Website EcoIndex

Ecodesign level of the website

  • A
  • B
  • C
  • D
  • E
  • F
  • G
  • Ecoindex score : 77,59/100
  • Average water consumption per 1,000 users (in litres): 21.74 (equal to 2 cases of mineral water).*
  • Average greenhouse gas emissions per 1,000 users (in kg of CO2e): 1.45 (equal to an 8 km journey in a combustion-engine car).*

Assessment method

Like all digital productions, this website has an environmental impact, details of which are provided on this page using standard metrics.

We use the EcoIndex reference framework developed by GreenIT.fr to assess the website’s environmental performance. This is quantified on the basis of two kinds of metrics:

  • Ecodesign level of the website. This metric assesses the implementation of best practices to reduce a web page’s impact. The level achieved is represented by a rating from A to G (A being the best) along with an absolute score of 0 to 100 (100 being the best).
  • Water consumption and greenhouse gas emissions relating to page loading. This metric shows fresh water consumption (cl) and greenhouse gas emissions (g CO2e) relating to loading a web page.

For summary purposes, four types of data are used:

  • Ecodesign level for the website’s 5 most visited pages
  • Ecodesign level for 5 typical user scenarios for the website
  • Water consumption (in litres) and greenhouse gas emissions (kg CO2e) relating to loading a web page for 1 user, per 1,000 users.
  • Water consumption (in litres) and greenhouse gas emissions (kg CO2e) relating to executing a scenario for 1 user, per 1,000 users.

The analysis was done on September, 20th 2023 and may be subject to change: the environmental impact as quantified below represents a snapshot at a given time.

 

Ecodesign level of the website’s 5 most visited pages

Page 1 : Homepage

EcoIndex: 45,8/100 (Note: D)
Water Consumption (cl): 3,12
GGE (gCO2e): 2,08
Request number: 74
Page Size (KB): 2604
Dom Size: 642

  • Water consumption per 1,000 users (in litres): 31,2 (equal to 3 cases of mineral water)
  • Greenhouse gas emissions per 1,000 users (in kg of CO2e): 2,08 (equal to a 9 km journey in a combustion-engine car).

Page 2 : Product

EcoIndex: 72,25/100 (Note: B)
Water Consumption (cl): 2,33
GGE (gCO2e): 1,55
Request number: 5
Page Size (KB): 107
Dom Size: 583

  • Water consumption per 1,000 users (in litres): 23,3 (equal to 3 cases of mineral water).
  • Greenhouse gas emissions per 1,000 users (in kg of CO2e): 1,55 (equal to an 8 km journey in a combustion-engine car).

Page 3 : Product list

EcoIndex: 39,19/100 (Note: E)
Water Consumption (cl): 3,32
GGE (gCO2e): 2,22
Request number: 82
Page Size (KB): 899
Dom Size: 718

  • Water consumption per 1,000 users (in litres): 33,2 (equal to 4 cases of mineral water).
  • Greenhouse gas emissions per 1,000 users (in kg of CO2e): 2,22 (equal to a 9 km journey in a combustion-engine car).

Page 4 : Product enquiry

EcoIndex: 47,65/100 (Note: D)
Water Consumption (cl): 3,07
GGE (gCO2e): 2,05
Request number: 67
Page Size (KB): 4323
Dom Size: 627

  • Water consumption per 1,000 users (in litres): 30,7 (equal to 3 cases of mineral water).
  • Greenhouse gas emissions per 1,000 users (in kg of CO2e): 2,05 (equal to an 8 km journey in a combustion-engine car).

Page 5 : Science, research and development

EcoIndex: 49,58/100 (Note: D)
Water Consumption (cl): 3,01
GGE (gCO2e): 2,01
Request number: 70
Page Size (KB): 4180
Dom Size: 563

  • Water consumption per 1,000 users (in litres): 30,1 (equal to 3 cases of mineral water).
  • Greenhouse gas emissions per 1,000 users (in kg of CO2e): 2,01 (equal to an 8 km journey in a combustion-engine car).

Impact for 5 user scenarios on the website

Scenario 1: Contact SWM about one of its solutions

  • Objective: To request information about one or more solutions
  • Target clickstream: load home page, view solutions on offer, contact to request information
Homepage Product page Produit enquiry
EcoIndex 45,8/100 (Note: D) 72,25/100 (Note: B) 47,65/100 (Note: D)
Water Consumption (cl) 3,12 2,33 3,07
GGE (gCO2eq) 2,08 1,55 2,05
Request number 74 5 67
Page size (KB) 2604 107 4323
DOM size 642 583 627
  • Water consumption per 1,000 users (in litres): 85,2 (equal to 9 cases of mineral water).
  • Greenhouse gas emissions per 1,000 users (in kg of CO2e): 6,58 (equal to a 30 km journey in a combustion-engine car).

Scenario 2: Discovering products through a list

  • Objective: Looking for several products
  • Target clickstream: load home page, click on “all products” in the menu and on a specific product
Homepage Product list page Product page
EcoIndex 45,8/100 (Note: D) 39,19/100 (Note: E) 72,25/100 (Note: B)
Water Consumption (cl) 3,12 3,32 2,33
GGE (gCO2eq) 2,08 2,22 1,55
Request number 74 82 5
Page size (KB) 2604 899 107
DOM size 642 718 583

 

  • Water consumption per 1,000 users (in litres): 87,7 (equal to 10 cases of mineral water).
  • Greenhouse gas emissions per 1,000 users (in kg of CO2e): 8,7 (equal to a 41 km journey in a combustion-engine car).

Scenario 3: View expertise

  • Objective: access an expertise through the menu
  • Target clickstream: load home page, click on “Expertise” in the menu and “Science, Research and Development”

 

Homepage Science, R&D
EcoIndex 45,8/100 (Note: D) 49,58/100 (Note: D)
Water Consumption (cl) 3,12 3,01
GGE (gCO2eq) 2,08 2,01
Request number 74 70
Page size (KB) 2604 4180
DOM size 642 563

 

  • Water consumption per 1,000 users (in litres): 61,3 (equal to 7 cases of mineral water).
  • Greenhouse gas emissions per 1,000 users (in kg of CO2e): 6,12 (equal to a 28 km journey in a combustion-engine car).

Scenario 4: Checking the products then click on an expertise to learn more about SWM

  • Objective: access to an expertise after discovering products
  • Target clickstream: load home page, click on “all products” call to action, scrolling and click on an expertise
Homepage Product list Science, R&D
EcoIndex 45,8/100 (Note: D) 39,19/100 (Note: E) 49,58/100 (Note: D)
Water Consumption (cl) 3,12 3,32 3,01
GGE (gCO2eq) 2,08 2,22 2,01
Request number 74 82 70
Page size (KB) 2604 899 4180
DOM size 642 718 563

 

  • Water consumption per 1,000 users (in litres): 94,5 (equal to 11 cases of mineral water).
  • Greenhouse gas emissions per 1,000 users (in kg of CO2e): 9,45 (equal to a 44 km journey in a combustion-engine car).

Scenario 5: Going to different product pages

  • Objective: access to several products pages
  • Target clickstream: load home page, click on a product and on a related product
Homepage Product page Product page 
EcoIndex 45,8/100 (Note: D) 72,25/100 (Note: B) 72,25/100 (Note: B)
Water Consumption (cl) 3,12 2,33 2,33
GGE (gCO2eq) 2,08 1,55 1,55
Request number 74 5 5
Page size (KB) 2604 107 107
DOM size 642 583 583

 

  • Water consumption per 1,000 users (in litres): 77,8 (equal to 9 cases of mineral water).
  • Greenhouse gas emissions per 1,000 users (in kg of CO2e): 7,78 (equal to a 36 km journey in a combustion-engine car).

Ecodesign

Ecodesign uses a methodology and best practices to reduce the website’s impact on the environment. In concrete, this will be achieved by limiting the technical resources required to display a page or execute a functionality, while still meeting the user’s needs as best possible.

Are you a digital professional and do you want to reduce the environmental impact of your websites? Here are a few best practices to adopt:

A few ergonomics and design best practices

          • Limit the number of functionalities at the design stage
          • Get rid of unused functionalities
          • Limit the number of carousels
          • Choose lightweight fonts
          • Opt for simple, pared-back designs
          • Adopt a “mobile-first” approach where possible
          • Opt for infinite scrolling pagination
          • Avoid automatic reading and downloading of videos and sounds
          • Optimise the user experience

A few content management best practices

          • Give preference to images over videos
          • Limit the number of images on each page
          • Optimise the size of images in the target format
          • Compress images using a tool like TinyPNG
          • Compress PDFs using a tool like iLovePDF
          • Limit use of animated GIFs
          • Give preference to glyphs over images

A few development best practices

          • Offer asynchronous processing where possible
          • Only use the essential parts of JS and CSS libraries
          • Cache frequently used data
          • Limit the number of HTTP API calls
          • Reduce the volume of stored data to what is strictly necessary
          • Use the latest language version
          • Provide a textual alternative to multimedia content
          • Separate CSS
          • Don’t change the DOM when using it
          • Use lazy loading
          • Validate pages with W3C
          • Add Expires or Cache-Control headers
          • Compress text files: CSS, JS, HTML and SVG
          • Create an efficient sitemap

A few hosting best practices

          • Choose an environmentally responsible hosting company
          • Install the minimum required on the server
          • Make use of managed services
          • Ensure that servers run at optimum energy efficiency
          • Reduce server logs to what is necessary
          • Apache Vhost: disable AllowOverride
          • Use virtualised servers
          • Use an asynchronous server
          • Store data in the cloud

To create your environmental statement:

Access documentation

To view the full list of web ecodesign best practices:

Access the GreenIT website

Access the GreenIT depository (GitHub)

For more information about EcoIndex:

Find out more about the EcoIndex reference framework

Access the EcoIndex website

*Average environmental impact of this website’s 5 most visited pages.