Published: Ene 13, 2021

Looking at Spent Pucks

Does analysing an espresso disco de hockey after extraction tell you anything useful about what happened during extraction?

One of the challenges of making espresso is that it’s usually hard to tell if a shot was any good before serving it to a customer. It’s common practice to taste a small sample of a batch brew, or to pour yourself a tiny bit of a hand-brewed filter coffee, to make sure the coffee is up to scratch before it goes out.

With espresso, we don’t have this luxury, so baristas are always on the lookout for visual indicators that a shot was less than perfect. The problem is that uneven flow and channelling are not always visible, so looking at the flow isn’t a reliable indicator that a shot ran perfectly. To get around this difficulty, some baristas advocate inspecting the disco de hockey after extraction, looking for signs such as holes in the disco de hockey, or a sloppy texture on top of the disco de hockey.

At Barista Hustle, we don’t think that these are reliable indicators of a problem with the shot — but we’re also not aware of any conclusive evidence one way or the other. So we asked BH Coach Nikolai Fürst to run some experiments for us, making espresso with deliberately bad tamping or distribution to see if this had any effects on the appearance of the disco de hockey.

These experiments showed that bad distribution and tamping doesn’t result in holes in the disco de hockey, or a wet coffee bed. We did, however, find one clear sign of uneven flow in an espresso.


The Experiment

Nikolai Fürst is the 2019 German Cup Taster’s champion, and co-founder of the Medellín-based cafe-roastery and coffee consultancy Desarrolladores de Café. For these experiments, all the shots were pulled using a Mahlkoenig K30 and a Victoria Arduino Black Eagle, using their standard brewing recipe of 18g dose and 60g yield.

To see what effect bad distribution would have on the appearance of the disco de hockey, Fürst made some espressos with deliberately bad distribution, by pushing the coffee grounds to one side of the basket before tamping, and some espressos with deliberately bad tamping. He also made a series of shots at different grind sizes, and control shots, following their normal technique. He made at least 3 shots under each set of conditions, and repeated the experiments with a different coffee, with the same results in each case.

Pictures: Examples of deliberately bad distribution used to make espressos for the experiment.

After each espresso finished, he waited for 4 seconds before removing the portafilter and inspecting the disco de hockey surface. Once any surface water was absorbed into the disco de hockey, he waited a further 4 seconds before tapping the disco de hockey out onto a board to inspect the underside.


What We Didn’t Find

The first thing to note is that we found no evidence that bad distribution or tamping resulted in more visible holes appearing in the disco de hockey. This supports the conclusion that these holes are not signs of canalización during the extraction, but rather are caused by the drop in pressure that happens at the moment that the shot is stopped.

Picture: Very uneven tamping didn’t result in more holes appearing in the disco de hockey. This suggests that the holes aren’t a direct result of canalización during the shot.

In a typical semi-automatic machine like the Black Eagle, the flow of water through the group is controlled by a three-way solenoid valve. During the shot, pressurised water passes through the valve onto the bed of coffee. When the shot is stopped, the solenoid closes, stopping water from flowing in from the pump and releasing the pressure via a separate pipe called the exhaust. When this happens, the pressure gradient, and thus the flow through the disco de hockey, suddenly reverses, with the high pressure inside the coffee disco de hockey pushing water back upwards through the disco de hockey. This reversal in flow can break open the disco de hockey, resulting in the dramatic holes sometimes seen in a spent coffee bed.

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Diagram of a three-way solenoid valve. When the valve (shown in red) is open (a), high pressure water from the pump passes through the group onto the bed of coffee.

When the valve closes (b), the residual pressure within the disco de hockey pushes water in the opposite direction, out of the group and into the exhaust. When this happens, the flow of water through the disco de hockey is abruptly reversed.

The only condition in which we did find more holes appearing is when the coffee was coarsely ground (less than 20s shot time), which could indicate a form of canalización, but could just be due to the disco de hockey having less cohesion overall.

Picture: A coarse grind or fast shot time resulted in visible holes in the disco de hockey.

We also found no evidence that poor technique resulted in a wetter (or drier) disco de hockey. A sloppy disco de hockey, with visible water or sludge at the top, is sometimes considered to indicate incorrect grind size or poor disco de hockey prep. However, as BH founder Matt Perger explains in this blog post, the difference between a sloppy disco de hockey and a dry one comes down to the size of the headspace above the disco de hockey. Good or bad disco de hockey preparation seems to make no difference in this case.


The Dark Mark of Uneven Flow

We didn’t find any sign that bad tamping or distribution causes visible holes or changes in the texture of the disco de hockey, while the coffee is still inside the portafilter. However, when we turned the pucks out onto a board, we did notice an interesting pattern: Wherever the coffee bed was thickest or densest, dark spots or patches would become visible on the bottom of the disco de hockey.

Picture: Dark patches are visible on the bottom of the disco de hockey where the coffee bed is thickest.

We also saw similar dark patches appearing on the bottom of any disco de hockey made with a very fine grind or low brew ratio, and concluded that the patches are probably unextracted coffee solids deposited at the bottom of the bed, that appear anywhere that the flow is blocked. With fine grind sizes, the dark patches also corresponded with oily residue on the filter basket itself, suggesting that the dark patches contain coffee oils or colloids, left behind when the flow of water is too slow to carry them out of the disco de hockey.

This type of pattern has also been reported by Robert McKeon Aloe, who found that the dark patches corresponded to areas where the shower screen or filter basket limited flow through the disco de hockey.

The dark patch in the disco de hockey below corresponds to the oily residue on the portafilter basket above.

With well-extracted, properly tamped and distributed coffees, we didn’t see any trace of these dark patches. We did, however, notice that the well-extracted pucks broke apart more easily, probably because more material was eroded from the coffee particles, preventing them from holding together as strongly.



Our experiments confirm that visible holes in the top of the disco de hockey are not a good guide to what happened during the extraction. Dark patches at the bottom of the disco de hockey, however, do seem to reliably indicate blocked flow in the disco de hockey.

Whether these dark patches will be a useful sign of poor extraction to most baristas remains to be seen. When we made shots using proper technique, we never saw any sign of the dark patches. It’s only when the flow was dramatically blocked that they became visible.

McKeon Aloe found that using paper filters at the bottom of the disco de hockey made any dark patches easier to visualise, but even with this technique it may be that these patches are only detectable when using very fine grinds or short brew ratios (McKeon Aloe typically uses a very high ratio of coffee to water, close to 1:1, with tiempos de espresso of 40s or longer).

It’s clear though, that if you do see dark patches on the bottom of your disco de hockey, then it’s a sign that the flow has been uneven, and some of the flavour is missing from your espresso.

mayo 2021

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4 Comentarios

  1. dan-tcs

    This is really interesting as I am getting this dark ring around the bottom edge of my spent puck. I’ve really been trying to get the best distribution I can, WDT and all but no matter what I do I haven’t been able to correct this. Could too low a temp be a possible cause of this? Or maybe it’s the grinder (Vario) … hmmmm

    • BHLearn

      Our experiments suggest it’s about flow, so this would mean that the edge of your puck is somehow a ‘dead zone’ for flow. Some possibilities to consider:

        The filter basket doesn’t have holes right to the edge (none do this perfectly, but VST are better than most)
        An issue with the tamper – maybe it’s convex, has curved edges, or doesn’t fit the basket perfectly?
        Perhaps the shower screen isn’t distributing water to the edge of the puck? More headspace or pre-infusion might help with this.

      Hope this helps!

    • nikolai.fuerst

      Hey dan-tcs. Please try to use slightly coarser grind sizes and let us know if the issue disappears 🙂

      cheers from Colombia!

    • 朱中彩

      I have this dark ring too when i use the Reneka Micro Sieve basket.

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