Environmental statement for the P’Artisan filmproduktion website
Website eco-design level
- A
- B
- C
- D
- E
- F
- G
- Note Ecoindex : 78/100
- Average water consumption per 1,000 users: 21.7 liters, equivalent to 2 packs of mineral water. *
- Average greenhouse gas (GHG) emissions per 1,000 users: 1.45 kilos CO2e, equivalent to a 7 km journey in a combustion-powered car. *
Valuation method
Like all digital production, this website has an environmental impact, which we present on this page using standardized indicators.
We use the EcoIndex benchmark proposed by the GreenIT.fr collective, to assess the environmental performance of this website. This is quantified using two types of indicators:
- Web site eco-design level. This indicator evaluates the implementation of best practices to reduce the impact of a web page. The level achieved is represented by a relative evaluation from A to G (A is the best score) combined with an absolute score from 0 to 100 (100 is the best score).
- Water consumption and GHG emissions related to page loading. This indicator quantifies the freshwater consumption (cl) and GHG emissions (gCO2e) associated with loading a web page.
For summary purposes, four types of data are shown:
- Ecodesign level for the 4 main pages of the website
- Ecodesign level for 2 website user paths
- Water consumption (expressed in liters) and GHG emissions (kilos CO2e) linked to the loading of a web page for 1 user, based on 1,000 users.
- Water consumption (expressed in liters) and GHG emissions (kilos CO2e) linked to the execution of a run for 1 user, compared with 1,000 users.
The analysis shown was carried out on June 26, 2024, and is subject to change: the quantification of environmental impacts presented below is a snapshot taken at a point in time.
Evaluation of the impact of the site’s 4 main pages
Page 1 : Accueil
EcoIndex | 75/100 |
---|---|
Water (cl) | 2.25 |
GHG (gCO2eq) | 1.5 |
Number of requests | 21 |
Page size (Ko) | 318 |
Size of DOM | 432 |
- Water consumption per 1,000 users: 22.5 liters, equivalent to 3 packs of mineral water.
- GHG emissions per 1,000 users: 1.5 kilos CO2e, equivalent to a 7 km journey in a combustion-powered car.
Page 2 : Films
EcoIndex | 72/100 |
---|---|
Water (cl) | 2.34 |
GHG (gCO2eq) | 1.56 |
Number of requests | 14 |
Page size (Ko) | 300 |
Size of DOM | 545 |
- Water consumption per 1,000 users: 23.4 liters, equivalent to 3 packs of mineral water.
- GHG emissions per 1,000 users: 1.56 kilos CO2e, equivalent to a 7 km journey in a combustion-powered car.
Page 3 : About us
EcoIndex | 82/100 |
---|---|
Water (cl) | 2.04 |
GHG (gCO2eq) | 1.36 |
Number of requests | 10 |
Page size (Ko) | 235 |
Size of DOM | 317 |
- Water consumption per 1,000 users: 20.4 liters, equivalent to 2 packs of mineral water.
- GHG emissions per 1,000 users: 1.36 kilos CO2e, equivalent to a 6 km journey in a combustion-powered car.
Page 4 : Contact
EcoIndex | 82/100 |
---|---|
Water (cl) | 2.04 |
GHG (gCO2eq) | 1.36 |
Number of requests | 10 |
Page size (Ko) | 254 |
Size of DOM | 309 |
- Water consumption per 1,000 users: 20.4 liters, equivalent to 2 packs of mineral water.
- GHG emissions per 1,000 users: 1.36 kilos CO2e, equivalent to a 6 km journey in a combustion-powered car.
Impact assessment for 2 user paths on the site
Path 1: Information
- Purpose of the path: find out about the company and its services
- Target path: load home page, load “films” page, load “About us” page
Water (cl) | 6.63 |
---|---|
GHG (gCO2eq) | 4.42 |
Total number of requests | 45 |
Total page size (Ko) | 853 |
Total size of DOM | 1 294 |
- Water consumption per 1,000 users: 66.3 liters, or 8 packs of mineral water.
- GHG emissions per 1,000 users: 4.42 kilos CO2e, equivalent to a 21 km journey in a combustion-powered car.
Path 2 : Get in touch
- Purpose of the path: find company contact details
- Target path : load home page, load contact page
Water (cl) | 4.29 |
---|---|
GHG (gCO2eq) | 2.86 |
Total number of requests | 31 |
Total page size (Ko) | 741 |
Total size of DOM | 1 332 |
- Water consumption per 1,000 users: 42.9 liters, or 5 packs of mineral water.
- GHG emissions per 1,000 users: 2.86 kilos CO2e, equivalent to a 13 km journey in a combustion-powered car.
Ecodesign
Ecodesign is based on a methodology and a set of best practices designed to reduce the impact of a website on its environment. In concrete terms, this means limiting the technical resources required to display a page or execute a function, while staying as close as possible to the user’s needs.
Are you a digital professional looking to reduce the environmental impact of your sites? Here are a few best practices to implement:
Best practices in ergonomics and design
- Limit the number of features at the design stage
- Delete unused functions
- Limit the number of carousels
- Choose lightweight typefaces
- Favour simple, uncluttered designs
- Adopt a mobile-first approach whenever possible
- Prefer pagination to infinite scrolling
- Avoid automatic playback and loading of videos and sounds
- Optimizing user paths
- …
Best practices in content management
- Choose images over videos
- Limit the number of images on each page
- Optimize image size for target format
- Compress images using a tool like TinyPNG
- Compress pdfs with a tool like iLovePDF
- Limiting the use of animated GIFs
- Prefer glyphs to images
- …
Some good development practices
- Offer asynchronous treatment whenever possible
- Use only the essential parts of the JS and CSS libraries
- Cache frequently used calculated data
- Limit the number of calls to HTTP APIs
- Reduce the volume of stored data to the bare minimum
- Use the most recent version of the language
- Provide a text-based alternative to multimedia content
- Cutting CSS
- Do not modify the DOM when traversing it
- Use lazy loading
- Validate pages with W3C
- Add Expires or Cache-Control headers
- Compressing text files: CSS, JS, HTML and SVG
- Setting up an efficient sitemap
- …
A few best practices in terms of accommodation
- Choosing an eco-responsible web host
- Install the minimum server requirements
- Rely on managed services
- Optimizing server energy efficiency
- Reduce server logs to a minimum
- Apache Vhost: disable AllowOverride
- Use virtualized servers
- Using an asynchronous server
- Store data in the cloud
- …
To set up your environmental declaration:
To consult the complete list of ecodesign best practices, click here:
Access the GreenIt repository (GitHub)
Find out more about EcoIndex:
Find out more about the EcoIndex reference system
*Average environmental impact of the 4 most visited pages on this website.