Jumat, 01 April 2016

Syrup Update

Of the eight taps we have in our yard sugar bush, only a couple have been flowing significantly.  The Tree of Heaven, both Bradford pears, and one of the Siberian elms havent even made a drip, the other elm has about a cup of sap, and the Lombardy poplar has about half a cup.  But the other two, the box elders, have been running like a gazelle.  By early Saturday morning, we had collected 38.4 lbs of sap, which means it was time to start boilin it down!

First: a measurement.  Our sap is starting off at about 2.5 wt% sugar, according to our hydrometer. Not bad for a box elder, pretty much in line with a study from St. Johns University in Minnesota.  But more importantly, with that number, we can calculate all sorts of expectations for this batch of syrup.  Allow us to momentarily digress!
Boxelder Sap Balling
This is the sugar content of the box elder sap on the Balling scale, which is essentially the same as the Brix scale more commonly used for sap measurements. (Using the same hydrometer we use for brewing wine.)

For example, knowing the wt% sugar, we can use the tables here to calculate the density of the sap and the resulting syrup (because syrup is normally 66 wt% sugar, which is very close to the solubility limit at room temperature), which will give us the volume of the sap and the resulting syrup, and our expected ratio.  Those calculations are detailed in this spreadsheet, if you want to plug in the numbers from your own sap. For us, our 38.4 lbs of sap at 2.5 wt% sugar works out to about 4.6 gallons, from which we should be able to expect just over two cups of finished syrup. (But note the caveat below.) 

Sap-Syrup Calculations
38.4 lbs of sap at 2.5 wt% sugar should yield about 2.1 cups of syrup, which would be a ratio of 34.6:1.  That would be pretty good for a box elder.

We can also use other tables in that document to calculate what the boiling point of the finished syrup should be.  It would normally be 4 °C (7 °F) above the boiling point of pure water wherever we are, but that depends a little bit on what the boiling point of pure water is.  Were in the suburban Denver, where water boils at about 95 °C (203 °F) due to about 18% lower absolute atmospheric pressure. (Dont worry, we used NIST data for the Antoine equation to calculate the vapor pressure of water at that temperature, and everything checks out.  Well played, Universe.)  As it turns out, the difference in boiling point increase for syrup at our elevation is within the precision of our thermocouple reader.  Or, long story short, were looking for a final temperature on our syrup of about 210 °F.  Time to light the fire!

Rocket Silo First Setup
We added a wind break to our Dakota Rocket Silo and started out using the widest-diameter pot we have.

Rocket Silo Second Setup
As we started to build up a bed of embers, the air flow through the chimney part dropped off quite a bit, and we werent getting much rocket effect.  So, we widened out the pit, raked some of the coals to the back part, and added a second pot on top.  The direct contact of the pot on the coals got that pot boiling a lot faster than the one on top of the chimney, even when the rocket effect was strong.  Conductive heat transfer beats convective heat transfer (with air) every time!  If you go this route, though, be careful not to get ashes, etc. in the lower pot.

Making small-diameter logs with a lopper
As a side note, if youre trying to use a lot of small-diameter wood (e.g., thumb-size branches from an unsightly, rabbit-attracting brush pile), breaking the sticks by hand might start to get old after the 50th or 60th one.  At that point, a loppers will become your best friend.

Box Elder Sugar Sand
With the volume decreasing by about half, some of the minerals ("sugar sand") started to precipitate out.

Rocket Silo Sap and Pancakes
Eventually, the volume got low enough to combine everything into one pot.  Time to make some pancakes!  We ended up adding one more layer of blocks back onto the wind break.

Rocket Silo Sap and Bacon
Pancakes done, sap still boiling.  We might have to modify our evaporator design for the next batch.  In the meantime, lets make bacon, too!

Finishing box elder syrup
Bacon done, sap at ~35% sugar.  Daylight running out.  Time to bring it inside to finish on the stove.

Finished box elder syrup
And.....the finished product in a pint jar.  Its delicious.

Ok, so the finished product looks much closer to one cup in volume than the two we expected.  Why the difference? (Heres the caveat we mentioned above.)  There are a number of potential contributions.  The equations above are for solutions of sucrose in water, so the initial 2.5 wt% reading we took didnt account for other dissolved solids (e.g., the sugar sand that precipitated out during cooking).  That is, we might have started out with lower than 2.5 wt% sugar.  Also, there were some losses on transferring between buckets and pans, filtering, and what we took out for testing along the way.  We were also physically unable to resist trying some of the 35% stuff on the pancakes, which probably accounted for at least 1/4 cup (dont judge!).  Finally, we also ended up going a little bit over 66% sugar (closer to 70%, based on our honey refractometers scale, which had store-bought maple syrup right at 66%), which would decrease the volume, in theory, by about another 1/6 cup.   Overall, even if we got one cup syrup instead of two, our sap-to-syrup volume ratio was still a respectable 70:1.  In general, it looks like the calculations above should get you to at least within a factor of two.

How is your syrup season going?


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