Before developing methodologies, a process for consistently generating them needs to be established. This is referred to as a weather adaptation "Project.
We will guide your company to establish a carbon inventory and management system, design a carbon reduction plan, and strive to achieve the goal of carbon neutrality!
Industry first
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Through Procedures and Frameworks
Carbon footprint calculation is mainly used to calculate the carbon content of goods or services and activities.
We assist with overall life cycle assessments and calculate greenhouse gas emissions.
At the same time, if necessary, we can assist in evaluating the EU CBAM declaration, and gradually complete the [Company Boundary Carbon Inventory] and [CBAM Scope Product Carbon Footprint] based on the carbon dioxide equivalent per ton of specific goods.
Weather Adaptation: 3 Levels
Weather adaptation is a component of geoengineering, which can be broken down into the following three levels:
01
Weather Adaptation Domain
This involves mitigating the intensity of weather disasters in specific areas or for specific targets within a short timeframe. It also includes preemptive prediction and intervention in weather conditions to enhance the resilience of socio-ecological systems and improve their ability to withstand climate disasters.
02
Weather Adaptation Engineering
The Royal Society defined geoengineering in 2009 as "the deliberate large-scale manipulation of the Earth's environment and climate to counteract the effects of Earth's climate change." The weather adaptation engineering referred to in this book primarily includes adaptation technologies in weather under target conditions, encompassing small and micro-scale applications.
03
Weather Adaptation Technology
This refers to the specific technologies applied for small and micro-scale weather adaptation, including artificial rainfall enhancement, rain suppression, and fog reduction.
For example, the current widespread rainfall technologies primarily operate at a short-term, micro-scale level, lacking standardized tools and methods for quantifying their benefits.
Foundation of Weather Adaptation Technology
Weather Boundary:
This refers to the regional scope of weather conditions within a short timeframe.
Weather Adaptation Boundary
This defines the scope of weather adaptation within a specific boundary, encompassing project scope, adaptation, monitoring, and tracking of the entire adaptation project.
Weather Adaptation Project
This refers to the methods implemented during the adaptation process, including how to adapt, quantification methods, adaptation goals, adaptation calculations, and results.
Stakeholders
Stakeholders can be plural; different stakeholders will be involved depending on the adaptation project's methods and goals. Most are multiple parties.
Weather Adaptation Risk Level and Rainfall Threshold Conditions
Weather Adaptation Risk Level
This involves assessing adaptation risks based on the target region, avoiding high-risk areas, and reducing risks and conflicts.
Rainfall Threshold Conditions
The parameters for weather adaptation, specifically the critical conditions for achieving rainfall in a given region and weather environment. These parameters are key indicators for local weather adaptation.
How can weather adaptation be applied worldwide?
Making it rain where it's needed, in weather adaptation, we call it "precision rainfall."
Weather adaptation is a component of geoengineering, which can be broken down into the following three levels:
Level One
Successful rainfall within the target area.
Level Two
Successfully achieve rainfall within the target area and reach the target rainfall amount, or successfully achieve rainfall at the target time. One of two must be met.
Level Three
Successful rainfall within the target area and at the target time, with the achievement of the target rainfall amount.
The definition of these levels is based on "regional boundaries," "target benefits," and "time." Under this technology adaptation, the goal is to delay or advance rainfall, thereby reducing weather disasters in critical areas or increasing rainfall in water catchment areas.
