KR101761508B1 - System and method for performance evaluation of building energy - Google Patents

Abstract

The present invention relates to a building energy performance evaluation system and a method thereof, and a building energy performance evaluation method includes the steps of: selecting at least one standard building among a plurality of standard buildings modeled according to a building type, step; Selecting a building material product including insulation performance information to be applied to a selected standard building; And analyzing energy performance for a standard building to which the selected building material product is applied.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a building energy performance evaluation system and a building energy performance evaluation method.

The present invention relates to a system and method for evaluating the performance of building energy.

Recently, with the strengthening of government energy conservation policy standards, it was required to evaluate building energy performance before building or before remodeling.

Conventionally, the energy performance evaluation method of a building is performed by an expert directly modeling a building to be evaluated, and by directly inputting numerical values of insulation performance of building materials and the like, energy performance of the heating and cooling of the building is evaluated.

Such a conventional method for evaluating building energy performance requires a long time for modeling a building and requires that the insulation performance of a building material such as a thermal insulation material to be used is input directly into numerical values, .

Embodiments of the present invention build a database of building material products that includes database and insulation performance information for standard buildings to assess the energy performance of the building and can easily assess the energy performance of the building according to product selection by non- It is aimed to provide a building energy performance evaluation system and its method.

A method for evaluating building energy performance according to an exemplary embodiment of the present invention includes: selecting at least one standard building among a plurality of standard buildings modeled according to a building type to analyze energy performance of the building; Selecting a building material product including insulation performance information to be applied to a selected standard building; And analyzing energy performance for a standard building to which the selected building material product is applied.

According to another aspect of the present invention, there is provided a building energy performance evaluation system comprising: a standard building database storing a plurality of standard building information modeled according to a building type; Building materials containing insulation performance information to be applied to standard buildings Building material product database in which product information is stored; A building energy analyzer for analyzing energy performance of a standard building selected using standard building data selected from the standard building database and building material product data selected from the building material product database; And a control unit for controlling the standard building database, the building material product database, and the building energy analysis unit.

According to embodiments of the present invention, for the energy performance analysis of a building, a user simply selects a standard building and a building material product, thereby minimizing input information to be directly input by a user, so that even a non- Energy performance can be analyzed and evaluated.

1 is a conceptual diagram illustrating a web-based building energy performance evaluation system according to an embodiment of the present invention.
2 is a block diagram illustrating a building energy performance evaluation system according to an embodiment of the present invention.
3 is a flowchart illustrating a method for evaluating building energy performance according to an embodiment of the present invention.
4 is a diagram for explaining a log-in process of a user's building energy performance evaluation system server.
5 is a diagram showing a standard building list stored in the standard building database.
6 is a diagram showing building information of a selected standard building.
7 is a diagram showing registration of a standard building by a user as a user building;
8 is a diagram showing a list registered as a user building.
Fig. 9 is a diagram showing the selection of a window product as a building material product including insulation performance information to be applied to a standard building; and Fig.
10 is a diagram showing a user setting structure information of a standard building;
11 is a diagram showing setting of spatial property information of a standard building.
Figure 12 is a diagram illustrating selecting a layer of a standard building to analyze energy performance.
13 is a diagram showing an energy analysis report according to an energy performance analysis.
14 is a diagram showing a detailed report of an energy analysis report.
15 is a diagram showing a single energy analysis report of a standard building according to one building material product selection;
16 is a diagram showing a comparison report of energy analysis of a standard building according to selection of two building material products;

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference symbols as possible even if they are shown in different drawings. In the following description of the embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the understanding why the present invention is not intended to be a complete disclosure.

First, a building energy performance evaluation system according to an embodiment of the present invention will be described with reference to FIGS. 1 and 2. FIG. FIG. 1 is a conceptual diagram illustrating a web-based building energy performance evaluation system according to an embodiment of the present invention, and FIG. 2 is a block diagram illustrating a building energy performance evaluation system according to an embodiment of the present invention.

1, a building energy performance evaluation system according to an exemplary embodiment of the present invention includes a building energy performance evaluation system for estimating a building energy performance based on a building energy performance evaluation system through a communication network (e.g., the Internet) The building energy performance evaluation can be performed.

2, the building energy performance evaluation system according to one embodiment of the present invention includes a standard building database (DB) 10, a building material product database (DB) 20, an input unit 30, An energy analysis unit 40, an output unit 50, and a control unit 60. [

The standard building database 10 is a configuration in which a plurality of standard building information modeled according to the building type is stored. As an example of a standard building, there may be a building type (building structure) such as a shared house, a single-family house, an office, a hotel, a hospital, a school, etc. However, the present invention is not limited thereto. . Standard building information needed to analyze energy performance can include, but is not limited to, building information, structure information, spatial information, air conditioning systems, and heat source system information.

Here, the building information may include information such as building plan, building name, division (building use), exclusive area, floor area, number of floors (ground, underground) In addition, the structure information may include building material product information including insulation properties for structures such as inner walls, outer walls, floors, ceilings, roofs, and windows. In addition, the spatial information may include attribute information such as a heating / cooling set temperature, a ventilation status, a lighting type / mode, and the like of a space inside the standard building. In addition, the air conditioning system and the heat source system may include the product type and the product specification information of the air conditioner and the heat source device (for example, the air conditioner).

The building material product database 20 is a structure in which building material product information including insulation performance information to be applied to a standard building is stored. Types of building material products may include insulation materials and window products. Further, the heat insulating performance information may include information on the heat conduction rate, thermal conductivity, density, and thickness of the building material product. The building material product includes at least one of manufacturer information, model name information, unit price information, and efficiency class information.

The input unit 30 is configured to receive a control signal according to an operation from the user terminal 200. For example, the user terminal 200 may input a control signal according to an operation through input means such as a mouse and a keyboard.

The building energy analyzing unit 40 analyzes the energy performance of a standard building to which a building material product selected through the input unit 30 is applied. For example, analysis of energy performance can be analyzed according to the international standard (ISO 13790).

The output unit 50 is a configuration for outputting the analyzed energy performance. For example, the analysis value of the output energy performance may be displayed through a display means such as a monitor of the user terminal 200. [

The control unit 60 is connected to the standard building database 10, the building material product database 20, the input unit 30, the building energy analysis unit 40, and the output unit 50 to control each configuration.

The building energy performance evaluation system according to the present invention may further include a standard building modeling unit 70. The standard building modeling unit 70 models the standard building including the building information, the structure information, the spatial information, the air conditioning system, and the heat source system information necessary for analyzing the energy performance of the building, And can be controlled by the control unit 60. [0060] In standard building modeling, a standard building can easily be constructed by placing a 3D building component using a design program. The standard building or the modified standard building modeled as described above may be stored in the standard building database 10 under the control of the control unit 60. [

For example, the building energy analysis unit 40 can analyze at least one of an energy demand, an energy requirement, a primary energy requirement, a renewable energy generation amount, a CO ₂ emission amount, and a building energy efficiency rating, As an economic analysis by analysis, it is possible to further analyze the initial investment cost information and the annual energy use cost information for the selected building material product, and when a plurality of building material products for the same construction are selected, As an economics analysis, it is possible to further analyze the relative annual energy savings cost information and the relative investment payback period information for the selected plurality of building material products.

Next, a method for evaluating building energy performance according to the present invention will be described with reference to FIG. 3 is a flowchart illustrating a method for evaluating building energy performance according to an embodiment of the present invention.

3, in order to analyze energy performance of a building, at least one standard building among a plurality of standard buildings modeled according to a building type is selected (S10) . Next, a building material product including insulation performance information to be applied to the selected standard building is selected (S20). Next, the energy performance of the standard building to which the selected building material product is applied is analyzed (S30), and the analyzed energy performance is output (S40).

In the step of selecting a standard building (S10), the standard building may include building information, structure information, spatial information, air conditioning system, and heat source system information of the building necessary for analyzing energy performance. In addition, the step of selecting a standard building includes a step of registering the selected standard building as a user building.

For example, after step (S10) of selecting a standard building, a building material product including insulation performance information is modified for at least one of an inner wall, an outer wall, a floor, a ceiling, a roof and a window of a structure of a standard building, Lt; RTI ID = 0.0 > attribute < / RTI >

As another example, after the step (S10) of selecting the standard building, the predetermined standard property may be changed for at least one of the spatial information of the standard building, the air conditioning system information, and the heat source system information.

Meanwhile, the step of analyzing the energy performance (S30) can analyze at least one of the energy demand, the energy requirement, the primary energy requirement, the renewable energy generation amount, the CO ₂ emission amount and the building energy efficiency rating, As an economics analysis by energy performance analysis, it is possible to further analyze at least one of the initial investment cost information and the annual energy use cost information for the selected building material product.

In addition, when comparing the energy performance of a plurality of building material products, it is possible to analyze and compare energy performance by selecting a plurality of building material products for the same configuration of a standard building. In this case, in a step S30 of analyzing the energy performance, when a plurality of building material products having the same configuration are selected, an economical analysis by energy performance analysis may be performed such that the annual energy saving cost relative to a plurality of selected building material products Information and relative investment payback period information can be further analyzed.

Here, in the step S20 of selecting a building material product, a building material product can be selected for each layer of the standard building.

In addition, the step of analyzing the energy performance (S30) can analyze the energy performance by the floor of the standard building or by the period.

In the building energy performance evaluation method, the selection of each step can be performed on the Web based on a control signal from a user terminal of a remote network connected to the network. As a result, the user can easily access the building energy performance evaluation system server by using the user terminal and analyze the energy performance, so that the user can easily use the building energy product evaluation company's building energy product performance data as visual data It can also be used effectively in sales / promotional activities. For example, as shown in FIG. 1, a salesperson connects to the server 100 of the building energy performance evaluation system using the user terminal 200, and applies his / her building material products and other building material products on the web When the energy performance of the building is analyzed, it is possible to effectively perform the business activity by providing the visual energy of the energy performance difference on the building material on the spot.

4 to 16, a web-based building energy performance evaluation method according to an embodiment of the present invention will be described.

First, as shown in FIG. 4, the user accesses a web-based building energy performance evaluation system server to analyze the building energy performance, and logs in through membership or the like.

Then, when the log-in is completed, the user can select a standard building to analyze energy performance by receiving a standard building list stored in the standard building database, as shown in FIG. Here, the standard buildings are classified into residential buildings or commercial buildings, and can provide a list according to the building type (building structure or use) such as apartment house, single-family house, office, hotel, hospital, school, (M ² ), floor area (m ² ), number of floors (ground, underground), etc., which are some information of the building information.

Then, when a user selects a standard building in the form of a building of "office_03", the building information (building drawing, building name, division (building use), exclusive area, floor area, Ground, underground), etc.) may be displayed. For example, the building information of the standard building may be changed as a user building and registered as a user building as shown in FIG. Thus, as shown in FIG. 8, the standard building selected by the user can be registered as a user building and listed and displayed.

Next, as shown in FIG. 9, the window product can be selected as a building material product including the insulation performance information to be applied to the standard building. The window product can be selected by the floor of the standard building, and one of the building material product list for the window can be selected. The building material product list for a window may include information such as manufacturer, model name, window type, unit price, and the like.

Further, although not shown, a heat insulating material can be selected in the same manner as a heat insulating material as a building material product. Such a list of building material products is registered and stored in advance in the building material product database.

Alternatively, the insulation information may be information included in the structure information of the standard building. For example, as shown in FIG. 10, the user can select a standard building and change the structure information (or cladding property information) of the standard building. The structure information of the standard building (the standard building of the office (the tower building _VBTEST in FIG. 9) can be changed by the floor of the standard building, and the structure information includes the outer wall Wall (out) ), A floor, a ceiling, a floor, a roof, and the like. In Fig. 10, it is possible to select and change the outer wall insulation performance from the list of structures listed on the right side. Here, the building material product list may include information such as the name of the company (manufacturer), the model name, the thickness of the product, the heat conduction rate of the product, and the unit price (product price). In this way, it is possible to change the structure information such as the inner wall, the floor, the ceiling, the bottom floor, and the roof, not just the outer wall.

As another example, as shown in FIG. 11, the user may select a standard building to change the spatial information of the standard building. Like Fig. 9, the change setting can be changed for each floor of the standard building. In addition, the spatial information includes space usage, whether or not the room is air-conditioned (heating indoor setting temperature, cooling indoor setting temperature), existence of mechanical ventilation, type of mechanical ventilation, number of ventilation, number of times of air supply and exhaustion of mechanical ventilation, Device type, and the like, and it is possible to change the usage status and the detailed attribute for each information. For example, when changing from non-air-conditioned (default value of standard building) to air-conditioning, it is necessary to set the set temperature of heating room and the setting temperature of cooling room in addition to the cooling and heating of space. In addition to the existence of mechanical ventilation, the type of mechanical ventilation, the number of ventilation, the number of mechanical ventilation, and the number of mechanical ventilation must be set together. In the case of the number of ventilation and the type of lighting equipment, an item capable of directly inputting a value at the time of user input can be displayed, the heating set temperature is set lower than the cooling set temperature, the number of times of supply of mechanical ventilation is set to the number of times of exhaust, As shown in FIG.

As another example, although not shown, similar to FIG. 11, the user may select a standard building to change the air conditioning system and the heat source system information of the standard building. The change setting can be changed according to the floor of the standard building, and the air conditioning system and the heat source system information can include the type of the air conditioner and the type of the heat source device to be used and the specification information.

In this way, once the selection of standard building and building material products is completed, the energy performance can be analyzed for standard buildings with building material products. For example, as shown in FIG. 12, energy analysis can be performed only on selected layers of the standard building (5th, 6th, 7th and 8th layers are selected in FIG. 12) in the analysis.

The building energy performance analysis can be represented as an energy analysis report as shown in FIG. 13, and can be classified into energy demand, energy requirement, primary energy requirement, renewable energy generation amount, CO ₂ generation amount (emission amount) Can be analyzed.

If the user selects the energy requirement in the energy analysis report, the amount of energy required for heating, cooling, hot water supply, lighting and ventilation of the standard building with energy analysis is calculated as shown in FIG. 14, And can display the amount of energy required for each month. It is also possible to display the analyzed values for each layer.

As another example, the building energy performance analysis is performed in the form of a single energy analysis for the energy demand, the energy requirement, the primary energy requirement, the renewable energy energy generation, the CO ₂ emission, . In this case, as an economic analysis based on the energy performance analysis, the initial investment cost and the annual energy use cost for the selected building material product can be analyzed and shown.

Thus, it is possible to analyze the effect of building materials such as windows, insulation, etc. on building energy.

As another example, if two building material products are selected for the same construction among the building material products, the building energy performance analysis of the standard building according to each building material product is performed. As shown in FIG. 16, Energy consumption, energy consumption, CO ₂ emissions, and building energy efficiency levels. In this case, as an economic analysis based on the energy performance analysis, the initial investment cost and the annual energy use cost for the selected building material product can be analyzed and further analyzed. Further, the relative annual energy saving cost and relative investment payback period are further analyzed .

Thus, the building energy performance evaluation system can construct a database of building material products including database and insulation performance information for standard buildings, so that the user can conveniently select the products and analyze and evaluate the energy performance of the building. In addition, quantitative analysis of the effect of building materials on the cooling and heating energy of a building can be made, contributing to efficient sales activities. In addition, a simple product selection can evaluate the energy performance of the desired building, making non-experts (salespeople or salespeople) easy to use.

Meanwhile, the method of the present invention as described above can be written in a computer program. And the code and code segments constituting the program can be easily deduced by a computer programmer in the field. In addition, the created program is stored in a computer-readable recording medium (information storage medium), and is read and executed by a computer to implement the method of the present invention. And the recording medium includes all types of recording media readable by a computer.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. The present invention is not limited to the drawings.

10: Standard building database
20: Building Material Product Database
30: Input unit
40: Building Energy Analysis Department
50: Output section
60:
70: Standard building modeling unit
100: Building energy performance evaluation system server
200: user terminal

Claims (18)

Selecting at least one standard building among a plurality of standard buildings previously designed and modeled according to the building type, in order to analyze the energy performance of the building;
Selecting a building material product including insulation performance information to be applied to a selected standard building; And
Analyzing energy performance for a standard building to which the selected building material product is applied,
The standard building includes building information, structure information, spatial information, air conditioning system, and heat source system information required for analyzing energy performance,
Wherein the building material product includes at least one of a heat insulation material product and a window product, and the building material product includes at least one of a heat insulation material product and a window product,
Wherein analyzing the energy performance further includes analyzing the initial investment cost information and the annual energy usage cost information for the selected building material product by analyzing the energy performance by the energy performance analysis, In the case of an energy performance assessment method for energy performance analysis, the method further analyzes the annual energy saving cost information and relative investment payback period information relative to the selected plurality of building material products. delete delete delete The method according to claim 1,
After selecting the standard building,
Further comprising the step of altering a predetermined standard property of the structure by modifying a building material product including at least one of an inner wall, an outer wall, a floor, a ceiling, and a roof of the structure of the standard building, Performance evaluation method. The method according to claim 1,
After selecting the standard building,
Further comprising the step of changing a standard attribute set in advance for at least one of building information, spatial information, air conditioning system, and heat source system information of the standard building. The method according to claim 1,
Wherein analyzing the energy performance comprises:
A building energy performance evaluation method for analyzing at least one of an energy requirement, an energy requirement, a primary energy requirement, a renewable energy generation amount, a CO ₂ emission amount, and a building energy efficiency rating. delete delete The method according to claim 1,
Wherein the step of selecting the building material product comprises:
A building energy performance evaluation method for selecting a building material product for each floor of the standard building. 8. The method of claim 7,
Wherein analyzing the energy performance comprises analyzing energy performance by floor of a standard building or by period. The method according to claim 1,
The selection of each step is performed on a web based on a control signal from a user terminal at a remote network connected to the network. A standard building database storing a plurality of standard building information modeled in advance according to the building type;
Building materials containing insulation performance information to be applied to standard buildings Building material product database in which product information is stored;
A building energy analyzer for analyzing energy performance of a standard building selected using standard building data selected from the standard building database and building material product data selected from the building material product database; And
And a control unit for controlling the standard building database, the building material product database, and the building energy analysis unit,
The standard building information includes building information, structure information, spatial information, air conditioning system, and heat source system information required for analyzing energy performance,
Wherein the building material product information includes at least one of a heat insulation material product and a window product, and the building material product information includes at least one of a heat insulation material product and a window product,
Wherein the building energy analyzing unit further analyzes the initial investment cost information and the annual energy use cost information for the selected building material product as the economic performance analysis by the energy performance analysis, An economic performance analysis by energy performance analysis that further analyzes the annual energy savings cost information and the relative payback period information relative to the selected plurality of building material products. 14. The method of claim 13,
And a standard building modeling unit for modeling the standard building or analyzing each information of the modeled standard building to analyze the energy performance of the building. delete 14. The method of claim 13,
Wherein the building energy analysis unit analyzes at least one of an energy requirement, an energy requirement, a primary energy requirement, a renewable energy generation amount, a CO ₂ emission amount, and a building energy efficiency rating. delete delete

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