Archive for September, 2012

75/47.5 Yogurt

Sunday, September 9th, 2012

When I became sous vide enabled (controlled water bath, anyway, a proper vacuum chamber is on the to-buy list), it immediately dawned on me that a tightly temperature controlled water bath would be perfect for purposefully growing microorganisms as much as for preventing the growth while achieving perfectly done foods.

Roger has long been a fan of yogurt and yogurt is nothing more than milk fermented by a lactose consuming bacteria of, most commonly, the Lactobacillus delbrueckii subsp. bulgaricus and Streptococcus salivarius subsp. thermophilus varieties.

And, yes, it has proven incredibly easy, cost effective, and exceptionally delicious to cultivate these bacteria in the milk of your choice using a sous vide rig. Note that you really don’t need a water bath; a cooler, some hot bottles and towels can work well enough.

However, you do need the precision of a water bath to achieve consistent results of the highest quality!

The Recipe

Milk Divided

1. Divide a gallon of milk amongst 5 1-quart Bell canning jars (which aren’t actually 1 quart in many cases — go figure — just divide the milk evenly between them). Lids on loosely!

We often use generic organic whole milk, but low-fat works, too. It cannot be ultra-pasteurized (as ultra-pasteurization breaks down the proteins to the point that the bacteria can’t survive. The implications on the healthiness of said milk are quite bad). Raw milk works beautifully, but is expensive. I’ve been meaning to try a mix of sheep and/or goat with the cow’s milk.

Lately, I’ve taken to using a gallon of 2% mixed with a quart of raw whole milk. The result is a bit richer in flavor and texture while not being the whole fat experience.

Making Yogurt; Scalding the Milk

2. Place in an 75C water bath for ~2 hours (long enough to heat the milk thoroughly to 75C for at least an hour).
3. Cool milk to 47.5C. I find it easiest to scoop out the hot water and replace with cold water to bring the temperature down rapidly.

I usually set the target temp of the water bath to 46C initially. By doing this, the residual heat from the milk will leach out into the water bath and you can tell when it is stable when it holds steady. You can inoculate and bring the temperature back to 47.5C simultaneously (Yogurt cultures will incubate fine up to just above 50C and, in fact, I used to do this at 50C. I’ve since found that 47.5C produces an even better result.). The key is to make sure the milk is solidly below 55C before inoculation, otherwise you’ll run the risk of killing off the live cultures!

Innoculate at 50C

4. Stir in one tablespoon of the plain flavor of your favorite brand of yogurt into each jar. Place lids back onto jar loosely.

You can use previous batches to inoculate new batches, but it is generally recommended that you refresh with new yogurt every few batches. Honestly, I’m not sure how much this matters. It’d seem that as long as you store your live culture yogurt properly, you shouldn’t have any more of an issue than one might with, say, a sour dough starter. Mostly, I end up “starting over” with store bought plain yogurt simply because we eat the previous batch so quickly and we forget to preserve enough to start the next batch!
5. Leave in the water bath for at least 12 hours and up to 24 hours (maybe even longer). The longer they are in the bath, the more greek-like sourness to the yogurt. I usually target 18 hours, maybe 22, and everyone in the family eats the stuff like crazy.


6. Tighten the lid and submerge in ice water to stop the bacteria from continuing reproduction as the temperature falls (more below). You should hear a “pop” as each jar seals itself.

7. Refrigerate. We’ve had jars sit in the fridge for 4+ weeks with no off flavors or nasty bits forming. Others have reported keeping the sealed jars in the fridge for 6+ weeks without issue.

You’ll get a bit of whey on some jars, some more than others, I typically collect the whey and use it in bread making.

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Whoah! Arduino goes ARM on the cheap & Arduino AVR Gets Really Tiny (on the cheap)!

Wednesday, September 5th, 2012
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For the Teensy Blaster, I used a Teensy v2.0 board from PJRC. It is a tiny board containing a not-so-limited AVR chip (32K of flash, >2K RAM, 1K of EEPROM, and a slew of I/O pins) and a mini-USB port with the ability to be USB bus powered. Tiny. Versatile. And cheap at $16/board! $24 nearly gets you nearly 4x the memory and nearly doubles the I/O ports.

Today, I ran across Teensy v3.0 on Kickstarter. In pretty much the same sized package, the Teensy v3.0 features a 32bit ARM Cortex-M4 board with 128K of Flash(!!), 16K of RAM(!!), 2K of EEPROM, and a slew of I/O options. If that weren’t enough, it includes support for IR, a high quality audio interface, an optional real time clock, 4 DMA channels, and support for touch sensor inputs. And more. Much more. Holy cow! Truly, a nutty amount of computing power in a 1.4″ x 0.7″ package!

And it can be used from both Arduino and C.

So, yeah, funded. No brainer.

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Then, at the thank you for funding this project page, there is a thing you might be interested link that leads to the Digispark.

Wait. What? A board barely bigger than a USB connector that features an Arduino compatible CPU with multiple I/O pins, 8K of flash, PWM on 3 pins, ADC on 4 pins and many many different shields?!

For $8-$10 / board?!

Sign me up! (And I did!)