JP2005174118A - Environment load evaluation support system and support method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an environment load evaluation support system and support method, allowing production of a product allowing environment load evaluation. <P>SOLUTION: In this environment load evaluation support system for reducing an environment load of a concrete structure, a support server has: an environment load evaluation means executing the environment load evaluation of the concrete structure; an environment load evaluation database storing an example of the concrete structure; and a concrete solution menu storing a construction method and material of concrete. A user terminal has a communication means transmitting/receiving data to/from the support server. In the environment load evaluation support system, a model wherein the environment load is further reduced is produced on the basis of a result obtained by executing the environment load evaluation to an evaluation target model of the concrete structure inputted by a user terminal in the support server, and a retrieval result of the concrete solution menu and the environment load evaluation database. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to an environmental load evaluation support system and an environmental load evaluation support method for evaluating the influence on the environment in the life cycle from the manufacture of a product (particularly a concrete structure and a composite structure of concrete and steel) to disposal (recycling). About.

There is a strong demand for the development of environmentally friendly products that minimize the adverse effects on the global environment during the product life cycle, that is, from production to use / disposal (recycling).
A method for quantitatively or qualitatively calculating and evaluating the degree of influence is a product life cycle environmental load assessment method (LCA).
Specifically, the amount of precious coal, petroleum fossil resources, iron ore, and other mineral resources consumed before the product is manufactured, used, disposed (recycled) and disappeared, and the air, water, soil, etc. Calculate how much harmful substances have been discharged into the living environment using basic units, and use the weighting coefficient to calculate the impact on the global environment for each category, such as global warming and acid rain. It is a qualitative evaluation.

The specific calculation evaluation method is based on the environmental load in each process from manufacturing, use and disposal of products, based on the product specifications and information on the materials and processing methods of the components that make up the products. Based on information on each process in the life cycle, calculate the amount of resources consumed and discharged from manufacturing (processing), assembly, etc., and then collect and recycle products during and after product use and after use. Calculate various resource consumption and emissions.
Furthermore, the environmental impact degree (environmental impact) for every category, such as warming and acid rain, is calculated using a weighting coefficient for those calculated values.

A typical basic system for doing this is shown in FIG.
The system calculates a data input unit 10 for inputting product and life cycle information, a DB storage unit 20 for storing a database of basic units and weighting factors necessary for calculation, and consumption, emission and environmental impact. The LCA calculation unit 30 and the result output unit 40 are included.
The DB storage unit 20 normally stores a base unit for each type of material and processing that can be widely used in common, and a base unit for each operation in each process. The user can input the input unit shown in FIG. 10 is input by the calculation unit 30 using the data in the storage unit 20 in the system, and the environmental load information is provided to the user from the result output unit 40. The four elements are used as a set. Is done.
The following is known as an example of the system. (For example, see Patent Document 1)

In the above Patent Document 1, as an environmental load evaluation method, “a process group for manufacturing an evaluation target product, a process group for manufacturing a part constituting the target product, a process group for disposing the target product, and a disposal of the target product” are disclosed. Target group consisting of a process group that disposes of the product part obtained through the process, a process group that uses the target product, and a process group that transports the product part obtained by disposing the target product and the parts and target product that constitute the target product The entire process group related to the product is based on the target product, and the virtual process group related to the manufacture of the target product having a tree structure connection with the unit process having a single process as a node, and the target product is also the root, The connection relationship between each unit process as expressed as a virtual all process group consisting of the sum of the virtual process group related to the disposal of the target product having a tree structure connection with the unit process having a single process as a node Define and define Based on the binding relationship between the unit steps which, using an environmental load value generated in each unit process, environmental load evaluation method of calculating the total environmental load value of the products "
Is disclosed.

Moreover, as an improvement measure of the environmental load evaluation method disclosed in Patent Document 1,
(a) Store the basic unit for each unit or part in addition to the basic unit for each conventional material and processing method as a database.
(b) Focusing on the fact that the basic unit and weighting factor stored cannot be avoided in principle, the range is stored as a database in addition to the value, and the value and range are also output in the result.
(c) Remotely placed on the service provider side instead of the user side so that the database can be updated and added, and exchange information between the user and the provider by data transmission and reception.
The following environmental impact assessment system is known. (For example, see Patent Document 2)

  In the above-mentioned Patent Document 2, “specifications of product / parts and life cycle conditions are input, and the environmental impact in the life cycle of manufacturing / use / disposal is measured using a database of various basic units and weight coefficients. In the environmental impact assessment system for predictive calculation, one or more data input means for taking the input values of product / part specifications and life cycle input values from the user side via the Internet, and calculating them Means for sending to the service provider side having means, calculation means for calculating the environmental load using the stored database, means for sending the calculation result to the user side, and one to output the result to the user side An environmental impact assessment system characterized by having a plurality of means "is disclosed.

JP-A-7-311760 (Claim 1) JP-A-11-219391 (Claim 1, (0009))

In the “environmental impact assessment system” disclosed in Patent Document 2, a user inputs product specifications and life cycle via the Internet, and sends them to a service provider side having a calculation means. When the service provider calculates the environmental load and sends the calculation result to the user, it can be obtained as a numerical value as the calculation result of the environmental load related to the product specifications and life cycle data input by the user.
However, the numerical data on the environmental impacts obtained as a result of the calculation are compared to similar ones in the past. What kind of relationship is there for each category (global warming, air pollution, energy consumption, mineral resources, etc.) It was difficult to judge whether it was improved or not.

  The subject (object) of the present invention is that the numerical data on the environmental load obtained as a result of the calculation of the environmental load input by the user (user) is more global warming and air pollution than the past similar ones. , Energy consumption, mineral resources, etc. for each category (whether it is improved or not), and users can modify (change) part of the data online ) To provide an environmental load evaluation support system and a support method that enable manufacture of a product with improved environmental load evaluation.

In order to solve the above problem, an environmental load evaluation support system for reducing the environmental load of a concrete structure, comprising a support server connected via a communication line and at least one user terminal,
The support server includes a communication unit that transmits and receives data to and from the user terminal, an environmental load evaluation unit that performs an environmental load evaluation of the concrete structure, and an environmental load evaluation database that stores examples of the concrete structure And a concrete solution menu that stores concrete materials and construction methods,
The user terminal includes communication means for transmitting and receiving data to and from the support server,
Based on the result of executing the environmental load evaluation on the evaluation target model of the concrete structure input at the user terminal by the support server and the search result of the environmental load evaluation database and the concrete solution menu, the environmental load is further reduced. Create a model. (Claim 1)
In the environmental load evaluation database, a newly created model is stored as an example.
(Claim 2)

An environmental load evaluation support method for reducing the environmental load of a concrete structure, comprising a support server connected via a communication line and at least one user terminal,
A step of transmitting an evaluation target model of a concrete structure inputted at a user terminal to a support server and executing an environmental load evaluation, and executing a search of an environmental load evaluation database and a concrete solution menu according to the environmental load evaluation result And the step of creating a model with a reduced environmental load based on the search result. (Claim 3)
The method includes comparing the environmental load evaluation between the model created based on the search result and the model to be evaluated, and repeating the creation of the model based on the comparison result. (Claim 4)
An environmental load consultant support method for executing further detailed design related to the contents of the comprehensive report created by the environmental load evaluation support method according to claim 3 or 4 using a consultant database. (Claim 5)

  Numerical data relating to the environmental load obtained as a result of calculating the environmental load input by the user (user) by the environmental load evaluation support system, the support method, and the environmental load consultant support method according to claim 1, Compared to the similar ones, we understand the relationship (whether it is improved or not) in each category such as global warming, air pollution, energy consumption, mineral resources, etc. In addition, the user can modify (change) a part of the data online to manufacture a product with a more improved environmental impact assessment.

The system configuration of the present invention will be described with reference to FIG.
In FIG. 2, reference numeral 1 denotes a server serving as the core of the environmental load evaluation support system of the present invention, which is connected to a user terminal 3 via a communication line (including the Internet) 2.
In FIG. 2, only one user terminal is shown via the communication line 2, but a plurality of user terminals are connected.

The server 1 is provided with an environmental load assessment (LCA) database (LCA-DB) 1-a, an inventory data database 1-b, a concrete solution menu 1-c and a content 1-d.
The LCA-DB is a database that stores case data, and the concrete solution menu is a database that stores materials and construction methods for concrete structures.
The server stores a program for calculating the environmental load of the present invention.
It should be noted that a system 4 for consultant service including a consultant DB and an operator terminal can be added to more precisely calculate and instruct the calculation results related to the environmental load by the environmental load evaluation support system according to the present invention.

The outline of the flow of processing in FIG. 2 is as follows described on the right side of FIG.
Access level authentication Authentication is performed to determine whether the user terminal 3 is qualified to receive the service of the environmental load evaluation support system of the present invention. (It is assumed that the user has registered in advance to receive this environmental load assessment support service and has been given a password and ID.)
-Input of inventory data Using the inventory data DB, the user inputs data related to a product for which the user requests an evaluation regarding the environmental load from the user terminal 3, and transmits the data to the server 1.
LCA evaluation result The server 1 calculates an LCA evaluation using the LCA-DB based on the received inventory data, and transmits it to the user terminal 3.
・ Case study The user selects the keyword to be improved from the examples accumulated in the LCA-DB and searches the LCA-DB so that the environmental impact is improved by looking at the LCA evaluation result sent. Do.
・ Environmental impact reduction study Compare the retrieved cases with the current one to examine what can further reduce the environmental impact. (This case search and environmental load reduction study should be repeated multiple times until better results are obtained.)
-Comprehensive report Outputs the results of consideration for reducing environmental impact as a comprehensive report
・ Saving the result of examination By saving the result of the examination and examination by the user in LCA-DB, new data will be accumulated, and the database will grow and become a database that can be used more easily.

Next, FIG. 3 shows an example of the screen display of the user terminal that executes the process of FIG.
As shown in FIG. 3, a central portion of the screen is a work screen, and a plurality of work screen switching buttons are arranged on the left side. (In FIG. 3, buttons of “evaluation target model”, “environmental load reduction model”, “case search”, “comprehensive report”, “save”, and “inquiry” are arranged.)
In addition, “LCA evaluation monitor” and “Candidate LIST of materials and methods for environmental load reduction model” are formed as sub-screens on the upper and lower sides of the right side of the screen.

  In the following description, a case of a concrete structure and a composite structure of concrete and steel is taken as an example of the evaluation of environmental load.

FIG. 4 is a ready-mixed concrete profile (creation of evaluation target model) screen.
On this screen, the user selects ordinary Portland, crushed sand, crushed stone, high-performance AE water reducing agent, etc. as constituent materials of ready-mixed concrete, and inputs each data.
In addition, individual data such as total concrete usage, used mixer capacity, transport distance, driving method, curing method and construction structure are input.

Next, on the construction profile (create model to be evaluated) screen shown in FIG. 5, the user provides construction means and work volume data for the construction types earthwork, foundation work, pavement work, lifting work, demolition work and transportation, respectively. input.
Further, the user inputs data such as aggregate type, collection amount, and processing method for recycling and disposal on the recycling / disposal profile (creating an evaluation target model) screen of FIG.

3 to 6, when data is transmitted from the user terminal to the server 1 via the communication line, the server 1 performs an environmental load calculation using the LCA-DB.
An example of the calculation result is as shown in the profile screen of the environmental load of the evaluation target model in FIG.
In this example, energy consumption and emissions (CO ₂ , SO _{2) for} each process item of material production / collection, concrete production, concrete construction, earthwork, foundation work, paving work, lifting work, transportation, demolition and disposal / recycling. _X , NO _X , SPM).
In this screen, in the environmental load profile, a process having a relatively high load ratio can be distinguished from other parts by color coding or the like.

The profile of the environmental load of the evaluation target model in FIG. 7 is shown by a 5-axis radar chart as a basis (baseline) for reducing the environmental load by case search described later (FIG. 8).
In FIG. 8, the calculation results of FIG. 7 are shown as 1 in five categories of global warming, acid rain, air pollution, energy resources, and mineral resources.
By clicking the “Details” button on the screen of FIG. 8, the environmental load profile of the evaluation target model of FIG. 7 can be called.

Through the processing (operation) so far, the user receives the service of the environmental load evaluation support system of the present invention, and the product (concrete structure and the composite structure of concrete and steel) environmental load data that the user intends to manufacture. Can be obtained.
However, the numerical values shown in Fig. 7 make it easier to determine whether the impact of the product you are trying to manufacture on the environmental impact is superior or inferior to a similar product. It is difficult.

  Therefore, in the environmental load evaluation support system of the present invention, a case search is further performed from the LCA-DB in which the keyword is selected, and the environmental load is compared with the searched case, resulting in a further improved environmental load evaluation. Processing (operation) to be a product will be described in detail below.

FIG. 9 is a diagram illustrating an example of a case search screen.
In FIG. 9, as a search condition, “pile builder” as a structure, “cement amount of 300 to 400” as a composition, “all casing”, “excavator”, “recycled aggregate”, “pile driver”, “pile” as keywords Is selected.
As a search specification, “fuzzy search”, “complete match search”, and “partial match search” can be specified.
On this screen, the search for the LCA-DB of the server 1 is executed by clicking the “search case” button.
In the search of FIG. 9, it is possible to search for “concrete solution menu” which is a database different from LCA-DB.

FIG. 10 is a response screen from the server 1 for the search result searched with the search condition of FIG.
In the screen of FIG. 10, 11 hits in LCA-DB, 4 hits in the concrete solution menu, and the database number are displayed.

When the “display button” in the LCA-DB display section of FIG. 10 is clicked, the screen of FIG. 11 is displayed.
In the screen of FIG. 11, examples (“previous example”, “similar example”) that hit the search conditions retrieved from LCA-DB are “database No.”, “structure type”, “cement amount”, and “hit keyword”. Is displayed.

When the “display button” in the display section of the concrete solution menu in FIG. 10 is clicked, the screen in FIG. 12 is displayed.
In the screen of FIG. 12, cases where the search conditions of the material and construction method searched from the concrete solution menu are hit are displayed together with “database No.”, “structure type”, “cement amount”, and “hit keyword”.

When the first database number (LCA200205190012) in the list displayed on the screen of FIG. 11 is clicked, the screen of FIG. 13 is displayed.
This screen displays the individual data of the constituent materials of the ready-mixed concrete in the case of No (LCA200205190012) and the individual data items such as the type of structure, the amount of concrete, concrete production, construction, disposal and recycling.
This screen also displays the energy consumption and emissions (CO ₂ , SO _X , NO _X , SPM) data at the same time as the environmental impact assessment for this case, and the basis for reducing environmental impact ( Data for five categories of global warming, acid rain, air pollution, energy resources, and mineral resources, which are the data of the 5-axis radar chart that is the baseline), are also shown.

A comparison between the retrieved case (LCA200205190012) and the environmental load evaluation of the evaluation target model is shown in the screen of FIG.
In this screen, examples of energy consumption (GJ), CO ₂ (kg), SO _X (kg), NO _X (kg), dust (kg), and waste (t) LCA200205190012) and the evaluation target model are displayed in a graph.
By looking at this graph, the models to be evaluated that users are trying to manufacture are `` energy consumption (GJ) '', `` CO ₂ (kg) '', `` SO <sub>X</sub> (kg) '', `` NO _X (kg) '', `` dust '' (kg ) It turns out that all aspects of "waste (t)" are inferior.

In addition, as shown in Fig. 15, the environmental load profile of the case is as follows: "Material production / collection", "Concrete production", "Concrete construction", "Earthwork", "Foundation work", "Pavement work", "Heating work", "Transport" “Energy consumption” and “emission” can be displayed for each process such as “disposal / recycling”.
In addition, other cases (LCA200208020001) searched cases (LCA200208020003) and the like can be similarly processed.

Next, in FIG. 16, the table of FIG. 15 is shown in the center, and in the upper right part of the screen, the environmental load evaluation between this example (LCA200205190012) and the model to be evaluated is compared with global warming, acid rain, air It is shown in a five-axis radar chart with five categories of pollution, energy resources and mineral resources.
In this figure, the case (LCA200205190012) is indicated by a dotted line, the model to be evaluated is indicated by a solid line, and the impact on the environmental impact of the product that is being manufactured (reference example) is shown as an example (LCA200205190012)
Compared with products, it is easy to determine whether the product is superior or inferior in the five categories of global warming, acid rain, air pollution, energy resources, and mineral resources.
From the 5-axis radar chart of FIG. 16, the comparative example is superior to the case (LCA200205190012) in terms of environmental warming, acid rain, air pollution, and energy resources, but inferior in mineral resources. Therefore, it can be determined that there is room for improvement.

Next, in Fig. 16, by clicking the "Reference material / construction method" button, the screen of Fig. 17 shows the outline of the material and construction method (profile, LCA evaluation, etc.) of the case similar to this reference example (Re1111). can do. (Specific figures are omitted in this figure.)
In addition, by clicking the “Compare” button on the screen of FIG. 17, it is possible to move to the comparison screen (FIG. 18) of the materials and construction methods (profile, LCA evaluation, etc.) of another example (Re1122). . (Specific figures are omitted in this figure.)

Next, in the upper right of the screen shown in FIG. 18, the environmental load assessment comparison between this case (Re1111) and another case (Re1122) shows global warming, acid rain, air pollution, energy resources, and mineral resources. Shown in five categories of 5-axis radar charts.
In this figure, the case (Re1111) is indicated by a dotted line, and another case (Re1122) is indicated by a solid line. The impact of each material and construction method on the environmental load is affected by global warming, acid rain, air pollution, It is easy to determine which is superior or inferior in the five categories of energy resources and mineral resources.

Next, an environmental load reduction model is created.
In FIG. 19, when the database No (LCA200205190012) is clicked as a reference model, this case (LCA200205190012) is model 01 in the upper right of the screen, and the comparison of the environmental load evaluation with the evaluation target model is global warming, acidity As shown in the five-axis radar chart of five categories of rain, air pollution, energy resources, and mineral resources, the part related to “mineral resources”, which is a category inferior to model 01, is changed.

In order to improve the “Mineral Resources” of Model 01, change the aggregate used for ready-mixed concrete as an item related to the recycling / disposal profile with reference to the reference model and the reference material / construction method obtained from the search. .
Comparison of ready-mixed concrete profile between model 01 and evaluation model obtained by changing the aggregate (crushed sand, crushed stone) of the model to be evaluated to Class I recycled aggregate (Re1111) and Class I recycled aggregate (Re1122) Is shown in FIG. 20 as a comprehensive report. (In this figure, specific numerical values other than the aggregate relation of the model 01 are omitted.)
In FIG. 20, only the aggregate relation is changed, but the construction profile, the ready-mixed concrete profile, and the like may be changed.

Next, FIG. 21 shows environmental load information (LCA evaluation) between the model 01 of FIG. 20 and the evaluation target model.
In FIG. 21, the model 01 is indicated by a dotted line, and the evaluation target model is indicated by a solid line.
It can be judged that the model 01 is superior in any of the five categories of impacts on the environmental impacts of global warming, acid rain, air pollution, energy resources, and mineral resources.

  By the above procedure, the numerical data on the environmental impact obtained as a result of calculating the environmental impact input by the user (user) compared to the past similar ones, global warming, air pollution, energy consumption, By comparing the relationship between mineral resources and other categories (whether they are improved or not), users can modify (change) part of the data online. A product model that results in a more improved environmental impact assessment can be obtained.

The user can obtain the comprehensive report shown in FIG. 20 and FIG. 21 online by the environmental load evaluation support system of the present invention. For further detailed design, etc., the user requests a consultant service different from the online service. It is possible.
An example of the inquiry form is shown in FIG.

Next, the flow of data (processing) between the components of the environmental load evaluation support system of the present invention will be described with reference to FIG.
The user from the user terminal 3 registers in advance to receive the environmental load evaluation support service and receives a password and ID.
In this state, the user terminal 3 accesses the support server 1 to obtain access level authentication.
The access record is stored in the access user data record 1-g in the support server.
Thereafter, using the inventory data DB, the user inputs various conditions (construction yield) related to the concrete structure for which the user requests evaluation regarding the environmental load from the user terminal 3 and transmits the input to the server 1. .
In the support server 1, the environmental load is calculated by the environmental load evaluation program 1-e based on the various condition data related to the received concrete structure and transmitted to the user terminal.
The calculation results include “inventory”, “impact on the global environment”, “integration result”, “graph”, and the like.
The first calculation result is referred to as an “evaluation target model”.
For the calculation of the environmental load by the environmental load evaluation program 1-e, basic unit data 1-h whose data is appropriately updated by the operating server 4 of the environmental load evaluation support system is used.

In the user terminal 3, in order to further reduce the environmental load of the “evaluation target model”, a keyword is selected for the LCA database 1-a and the concrete solution menu 1-c in the support server 1 and a search is executed.
In the user terminal, based on the comparison between the search result “evaluation target model” and the searched “example”, various condition data related to the concrete structure are changed and transmitted to the support server 1 in order to further reduce the environmental load. Request the calculation of environmental load by the environmental load evaluation program 1-e. (This process is repeatedly executed to reduce the environmental load.)
“Model 01” with reduced environmental load is transmitted to the user terminal 3 as a comprehensive report.

The user who has received the comprehensive report can request (inquire) a consultant service different from the online service for further detailed design and the like.
In response to this inquiry, the operating load server of the environmental impact assessment support system uses the consultant database 1-f to perform keyword search etc. to examine further detailed design requested by the user and report it to the user terminal as a report. Send.

  In the environmental load evaluation support system and the support method according to any one of claims 1 to 5, numerical data relating to the environmental load obtained as a result of calculation of the environmental load input by the user (user) is compared with a similar one in the past. In addition, we can understand what kind of relationship (whether it is improved or not) compared to each category such as global warming, air pollution, energy consumption, mineral resources, etc. However, by modifying (changing) a part of the data, it is possible to manufacture a product with an improved environmental impact evaluation, and thus the industrial applicability is extremely large.

It is a figure which shows the typical basic system for performing environmental impact assessment (LCA). It is a figure which shows the structure of the environmental load evaluation assistance system of this invention. It is a figure which shows an example of the screen display of the user terminal of this invention. It is a figure which shows an example of the profile (creation of a model for evaluation) of ready-mixed concrete. It is a figure which shows an example of the profile (creation of a model for evaluation) of construction. It is a figure which shows an example of the profile (creation of a model for evaluation) of recycling and disposal. It is a figure which shows an example of the profile of the environmental load of an evaluation object model. It is a figure which shows an example of the baseline (5-axis radar chart) of an evaluation object model. It is a figure which shows an example of a case search screen. It is a figure which shows an example of a search result screen. It is a figure which shows one example screen of the list of previous examples and similar examples (using LCA-DB). It is a figure which shows an example screen of a material and a construction method list (using a concrete solution menu). It is a figure which shows an example of the outline | summary screen of a precedent example and a similar example model. It is a figure which shows an example of the comparison screen with LCA evaluation of a precedent example and a similar example model. It is a figure which shows an example of the profile screen of the environmental load according to process of a prior example and a similar example model. It is a figure which shows an example of the reference model list-up screen. It is a figure which shows an example of the screen of the outline | summary (profile, LCA evaluation, etc.) of a material and a construction method. It is a figure which shows an example of the list up screen of a reference material and a construction method. It is a figure which shows an example of the screen which produces an environmental load reduction model. It is a figure which shows an example of the comprehensive report which shows the ready concrete profile of the model 01 and an evaluation object model. It is a figure which shows an example of the information (LCA evaluation) of the environmental load of the model 01 of FIG. 20, and an evaluation object model. It is a figure which shows an example of the inquiry form which is a paid consultant service. It is a figure which shows the flow of the data between the components of the environmental load evaluation assistance system of this invention.

Explanation of symbols

1 Support server
1-a LCA database
1-c Concrete solution menu
1-e Environmental Impact Assessment Program
1-f Consultant database
1-g Access user data recording
1-h Basic unit data 3 User terminal 4 Management server of environmental load evaluation support system

Claims (5)

An environmental load evaluation support system for reducing the environmental load of a concrete structure, comprising a support server and at least one user terminal connected via a communication line,
The support server includes
Communication means for sending and receiving data to and from the user terminal;
An environmental load evaluation means for performing an environmental load evaluation of a concrete structure;
Environmental impact assessment database that stores examples of concrete structures,
A concrete solution menu that stores concrete materials and construction methods,
In the user terminal,
Comprising communication means for transmitting and receiving data to and from the support server;
Based on the result of executing the environmental load evaluation on the evaluation target model of the concrete structure input at the user terminal by the support server and the search result of the environmental load evaluation database and / or the concrete solution menu, the environmental load is further increased. An environmental impact assessment support system characterized by creating a reduced model. The environmental load evaluation support system according to claim 1, wherein the environmental load evaluation database stores a newly created model as an example. An environmental load evaluation support method for reducing the environmental load of a concrete structure, comprising a support server connected via a communication line and at least one user terminal,
A step of transmitting an evaluation target model of a concrete structure input at a user terminal to a support server and executing an environmental load evaluation;
Performing a search for an environmental impact assessment database and / or a concrete solution menu according to the environmental impact assessment results;
Creating a model with reduced environmental load based on the search results;
An environmental load evaluation support method comprising: Performing an environmental load evaluation comparison between the model created based on the search result and the model to be evaluated, and repeating the creation of the model according to the comparison result,
The environmental load evaluation support method according to claim 3, further comprising: An environmental load consultant support method characterized in that further detailed design related to the contents of the comprehensive report created by the environmental load evaluation support method according to claim 3 or 4 is executed using a consultant database.