 installed in the installation area of the new building B2, and the 'maximum number' is the number of units capable of producing the maximum renewable power in the new building B2. It means the maximum number of the above-mentioned renewable energy facilities (1) that can be installed in the installation area of (B2). For example, if solar power generation facilities are installed in all installation areas of the new building (B2), the total amount of renewable power produced by solar power generation facilities will be maximized, but the solar power facilities may be damaged due to shading due to mutual interference. The power production per unit will be relatively reduced. Therefore, the production amount of renewable power per unit in the renewable energy facility 1 is higher in the case of the optimal number of units than in the case of the maximum number, but the total amount of renewable power production in the renewable energy facility 1 is higher than the maximum number of units. case will be higher than the optimal logarithmic case.

Next, the renewable power ratio calculation unit 500 calculates the ratio of the amount of renewable power produced by the new renewable energy facility (1) to the power consumed by the new building (B2). Substantially, the renewable power ratio calculation unit 500 calculates the ratio of the optimal power production and maximum power production to the power consumption of the new building (B2).

And the energy facility design unit 600 designs the scale of the renewable energy facility 1. In this embodiment, the energy equipment design unit 600 plans the scale of the renewable power calculation unit 400 according to the ratio of the optimal power production or maximum power production to the power consumption of the new building (B2). Alternatively, the scale of the renewable energy facility (1) is designed on a scale corrected for this.

More specifically, when the ratio of the optimal power production to the power consumption of the new building (B2) is more than a preset standard renewable power ratio, the energy facility design unit 600 selects the new building (B2) as a number exceeding the optimal number. Design the scale of renewable energy facilities (1). In other words, if the amount of renewable power produced by the optimal number of renewable energy facilities 1 is more than the standard renewable power ratio, the energy facility design unit ( 600) designs the scale of the renewable energy facility (1) to exceed the optimal number.

However, the energy facility design unit 600 optimizes the scale of the renewable energy facility 1 in order to prepare for an unexpected decrease in the amount of renewable power produced by the new and renewable energy facility 1 due to external environments, etc. Design with logarithms over logarithms. At this time, the energy facility design unit 600 adjusts the number of new renewable energy facilities 1 to the optimal number or to a number exceeding this ratio according to the ratio of the optimal power production exceeding the power consumption of the new building B2. It can be designed.

Meanwhile, if the ratio of the optimal power production to the power consumption of the new building (B2) is less than the standard renewable power ratio, but the ratio of the maximum power production is more than the standard renewable power ratio, the energy facility design unit 600 Designs the scale of the renewable energy facility (1) with the maximum number. In other words, the amount of renewable power produced by the optimal number of renewable energy facilities 1 alone is less than the reference renewable power ratio, but the amount of renewable power produced by the maximum number of new and renewable energy facilities 1 is less than the reference renewable power ratio. In the case of the ratio or more, the energy facility design unit 600 is configured to ensure that the rate of renewable power produced by the new and renewable energy facility 1 is greater than or equal to the standard renewable power rate even though the efficiency of the new and renewable energy facility 1 is reduced. The scale of the renewable energy facilities (1) is designed to be maximum.

In addition, when the ratio of the maximum power production to the power consumption of the new building (B2) calculated by the renewable power ratio calculation unit 500 is less than the standard renewable power ratio, the energy facility design unit 600, Design the scale of the renewable energy facility (1) with the optimal number. In other words, if the amount of renewable power produced by the maximum number of renewable energy facilities 1 is less than the standard renewable power ratio, in order to maintain the standard renewable power ratio or higher, renewable energy must be supplied from an external renewable energy producer 2. Since electricity must be purchased, the energy facility design unit 600 designs the scale of the renewable energy facilities 1 to an optimal number so that the new and renewable energy facilities 1 can be used relatively efficiently. However, in this case, since the purchase of renewable power from the renewable energy producer 2 is assumed, the energy facility design unit 600 determines that the power production efficiency of the renewable energy facility 1 is at its maximum. As much as possible, the scale of the renewable energy facilities (1) is designed to be optimal.

Finally, the power usage planning unit 700 uses power of the new building (B2) according to the ratio of the amount of renewable power produced by the new and renewable energy facility (1) to the power consumed by the new building (B2). plan. That is, the power use planning unit 700 uses only renewable power produced by the renewable energy facility 1, or uses the renewable power produced by the new renewable energy facility 1 and the renewable energy producer (2). It is planned to use the renewable power purchased from ) for the new building (B2). Substantially, the power use planning unit 700 uses only renewable power produced by the renewable energy facility 1 of the scale designed by the energy facility design unit 600, or the energy facility design unit 600 Renewable power produced by the renewable energy facility (1) of the designed scale and renewable power purchased from the renewable energy producer (2) will be planned to be used in the new building (B2).

More specifically, the ratio of the optimal power production to the power consumption of the new building (B2) is greater than or equal to the standard renewable power ratio or the consumption of the new building (B2) calculated by the renewable power ratio calculation unit 500. If the ratio of the optimal power production to electric power is less than the reference renewable power ratio, but the ratio of the maximum power production is more than the reference renewable power ratio, the power use planning unit 700, the energy facility design unit 600 It is planned that only renewable power produced by the renewable energy facility (1) of the size designed in will be used in the new building (B2). On the other hand, if the ratio of the maximum power production to the power consumption of the new building (B2) calculated by the renewable power ratio calculation unit 500 is less than the standard renewable power ratio, the power usage planning unit 700 , so that the renewable power produced by the renewable energy facility (1) of the scale designed by the energy facility design department (600) and the renewable power purchased from the new and renewable energy producer (2) are used in the new building (B2). Plan. Of course, the power use planning unit 700 plans to purchase the shortfall of renewable power produced by the renewable energy facility 1 to satisfy the standard renewable power ratio from the renewable energy producer 2. will be.

Hereinafter, the power calculation simulation method of a data-based building according to an embodiment of the present invention will be described in more detail with reference to the attached drawings.

Figure 3 is a flow chart showing a power calculation simulation method for a data-based building according to an embodiment of the present invention.

Referring to FIG. 3, the power calculation simulation method of a data-based building according to this embodiment (hereinafter referred to as 'power calculation method') includes a power consumption calculation step (S100), a regenerative power amount calculation step (S200), and a regenerative power It includes a ratio calculation step (S300), an energy facility design step (S400), and a power use planning step (S500).

More specifically, in the power consumption calculation step (S100), the power usage calculation unit 300 compares the information about the existing building (B1) and the information about the new building (B2) with the existing building ( The power consumption of the new building (B2) is calculated from the power usage pattern of B1). For example, in the power consumption calculation step (S100), location on the map, floor height, rooftop area and slope, direction and area of the exterior wall, floor height and separation distance from adjacent buildings, type according to purpose of use, total floor area, and installation in the building After matching the new building (B2) to the existing building (B1) based on information such as the total power load, the power usage pattern of the existing building (B1) is compared to the existing building (B1) and the new building (B2). ), the power consumption of the new building (B2) can be calculated by correcting the difference between the two according to the information.

Next, in the renewable electric power calculation step (S200), the renewable electric power calculation unit 400 determines the renewable energy equipment (1) that can be installed in the new building (B2) based on the information about the new building (B2). The scale is planned, and the amount of renewable power produced by the renewable energy facility 1 of the planned scale is simulated and calculated. In this embodiment, the renewable power calculation step (S200) includes an installation area setting step (S210), a facility size planning step (S220), and a renewable power simulation step (S230).

In the installation area setting step (S210), the renewable power calculation unit 400 determines the location where the renewable energy facility 1 can be installed to enable power production based on information about the new building B2. Set the installation area for the new building (B2). And in the facility scale planning step (S220), the renewable power calculation unit 400 is the optimal and maximum installable in the installation area of the new building (B2) considering the power generation efficiency of the renewable energy facility (1). Plan the scale of the above-mentioned renewable energy facility (1) in logarithm. Finally, in the renewable electric power simulation step (S230), the renewable electric power calculation unit 400 simulates the renewable electric power produced by the optimal and maximum number of renewable energy facilities 1, respectively, and calculates the optimal and maximum number of renewable energy facilities. The power production from the renewable energy facility 1 is calculated as the optimal power production and maximum power production, respectively.

Meanwhile, in the renewable power ratio calculation step (S300), the renewable power ratio calculation unit 500 calculates the ratio of the amount of renewable power produced by the new renewable energy facility (1) to the power consumed by the new building (B2). Calculate. Substantially, in the renewable power ratio calculation step (S300), the renewable power ratio calculation unit 500 calculates the ratio of the optimal power production and maximum power production to the power consumption of the new building (B2).

And in the energy facility design step (S400), the energy facility design unit 600 designs the scale of the renewable energy facility 1. In particular, in this embodiment, in the energy facility design step (S400), the renewable power amount calculation step according to the ratio of the renewable power amount produced by the new renewable energy facility (1) to the power consumption of the new building (B2). Design the scale of the renewable energy facility (1) according to the scale planned in (S200) or a scale corrected therefor. That is, if the ratio of the optimal power production to the power consumption of the new building (B2) is more than the preset standard renewable power ratio, in the energy facility design step (S400), the energy facility design unit 600 determines the optimal unit. The scale of the new renewable energy facility (1) is designed by the number of excess units. And if the ratio of the optimal power production to the power consumption of the new building (B2) is less than the reference renewable power ratio, but the maximum power production ratio is more than the reference renewable power ratio, in the energy facility design step (S400) , the energy facility design unit 600 designs the scale of the new and renewable energy facility (1) with the maximum number, and the ratio of the maximum power production to the power consumption of the new building (B2) is the reference renewable power ratio. If it is less than that, in the energy facility design step (S400), the energy facility design unit 600 designs the scale of the renewable energy facility 1 with an optimal number.

Finally, in the power use planning step (S500), the power use planning unit 700 is based on the ratio of the amount of renewable power produced by the new and renewable energy facility (1) to the power consumed by the new building (B2). It is planned to use renewable power produced by the renewable energy facility (1) or/and renewable power purchased from an external renewable energy producer (2) in the new building (B2). That is, the ratio of the optimal power production to the power consumption of the new building (B2) is greater than or equal to the preset standard renewable power ratio or is equal to the power consumption of the new building (B2) calculated in the renewable power ratio calculation step (S300). If the ratio of the optimal power production is less than the reference renewable power ratio but the ratio of the maximum power production is more than the reference renewable power ratio, in the power use planning step (S500), the power use planning unit 700, It is planned that only renewable power produced by the renewable energy facility (1) will be used in the new building (B2). However, if the ratio of the maximum power production to the power consumption of the new building (B2) is less than the standard renewable power ratio, in the power use planning step (S500), the power use planning unit 700, Renewable power produced by the renewable energy facility (1) of the scale designed in the facility design stage (S400) and renewable power purchased from an external renewable energy producer (2) are planned to be used in the new building (B2). .

Within the scope of the basic technical idea of the present invention, many other modifications are possible for those skilled in the art, and the scope of the present invention should be interpreted based on the appended claims. will be.

100: existing data storage unit 200: new data input unit
300: Power usage calculation unit 400: Regenerative power calculation unit
500: Renewable power ratio calculation unit 600: Energy facility design unit
700: Power usage planning department

Claims (12)

An existing data storage unit (100) that stores information about the existing building (B1) in use and the power usage pattern of the existing building (B1) for a preset period of time;
A new data input unit 200 where information about the new building (B2) is input;
A power usage calculation unit ( 300);
Based on the information about the new building (B2), the scale of the new renewable energy facility (1) that can be installed in the new building (B2) is planned, and the amount of renewable power produced by the new renewable energy facility (1) of the planned scale is calculated. A renewable power amount calculation unit 400 that simulates and calculates;
A renewable power ratio calculation unit 500 that calculates a ratio of the amount of renewable power produced by the new renewable energy facility (1) to the power consumed by the new building (B2); and
Depending on the ratio of the amount of renewable power produced by the new renewable energy facility (1) to the power consumption of the new building (B2), only the renewable power produced by the new and renewable energy facility (1) is used, or the new and renewable energy facility A power use planning department (700) that plans to use the renewable power produced in (1) and the renewable power purchased from an external renewable energy producer (2) for the new building (B2); A data-based building power calculation simulation system including.
According to claim 1,
The information about the existing building (B1) stored in the existing data storage unit 100 and the information about the new building (B2) input to the new data input unit 200 are the existing building (B1) and the new building. (B2) Based on data including the map location, floor height, rooftop area and slope, exterior wall direction and area, floor height and separation distance from adjacent buildings, type according to purpose of use, total floor area, and the total power load installed on the building. Building power output simulation system.
According to claim 1,
The renewable power calculation unit 400 sets an installation area of the new building (B2) where the renewable energy facility (1) is installed and can produce electricity based on information about the new building (B2), , considering the power generation efficiency of the new and renewable energy facility (1), the size of the new and renewable energy facility (1) is planned as the optimal and maximum number that can be installed in the installation area of the new building (B2), and then the optimal and maximum number of units are calculated. A data-based building that simulates the amount of renewable power produced by the renewable energy facilities (1) and calculates the power production from the optimal and maximum number of new and renewable energy facilities (1) as the optimal power production and maximum power production, respectively. power output simulation system.
According to claim 3,
According to the ratio of the optimal power production or maximum power production to the power consumption of the new building (B2), the renewable energy facility (1) is installed on a scale planned by the renewable power calculation unit 400 or a scale corrected therefor. It further includes an energy facility design unit 600 that designs the scale of,
The power usage planning unit 700 uses only renewable power produced by the renewable energy facility 1 on a scale designed by the energy facility design unit 600, or on a scale designed by the energy facility design unit 600. A data-based building power calculation simulation system that plans to use the renewable power produced by the renewable energy facility (1) and the renewable power purchased from the renewable energy producer (2) in the new building (B2).
According to claim 3,
If the ratio of the optimal power production to the power consumption of the new building (B2) is greater than or equal to the preset standard renewable power ratio,
The energy facility design unit 600 designs the scale of the renewable energy facility 1 with a number exceeding the optimal number, and the power use planning unit 700 designs the scale designed by the energy facility design unit 600. A data-based building power calculation simulation system that plans to use only renewable power produced by the renewable energy facility (1) in the new building (B2).
According to claim 3,
If the ratio of the optimal power production to the power consumption of the new building (B2) is less than the reference renewable power ratio, but the ratio of the maximum power production is more than the reference renewable power ratio,
The energy facility design unit 600 designs the scale of the new and renewable energy facilities 1 with a maximum number, and the power use planning unit 700 designs the new renewable energy facility 1 on a scale designed by the energy facility design unit 600. A data-based building power calculation simulation system that plans to use only renewable power produced by renewable energy facilities (1) in the new building (B2).
According to claim 3,
If the ratio of the maximum power production to the power consumption of the new building (B2) is less than the reference renewable power ratio,
The energy facility design unit 600 designs the scale of the new and renewable energy facilities 1 with an optimal number, and the power use planning unit 700 designs the new renewable energy facility 1 at the scale designed by the energy facility design unit 600. A data-based building power calculation simulation system that plans to use renewable power produced by renewable energy facilities (1) and renewable power purchased from external renewable energy producers (2) in the new building (B2).
In the simulation method for calculating the power of a building using the data-based building power calculation simulation system of claim 1:
The power calculation simulation method for the data-based building is:
The power usage calculation unit 300 compares the information about the existing building (B1) and the information about the new building (B2) and determines the power usage pattern of the existing building (B1) to determine the new building (B2). A power consumption calculation step (S100) of calculating power consumption;
The renewable power calculation unit 400 plans the scale of the renewable energy facility 1 that can be installed in the new building B2 based on information about the new building B2, and plans the scale of the renewable energy facility 1 that can be installed in the new building B2, and A renewable power amount calculation step (S200) in which the amount of renewable power produced by the energy facility 1 is simulated and calculated;
A renewable power ratio calculation step (S300) in which the renewable power ratio calculation unit 500 calculates a ratio of the amount of renewable power produced by the new renewable energy facility (1) to the power consumed by the new building (B2);
The energy facility design unit 600 adjusts or adjusts the scale planned in the renewable power calculation step (S200) according to the ratio of the renewable power produced by the new and renewable energy facility (1) to the power consumed by the new building (B2). An energy facility design step (S400) of designing the scale of the renewable energy facility (1) at one scale; and
The power use planning unit 700 determines the scale planned in the energy facility design step (S400) according to the ratio of the amount of renewable power produced by the new and renewable energy facility (1) to the power consumption of the new building (B2). Only renewable power produced by the renewable energy facility (1) is used, or renewable power produced by the renewable energy facility (1) of the scale planned in the energy facility design stage (S400) and an external renewable energy producer ( A power use planning step (S500) in which renewable power purchased from 2) is planned to be used for the new building (B2); Data-based building power calculation simulation method including.
According to claim 8,
In the step of calculating the amount of regenerative power (S200),
The renewable power calculation unit 400 determines an installation area of the new building (B2) where the renewable energy facility (1) can be installed to enable power production based on information about the new building (B2). Setting installation area setting step (S210);
The renewable power calculation unit 400 determines the optimal and maximum number of renewable energy facilities (1) that can be installed in the installation area of the new building (B2) in consideration of the power generation efficiency of the new and renewable energy facilities (1). Facility size planning step (S220) where the scale is planned; and
The renewable power amount calculation unit 400 simulates the amount of renewable power produced by the optimal and maximum number of renewable energy facilities 1 to calculate the power production from the optimal and maximum number of new renewable energy facilities 1. A renewable power simulation step (S230) calculating the optimal power production and maximum power production, respectively; Data-based building power calculation simulation method including.
According to clause 9,
If the ratio of the optimal power production to the power consumption of the new building (B2) calculated in the renewable power ratio calculation step (S300) is more than a preset standard renewable power ratio,
In the energy facility design step (S400), the energy facility design unit 600 designs the scale of the renewable energy facility 1 with a number exceeding the optimal number,
In the power use planning step (S500), the power use planning unit 700 selects only the renewable power produced by the renewable energy facility (1) of the scale designed in the energy facility design step (S400) in the new building ( Data-based building power output simulation method planned for use in B2).
According to clause 9,
The ratio of the optimal power production to the power consumption of the new building (B2) calculated in the renewable power ratio calculation step (S300) is less than the reference renewable power ratio, but the ratio of the maximum power production is more than the reference renewable power ratio. If so,
In the energy facility design step (S400), the energy facility design unit 600 designs the scale of the renewable energy facility 1 with the maximum number of units,
In the power use planning step (S500), the power use planning unit 700 selects only the renewable power produced by the renewable energy facility (1) of the scale designed in the energy facility design step (S400) in the new building ( Data-based building power output simulation method planned for use in B2).
According to clause 9,
If the ratio of the maximum power production to the power consumption of the new building (B2) calculated in the renewable power ratio calculation step (S300) is less than the reference renewable power ratio,
In the energy facility design step (S400), the energy facility design unit 600 designs the scale of the renewable energy facility 1 with an optimal number,
In the power use planning step (S500), the power use planning unit 700 selects the renewable power produced by the renewable energy facility (1) of the scale designed in the energy facility design step (S400) and the renewable energy. A data-based building power calculation simulation method that plans to use renewable power purchased from the producer (2) for the new building (B2).

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