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In the previous article, we introduced the features of four representative "environmental assessment support tools" and briefly summarized how each product can be useful in research and development.
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The characteristics of these products will be applied to their strengths in each research and development phase.From basic research to product developmentWe will introduce more specific examples of how it can be useful in each phase leading up to the goal.
Environment from the research phase
We have summarized how four distinctive environmental assessment support tools are useful in each research phase. Diversity of data is important in basic research, while precise models that correspond to specific environmental conditions and areas are required in product development. The examples introduced here are only a part of the applications, but we hope they will be useful. Combining multiple tools enables more comprehensive environmental assessment and analysis.
Basic research phase: Elucidating mechanisms and collecting basic data
Basic research phaseThe use of environmental assessment support tools in the field will efficiently advance the development of models that will serve as the foundation for the analysis of groundwater flow, contaminant diffusion, flood risk, water quality changes, chemical reactions, etc. By utilizing a variety of data and simulations, highly accurate assessments can be achieved from the early stages of research.
| scene | Tools used | Message |
|---|---|---|
| Analysis of groundwater flow |  |
Analyzing groundwater flow patterns and constructing a basic flow rate model |
| Flood risk modelling |  |
Creating an initial model to predict water flow patterns during floods and visualize inundated areas |
| Fundamental analysis of chemical reactions |  |
Modeling heavy metal contamination and chemical reaction mechanisms to consider solubility and reaction pathways |
| Acoustic survey of marine ecosystems |  |
Collecting underwater acoustic data and analyzing basic behavioral patterns based on the sounds of living creatures and ocean noise |
For example, this combination:
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GMS + SMS
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Gaining fundamental knowledge through detailed analysis of chemical reactions and material diffusion mechanisms in groundwater |
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SMS + GMS
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Fundamental research into the mechanisms of interaction between surface water and groundwater |
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SMS + G.W.B.
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Fundamental research into chemical reaction processes in surface water |
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GMS + SMS + G.W.B.
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Detailed analysis of surface water-groundwater interaction mechanisms and chemical reaction processes |
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G.W.B. + SoundTrap
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Collection of basic chemical and physical data in the marine environment and analysis of interactions |
Applied research phase | Practical model building and risk assessment
Applied research phaseWe utilize knowledge gained from basic research to propose solutions to real environmental problems. By combining multiple tools, we can build comprehensive assessment models that consider the interactions between groundwater, surface water, and marine environments, enabling more realistic assessment and prediction of environmental risks.
| scene | Tools used | Message |
|---|---|---|
| Prediction of pollutant dispersion | |
Predict how contaminants spread in groundwater and develop risk assessment models |
| Flood risk assessment and mapping | |
Simulating different precipitation conditions and designing flood hazard maps |
| Quantifying contamination risks | |
Modeling the transport of chemical substances to quantitatively evaluate the risk of heavy metal contamination spreading |
| Noise impact assessment | |
Analyzing noise data and building models to evaluate the impact on living organisms and ecosystems |
For example, this combination:
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GMS + SMS
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Analyzing the relationship between groundwater and surface water in detail and building models to solve practical problems |
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GMS + G.W.B.
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Specific contamination risk assessment and countermeasure model construction |
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SMS + SoundTrap
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Modeling and risk assessment of coastal and marine environments |
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G.W.B. + SoundTrap
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Risk assessment of marine ecosystems and prediction of the impact of chemical pollution |
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GMS + SMS + SoundTrap
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Construction of an integrated environmental impact assessment model for groundwater, surface water, and ocean in coastal areas |
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GMS + SMS + G.W.B. + SoundTrap
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Comprehensive modeling of material circulation in complex environmental systems |
Prototype and testing phase | Demonstration testing and improvement
Prototype and test phaseIt is important to evaluate the performance of the developed models and systems in the context of the operating environment. Through demonstration experiments, we will verify the accuracy of water quality predictions and environmental impact assessments that utilize the characteristics of each tool, and proceed with the construction of a practical system. By comparing and verifying with field data and incorporating the knowledge of experts, we aim to improve the models and add new functions, thereby realizing a more reliable environmental assessment system.
| scene | Tools used | Message |
|---|---|---|
| Verification of the pollution diffusion model | |
Optimize the groundwater contamination model by comparing actual data with simulation results |
| Prototype of flood prediction model | |
Verifying the performance of a model for predicting the extent of flooding and evaluating disaster prevention measures |
| Reproducibility of chemical processes | |
Improve chemical reaction modeling accuracy by comparing experimental data with model results |
| Performance evaluation of long-term recording | |
Collecting recording data in a marine environment to verify recording quality and durability |
For example, this combination:
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GMS + G.W.B.
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Demonstration experiment of groundwater contamination countermeasure technology |
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SMS + G.W.B.
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Demonstration test of purification technology in surface water environment |
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GMS + SMS + G.W.B.
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Testing an integrated water purification system prototype |
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SMS + SoundTrap
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Based on the analysis results, prototypes are evaluated and improved, and then used to test specific operational systems. |
Product development phase | Establishment of practical systems and social implementation
Product Development PhaseWe will integrate the results of our research to date and commercialize a practical environmental assessment and management system. We will develop a system that will be used in practical applications by optimally combining various tools in a way that meets social needs, such as water resource management, environmental risk assessment, and disaster prevention planning.
| scene | Tools used | Message |
|---|---|---|
| Development of groundwater management systems | |
Development of groundwater resource management and pollution control systems. Achieving efficient operation. |
| Hazard maps for disaster prevention planning | |
Flood risk maps that support real-time analysis and are useful for local disaster prevention planning |
| Development of environmental risk assessment tools | |
Developing tools to easily simulate chemical processes, improving user convenience |
| Noise Monitoring System | |
Developing a long-term marine noise monitoring system to automate environmental monitoring |
For example, this combination:
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GMS + SMS
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Comprehensive water resource management systems and disaster prevention planning tools for practical use |
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GMS + SMS + G.W.B.
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Develop comprehensive environmental assessment and management tools, including water resource management and environmental risk assessment |
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SMS + G.W.B. + SoundTrap
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Commercialization of coastal environment monitoring system |
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GMS + SoundTrap
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Development of coastal groundwater management systems |
Summary
By utilizing environmental assessment support tools, you can more efficiently tackle a wide range of issues, such as groundwater analysis, flood risk assessment, chemical reaction modeling, and marine data collection. By utilizing the unique features of each tool, you can demonstrate your strengths in a variety of situations, from basic research to product development.
By obtaining highly accurate results in a short period of time, we will be able to take a step forward in solving issues related to environmental conservation and resource management, and contribute to creating a better future.
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