XQueue displays the success of mass e-mail campaigns and the behavior of the recipients in this Sankey-like way.

This could of course also be shown in a pie chart, but the further down the arrow branches out the closer to the goal (getting a click on a link in the e-mail).
Diagram in German but I understand the last three categories as ‘Non-Opener’, ‘Open Only’, ‘Clicks’.

From a presentation by Swiss company CTU Clean Technology Universe AG comes this Sankey diagram for energy flows in a wood gas process.

The diagram is set up for wood with 50% humidity and an energy content of 1 MJ. The process steps drying, gasification, methanation, CO2 removal yield gas with an energy content of 0,71 MJ (71%). Much of the offheat is recovered in the process, excess heat is fed to district heating.

Wood in brown, gas in orange, heat in red and electricity in blue.

Another Sankey diagram for wood gas here.

Nicely made infographic from steelconstruction.info wiki. What happens to the building materials on demolition, how much of concrete, timber and steel can be recycled?

The three arrows are curved and start at a 7-o’clock position. Used concrete from building demolition is mostly downcycled. Wood from structural frames is mostly landfilled, or re-used. Steel has a very good recyclability and most of the material can be recovered to make new steel.

The view angle and the images of construction machines make it a very attractive infographic.

Back in May 2013 I had reported about the ‘4see model’ developed by ARUP. The model is used to visualize certain data characterizing an economy, such as value streams, jobs or energy.

Browsing for new Sankey diagrams I came across 4see again, this time in an INSEAD Faculty & Research Working Paper titled ‘The 4see Framework: Characterizing an Economy by its Socio-economic and Energy Activities’ by Roberts et.al. (2013).

The model is explained in detail and the report features a number of beautiful diagrams. Here is one of them:

I chose to present this one on financial flows over the others (on transport, energy, employment), since it has some very distinct features.

In the core of the diagram is the balance of payments. The lower part of the diagram (within the frame) has trade flows (i.e. imports to the UK on the left side, exports from the UK on the right side). Interestingly, since this is meant to depict monetary flows, the direction of the arrows is inverted: goods-receiving countries have liabilities, so the flow is from right to-left (upstream). Same holds true for the UK that has to pay for its imports.

The elements in the dotted line rectangles and the linking flows are non-trade items (i.e. the financial system), some of the within the UK, others foreign. Make sure to read the description below figure 8 on page 16 of the report if you want to learn more.

Data is for the year 2010. The key below the diagram shows the default width of a stream representing ‘£100b[2010]/y’, which I read as ‘100 billion British Pounds normalized to base year 2010 per year’. No actual numbers given for each flow, but the different types of monetary flows in relation to each other and their rough dimensions permit to interpret the diagram.

My favourite Sankey diagram in 2015, so far.

Just a quick one to get started in February.

From a German website ‘Vernunftkraft’ comes the following hand drawn (?) Sankey diagram, depicting losses in wind energy and power-to-gas technology.

Two sets of percentage values are given, apparently for two different scenarios. The second Sankey diagram would have the same layout, but different arrow widths. Here is a 2012 post on wind-to-gas-to-power.

Just discovered this new Sankey diagram video via e!Sankey Forum. Apparently just meant as a a show case for the possibilities offered by the e!Sankey software development kit (SDK).

We can see mass flows on a production line with two machines feeding ‘Item A’ and ‘Item B’ into the main production line.

These seem to be hourly flow values over a 30-hour time span. There are some red warnings indicating low buffer, and even one or two times when the production runs dry. Interesting…

Found that there are some more (educational) videos on youtube now that deal with Sankey diagrams.

Yesterday it became known that the European Commission would shelve their circular economy package of waste, recycling and incineration laws for now, in favour of an even more ambitious legislation to be presented by end-2015 (read here or here).

That led me to browse tweets using the hashtag #circulareconomy, and I ended up unearthing two nice Sankey diagrams…

The first one is by WRAP UK, showing the EU-27 material flows estimated in 2020. This is not for a specific type of material, but all material.

Flows are in million tonnes, with the 2020 values in blue, and the current (2010) figures in brackets below for comparison. There are three nodes: ‘Direct Material Input’, ‘Domestic Material Consumption’ and ‘Waste’. Unfortunately the size of the node icons is too large, and the flows are difficult to see. But still, this is a nice idea!

The main message is that in comparison to 2010, Europe could have 350 million tonnes of recycled material in 2020. Check out these Sankey diagrams by WRAP UK that basically convey the same messsage, but are less infographic.

Another Sankey diagram I found when browsing through the tweets was this one below. The title of the diagram is “How circular is th UK?”.

I found it in a blog post ‘Designing Out Waste Consortium’ by Ramon Arratia on Interface’s Cut The Fluff blog on sustainability, but it is originally from this Green Alliance blog post by Julie Hill.

No values shown along the flows in this Sankey diagram, but neatly shaped circular flows. The question raised in the title is answered prominently with the message that 19% of the material in the UK is led in a loop (pink flow).

A research group from INRIA Grenoble engineering school has set up a website for visualization of environmental data. Sankey diagrams are one available visualization option. The below is a sample provided on the website.

The Sankey diagram shows flows along the cereals production chain in France from the 2007/2008 harvesting campaign. Quantities are in 1000 tonnes.

Different grains are shown on the left: wheat (‘blé’), hard wheat (‘blé dur’), maize, barley (‘orge’) and others. Two large end nodes for unprocessed grain exports and use as animal feed (‘consommation animale’). There are further exports as intermediate and processed products. Only a comparatively small fraction is consumed by humans in France as bread, pasta, biscuits.

Could not detect use as energy crops, it is maybe hidden in the ‘industrial use’ flow. Anyway, an interesting application case for Sankey diagrams.