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| life_cycle_assessment [2026/06/03 16:51] – [Parametric LCA] antoine | life_cycle_assessment [2026/06/16 10:45] (current) – [Definition] antoine | ||
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| ====== Life Cycle Assessment====== | ====== Life Cycle Assessment====== | ||
| - | **Life Cycle Assessment (LCA)** is a method that assesses the environmental impacts of products or systems. It is the recommended method for environmental display at the European level and standardized at the international level. This method is largely used because of its 3 main characteristics : | + | ===== Definition ===== |
| - | - **Functional :** The object of study is defined by the function it fulfills. This allows a comparison between different solutions in order to choose the best one | + | |
| - | - **Multi-criteria :** Several environmental indicators are taken into account during the study. They include global warming potential, contribution to the depletion of abiotic and fossil resources, or the contribution of ionizing radiation. These indicators are among the main contributors to the impacts of digital technology. | + | |
| - | - **Life-cycle approach :** The impacts generated during all life cycle stages of the studied object are considered : \\ | + | **Life Cycle Assessment (LCA)** is a method that assesses the environmental impacts of products or systems. It is the recommended method for environmental display at the European level and standardized at the international level. This method is largely used because of its 3 main characteristics: |
| - | * __Extraction of raw materials :__ A lot of energy, chemicals and water are needed to extract materials from the earth and refine them. Furthermore, | + | - **Functional: |
| - | * __Manufacturing :__ During manufacturing, | + | - **Multi-criteria: |
| - | * __Distribution :__ Distribution represents the transport of the digital components from their place of fabrication to their place of use, mainly from Asia to Europe for IT equipment. | + | - **Life-cycle approach:** The impacts generated during all life cycle stages of the studied object are considered: |
| + | * __Extraction of raw materials: | ||
| + | * __Manufacturing: | ||
| + | * __Distribution: | ||
| * __Use :__ The use of digital devices represents the energy consumed whilst using them. | * __Use :__ The use of digital devices represents the energy consumed whilst using them. | ||
| * __End-of-life :__ This step concerns the disposal of the devices, either recycled, buried or burnt. | * __End-of-life :__ This step concerns the disposal of the devices, either recycled, buried or burnt. | ||
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| Management environnemental — Analyse du cycle de vie — Exigences et lignes directrices]])]. Standard ISO 14040 describes the main principles of an LCA and is fairly general. Standard ISO 14044 sets out the requirements and guidelines in greater detail. | Management environnemental — Analyse du cycle de vie — Exigences et lignes directrices]])]. Standard ISO 14040 describes the main principles of an LCA and is fairly general. Standard ISO 14044 sets out the requirements and guidelines in greater detail. | ||
| - | ===== Parametric Life Cycle Analysis | + | ===== Product Envionnemental Footprint (PEF) method ===== |
| + | |||
| + | |||
| + | The LCA methodologies defined in ISO 14040 and 14044 are designed for general use. This is why there are many different LCA methods that comply with these standards. For Naknow, we chose the PEF 3.0 method [([[https:// | ||
| + | (PEF) method, EUR 29682 EN, Publications Office of the European Union, Luxembourg, 2019, ISBN 978-92-76- | ||
| + | 00654-1, doi: | ||
| + | ^ Indicator name ^ Acronym ^ Unit ^ Indicator type ^ Description ^ | ||
| + | | Resources depletion, minerals and metals | ADPe | kg Sb eq. | Impact, problem oriented | Industrial exploitation leads to a reduction in available resources, whose reserves are limited. This indicator measures the quantity of mineral and metal resources extracted from nature as if they were antimony. | | ||
| + | | Acidification potential | ||
| + | | Global warming potential | ||
| + | | Ionizing radiations | ||
| + | | Particulate matter | ||
| + | | Total primary energy | ||
| + | |||
| + | |||
| + | ===== Parametric Life Cycle Assessment | ||
| **Parametric LCA** extends traditional Life Cycle Assessment by replacing fixed input flows with adjustable parameters. | **Parametric LCA** extends traditional Life Cycle Assessment by replacing fixed input flows with adjustable parameters. | ||
| Rather than collecting inventory data directly, it infers it from **sensitivity & usable parameters** making it a hybrid of parameterization techniques and conventional LCA methodology. | Rather than collecting inventory data directly, it infers it from **sensitivity & usable parameters** making it a hybrid of parameterization techniques and conventional LCA methodology. | ||
| - | The core advantage of this approach lies in its ** reusability** | + | The core advantage of this approach lies in its **reusability:** once the parametric model is built for a given product category, it can be applied to any number of products within that category without starting from scratch. This makes it significantly **faster to update** than classical LCA, which is a particularly valuable trait in fast-moving sectors like ICT. |
| In essence, parametric LCA trades some granularity for a much leaner workflow — a deliberate trade-off calibrated to the level of accuracy that actually matters for the decisions at hand. | In essence, parametric LCA trades some granularity for a much leaner workflow — a deliberate trade-off calibrated to the level of accuracy that actually matters for the decisions at hand. | ||
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| - | ==== Product Envionnemental Footprint (PEF) method ==== | ||
| - | |||
| - | |||
| - | The LCA methodologies defined in ISO 14040 and 14044 are designed for general use. This is why there are many different LCA methods that comply with these standards. For Naknow, we chose the PEF 3.0 method [([[https:// | ||
| - | (PEF) method, EUR 29682 EN, Publications Office of the European Union, Luxembourg, 2019, ISBN 978-92-76- | ||
| - | 00654-1, doi: | ||
| - | ^ Indicator name ^ Acronym ^ Unit ^ Indicator type ^ Description ^ | ||
| - | | Resources depletion, minerals and metals | ADPe | kg Sb eq. | Impact, problem oriented | Industrial exploitation leads to a reduction in available resources, whose reserves are limited. This indicator measures the quantity of mineral and metal resources extracted from nature as if they were antimony. | | ||
| - | | Acidification potential | ||
| - | | Global warming potential | ||
| - | | Ionizing radiations | ||
| - | | Particulate matter | ||
| - | | Total primary energy | ||
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| - | **Fonctional unit** : Specific to each model. | + | **Fonctional unit**: Specific to each model. |
| - | **System boundaries** : Specific to each model. | + | **System boundaries**: |
| - | **Approach**: | + | **Approach**: |
| - | The following approach is applied for the different life cycle stages: | + | **Life |
| - | === Manufacturing === | ||
| - | ^ **How it works** ^ **Types of parameters** ^ **Types of sources** ^ | + | ==== naKnow' |
| - | | - Breakdown of the equipment into components \\ - Parametric modelling of the environmental impacts of each component \\ - Sum of the impacts of each component | Mass or surface area of material, type of material \\ Technical configuration of equipment (CPU/GPU model, amount of RAM/ | + | |
| - | + | ||
| - | ==== Parametric | + | |
| + | For each component, the methodology applied in naKnow is as follows. First, a **parametric LCA model** is built based on existing literature. **Experimental work** is then carried out to refine this model. These experiments allow us to correct the material composition of components, but do not provide information on manufacturing processes. The approach is therefore a combination of **bottom-up** and **top-down** methods. | ||
| <figure center |naknow_model> | <figure center |naknow_model> | ||
| - | {{ :: | + | {{ :naknow_model_anonymous_clean.png? |
| - | < | + | < |
| </ | </ | ||
| + | |||
| + | ===== Bibliography ===== | ||