CIRCLE
CIRCLE
CIRCLE
Carbon Impact Reduction Calculator for Lifestyle and Environment
Carbon Impact Reduction Calculator for Lifestyle and Environment
CIRCLE is an open-source library designed to allow manufacturers and brands to analyze a product's life cycle through the mixing ratio of clothes, allowing them to intuitively and quickly calculate their carbon footprint. The tool supports efficient analysis while minimizing associated costs and time resources.
CIRCLE is an open-source library designed to allow manufacturers and brands to analyze a product's life cycle through the mixing ratio of clothes, allowing them to intuitively and quickly calculate their carbon footprint. The tool supports efficient analysis while minimizing associated costs and time resources.
CIRCLE is an open-source library designed to allow manufacturers and brands to analyze a product's life cycle through the mixing ratio of clothes, allowing them to intuitively and quickly calculate their carbon footprint. The tool supports efficient analysis while minimizing associated costs and time resources.
DEtail of
DEtail of
DEtail of
CALCULATION
CALCULATION
CALCULATION
Methodology
Methodology
Methodology
ManufaCturing
ManufaCturing
ManufaCturing
CNRI
CNRI
CNRI
Depending on the weight of the clothing, the value calculated through the carbon emission generated in the manufacturing process and the mixing rate of the materials used in the clothing is upstream. Carbon emissions that can be generated during the fabric manufacturing process for each material are also applied to the mixing rate calculation.
Depending on the weight of the clothing, the value calculated through the carbon emission generated in the manufacturing process and the mixing rate of the materials used in the clothing is upstream. Carbon emissions that can be generated during the fabric manufacturing process for each material are also applied to the mixing rate calculation.
Depending on the weight of the clothing, the value calculated through the carbon emission generated in the manufacturing process and the mixing rate of the materials used in the clothing is upstream. Carbon emissions that can be generated during the fabric manufacturing process for each material are also applied to the mixing rate calculation.
transport
transport
transport
CNRI
CNRI
CNRI
It is the sum of the carbon that can be generated in each step of the process of producing a garment and then transporting it to the consumer. In the shipping process, the carbon footprint is calculated when the garment is transported by ship from the country of production to the country of consumption. The logic behind the calculation includes fuel efficiency, electricity costs, weight of the shipment, and carbon emissions per kilometer.
It is the sum of the carbon that can be generated in each step of the process of producing a garment and then transporting it to the consumer. In the shipping process, the carbon footprint is calculated when the garment is transported by ship from the country of production to the country of consumption. The logic behind the calculation includes fuel efficiency, electricity costs, weight of the shipment, and carbon emissions per kilometer.
It is the sum of the carbon that can be generated in each step of the process of producing a garment and then transporting it to the consumer. In the shipping process, the carbon footprint is calculated when the garment is transported by ship from the country of production to the country of consumption. The logic behind the calculation includes fuel efficiency, electricity costs, weight of the shipment, and carbon emissions per kilometer.
Maintance
Maintance
Maintance
CARE ID
CARE ID
CARE ID
It is the sum of the carbon that is used by the consumer to maintain the clothes after the clothes are delivered to the consumer. The calculation includes the average number of washes by type of clothing, the average length of time the clothes were used, and the average value of the carbon that was once washed.
It is the sum of the carbon that is used by the consumer to maintain the clothes after the clothes are delivered to the consumer. The calculation includes the average number of washes by type of clothing, the average length of time the clothes were used, and the average value of the carbon that was once washed.
It is the sum of the carbon that is used by the consumer to maintain the clothes after the clothes are delivered to the consumer. The calculation includes the average number of washes by type of clothing, the average length of time the clothes were used, and the average value of the carbon that was once washed.
Retire / recycle
Retire / recycle
Retire / recycle
US-EPA
US-EPA
US-EPA
It is the amount of carbon emissions that can occur when consumers dispose of or recycle clothes.
It is the amount of carbon emissions that can occur when consumers dispose of or recycle clothes.
It is the amount of carbon emissions that can occur when consumers dispose of or recycle clothes.
EASY
Comparison
EASY
Comparison
EASY
Comparison
CHARGING YOUR PHONE
CHARGING YOUR PHONE
CHARGING YOUR PHONE
The calculation is based on 0.0005 kWh per hour, which varies by smartphone model but is the average amount consumed. The carbon emissions per kWh of electricity also varies by country or region, but on average we calculated 0.5 kgCO2/kwh. This is a value that intuitively resonates with consumers.
The calculation is based on 0.0005 kWh per hour, which varies by smartphone model but is the average amount consumed. The carbon emissions per kWh of electricity also varies by country or region, but on average we calculated 0.5 kgCO2/kwh. This is a value that intuitively resonates with consumers.
The calculation is based on 0.0005 kWh per hour, which varies by smartphone model but is the average amount consumed. The carbon emissions per kWh of electricity also varies by country or region, but on average we calculated 0.5 kgCO2/kwh. This is a value that intuitively resonates with consumers.
Driving Distance
Driving Distance
Driving Distance
The fuel economy of a car varies greatly depending on the model and environment, but we'll take an average value for the calculation and assume 10 km/L. Since carbon emissions per liter of gasoline are approximately 2.31 kgCO2/L, we can convert this to car miles traveled.
The fuel economy of a car varies greatly depending on the model and environment, but we'll take an average value for the calculation and assume 10 km/L. Since carbon emissions per liter of gasoline are approximately 2.31 kgCO2/L, we can convert this to car miles traveled.
The fuel economy of a car varies greatly depending on the model and environment, but we'll take an average value for the calculation and assume 10 km/L. Since carbon emissions per liter of gasoline are approximately 2.31 kgCO2/L, we can convert this to car miles traveled.
treeS
treeS
treeS
This is the number of trees needed to offset the carbon. It depends on the type of tree, but on average a single tree is known to absorb around 22 kilograms of carbon dioxide per year. Use this threshold to determine the number of trees needed to offset your carbon footprint.
This is the number of trees needed to offset the carbon. It depends on the type of tree, but on average a single tree is known to absorb around 22 kilograms of carbon dioxide per year. Use this threshold to determine the number of trees needed to offset your carbon footprint.
This is the number of trees needed to offset the carbon. It depends on the type of tree, but on average a single tree is known to absorb around 22 kilograms of carbon dioxide per year. Use this threshold to determine the number of trees needed to offset your carbon footprint.
water
water
water
Purified water has a very small effect on CO2 uptake, so this value is an indirect calculation of how much water a tree needs to absorb carbon.
Purified water has a very small effect on CO2 uptake, so this value is an indirect calculation of how much water a tree needs to absorb carbon.
Purified water has a very small effect on CO2 uptake, so this value is an indirect calculation of how much water a tree needs to absorb carbon.
Short
Short
Short
STEP
STEP
STEP
01
Input Name
01
Input Name
01
Input Name
Enter the name of your project or product.
Enter the name of your project or product.
Enter the name of your project or product.
02
Select a type
02
Select a type
02
Select a type
Choose a type of clothing. this is necessary because different types of clothing have different carbon footprints. We've categorized them to make it easy for you to find them.
Choose a type of clothing. this is necessary because different types of clothing have different carbon footprints. We've categorized them to make it easy for you to find them.
Choose a type of clothing. this is necessary because different types of clothing have different carbon footprints. We've categorized them to make it easy for you to find them.
03
Input composition
03
Input composition
03
Input composition
This step is to fill in the material mix of the garment, which is the most important step, as it calculates how much carbon each material contributes to the total carbon footprint of the garment.
This step is to fill in the material mix of the garment, which is the most important step, as it calculates how much carbon each material contributes to the total carbon footprint of the garment.
This step is to fill in the material mix of the garment, which is the most important step, as it calculates how much carbon each material contributes to the total carbon footprint of the garment.
04
Input SHIPPING INFO
04
Input SHIPPING INFO
04
Input SHIPPING INFO
The last step is to enter the transportation information. You can select the departure and arrival ports, which are automatically calculated for you. You can also enter the vehicle transportation information. This includes vehicle miles traveled, vehicle loads per load, vehicle combined fuel efficiency, transportation power, WTT, TTW, diesel density, and power applied to a single garment. If any of the input values are unknown, the average value is entered by default.
The last step is to enter the transportation information. You can select the departure and arrival ports, which are automatically calculated for you. You can also enter the vehicle transportation information. This includes vehicle miles traveled, vehicle loads per load, vehicle combined fuel efficiency, transportation power, WTT, TTW, diesel density, and power applied to a single garment. If any of the input values are unknown, the average value is entered by default.
The last step is to enter the transportation information. You can select the departure and arrival ports, which are automatically calculated for you. You can also enter the vehicle transportation information. This includes vehicle miles traveled, vehicle loads per load, vehicle combined fuel efficiency, transportation power, WTT, TTW, diesel density, and power applied to a single garment. If any of the input values are unknown, the average value is entered by default.
CIRCLE provides transparent impact for the sustainable fashion industry for individuals and companies of the future.
CIRCLE provides transparent impact for the sustainable fashion industry for individuals and companies of the future.
CIRCLE provides transparent impact for the sustainable fashion industry for individuals and companies of the future.
ABOUT
ABOUT
ABOUT
US
US
US
CARE ID
CARE ID
CARE ID
CARE ID is a product of YUNE, a sustainable fashion solutions company founded in South Korea that provides ESG solutions related to fashion and strives to help individuals and businesses achieve a sustainable fashion lifestyle by being aware of their carbon footprint. According to the United Nations, global carbon emissions from discarded clothing amount to 12 billion tonnes per year, accounting for 10% of greenhouse gas emissions. In addition, the wastewater generated by clothing manufacturing accounts for approximately 20% of global wastewater. To address these issues, CareID has developed a sustainable service that addresses the imbalance in the clothing lifecycle and encourages a simpler, more natural way of life. Since the launch of the service in 2020, we have so far reduced approximately 117 tonnes of carbon, contributing to environmental protection and sustainability. These efforts aim to help customers make personal lifestyle changes to achieve sustainable fashion, inspire businesses to adopt greener practices and ultimately contribute to solving global environmental challenges.
CARE ID is a product of YUNE, a sustainable fashion solutions company founded in South Korea that provides ESG solutions related to fashion and strives to help individuals and businesses achieve a sustainable fashion lifestyle by being aware of their carbon footprint. According to the United Nations, global carbon emissions from discarded clothing amount to 12 billion tonnes per year, accounting for 10% of greenhouse gas emissions. In addition, the wastewater generated by clothing manufacturing accounts for approximately 20% of global wastewater. To address these issues, CareID has developed a sustainable service that addresses the imbalance in the clothing lifecycle and encourages a simpler, more natural way of life. Since the launch of the service in 2020, we have so far reduced approximately 117 tonnes of carbon, contributing to environmental protection and sustainability. These efforts aim to help customers make personal lifestyle changes to achieve sustainable fashion, inspire businesses to adopt greener practices and ultimately contribute to solving global environmental challenges.
CARE ID is a product of YUNE, a sustainable fashion solutions company founded in South Korea that provides ESG solutions related to fashion and strives to help individuals and businesses achieve a sustainable fashion lifestyle by being aware of their carbon footprint. According to the United Nations, global carbon emissions from discarded clothing amount to 12 billion tonnes per year, accounting for 10% of greenhouse gas emissions. In addition, the wastewater generated by clothing manufacturing accounts for approximately 20% of global wastewater. To address these issues, CareID has developed a sustainable service that addresses the imbalance in the clothing lifecycle and encourages a simpler, more natural way of life. Since the launch of the service in 2020, we have so far reduced approximately 117 tonnes of carbon, contributing to environmental protection and sustainability. These efforts aim to help customers make personal lifestyle changes to achieve sustainable fashion, inspire businesses to adopt greener practices and ultimately contribute to solving global environmental challenges.
source
source
source
CNRI
carbon
neutral
research
institute
CNRI carbon neutral research institute
CNRI carbon neutral research institute
CNRI, consisting of entrepreneurs from the Department of Mechanical Engineering at Seoul National University, is recognized for its technology by working on a global carbon footprint standard with the United Nations.
CNRI, consisting of entrepreneurs from the Department of Mechanical Engineering at Seoul National University, is recognized for its technology by working on a global carbon footprint standard with the United Nations.
CNRI, consisting of entrepreneurs from the Department of Mechanical Engineering at Seoul National University, is recognized for its technology by working on a global carbon footprint standard with the United Nations.