Background
This experiment documents several tests for making einkorn pasta. The first set of tests uses 00 einkorn flour from Wild Hive, exploring how different kneading times affect the dough. A second test introduces cornmeal from River Valley Community Grains to create a 70/30 einkorn-to-cornmeal blend.
Variations
Test 1 & 2: Pure Einkorn Dough
These two variations use the same base dough of einkorn and 00 flour with room temperature water at 50% hydration.
- Variation 1: The dough is mixed with minimal kneading and then rested for 30 minutes.
- Variation 2: The dough is kneaded for approximately five minutes.
Test 3: Einkorn & Cornmeal Dough
Ingredients
65g Einkorn Flour
40g Ground Cornmeal
45g Water
Equipment
Coffee Grinder
Kitchen Scale
Instructions
-
Preparation
If using coarse cornmeal, grind it in a coffee grinder to a texture resembling coarse semolina flour. -
Mixing
Combine all ingredients for the desired dough variation and knead as required.
Notes and Observations
- The cornmeal used is Whoopie Valley corn from Pennsylvania and New Jersey.
- The initial cornmeal was too coarse for pasta, requiring it to be ground finer. The resulting texture is a mix of fine and slightly coarse grains.
- The hydration for the einkorn and cornmeal dough is approximately 43%.
- Surprisingly, the unkneaded pasta tasted better than the version that was kneaded.
- The dough had a light chew, tasting somewhat like an egg noodle with more depth than traditional pasta, though it could still use a bit more body.
- We tested both orecchiette and tagliatelle shapes, and both worked fine, though further experimentation on the ideal shape is warranted.
- The dough rested for 30 to 40 minutes, but a longer rest period might be beneficial.
- A future iteration could involve adding sourdough starter and allowing it to ferment overnight—perhaps resting out of the fridge for a few hours before refrigerating—to create a more flavorful dough.
- The recipe utilizing ground raw cornmeal was not particularly good; using cooked polenta would likely yield better results.