Is pisco expensive? Ask the grapes!

pisco grapes, acholado, quebranta, pisco, peruvian pisco, piscologia, best pisco, uvas pisqueras

Piscologia is Peruvian Pisco

What makes a bottle of liquor expensive? Where does Peruvian pisco fall on the pricing scale of spirits? Let’s discuss why Peruvian pisco is a premium spirit and how its price reflects the quality and care of what goes into every bottle.

Piscologia is Peruvian Pisco

The price of a bottle of liquor is influenced by its distillation methods, aging times, quality of ingredients, the labor involved in the production process and other factors. The higher the quality of ingredients or the more labor involved in making it, the more expensive it will be. For example, a meticulous distiller could use 17 pounds of potatoes to make one bottle of premium vodka. A cheaper brand might use significantly less potatoes, potatoes of lower quality or sloppy distillation methods. In other words, many factors influence price, but as a general rule, the more invested by the producers when crafting the product, the more it will cost at the liquor store.

Piscologia is Peruvian Pisco

Now, why is Peruvian pisco on the higher end of the scale in terms of price? The answer comes down to grapes; there are a lot of grapes in one bottle of pisco. On average, there are approximately 7.5 kilos (about 16.5 pounds) of grapes per bottle of pisco puro or pisco acholado. To make a mosto verde, you need an average about 15 kilos (33 pounds), double the amount of a regular bottle of pisco.

Piscologia is Peruvian Pisco

To explain this further, we made the chart below. You can see how Peruvian pisco compares to wine with regard to grapes per bottle. These are averages, as cluster size, grape size and grapevine yield vary widely between vineyards.

Piscologia is Peruvian Pisco

Per bottle of:
Weight of grapesClustersGrapes# of grapevines
Wine1.5 kilos / 3.3 lbs107001
Acholado o puro7.5 kilos / 16.5 lbs503,500almost 4
Mosto verde15 kilos / 33 lbs1007,0007.5

Piscologia is Peruvian Pisco

As evident in the chart, a bottle of regular pisco has more than 3,500 grapes in it, while a mosto verde requires roughly double that amount. That’s 7,000 grapes in one bottle of liquor!

Piscologia is Peruvian Pisco

In Azpitia, we get an average of 2 kilos of grapes per plant. This means that one bottle of pisco puro or pisco acholado uses the fruit from almost 4 entire grape vines. Mosto verde pisco uses all the fruit from 7.5 grape vines.

Piscologia is Peruvian Pisco

In addition to the sheer amount of fruit that goes into one bottle, one should also consider what’s required to produce healthy plants. Viticulture is arduous work. Grape vines must be carefully tended to for an entire year before the fruit can be picked. When you add in factors like hand-harvesting & hand-pruning, growing grapes can be even more expensive and time consuming.

Piscologia is Peruvian Pisco

We hope the next you sip a PiscoLogía cocktail, you will have a deeper understanding of what goes into every bottle. Besides thousands of grapes, there are many factors that make Peruvian pisco premium. The taste and quality of our final product reflect its price, a quintessential high-end spirit.

Piscologia is Peruvian Pisco

Piscologia is Peruvian Pisco

To make these estimations, we consulted the following source:

Piscologia is Peruvian Pisco

Piscologia is Peruvian Pisco

Gerling, Chris. “Conversion Factors: From Vineyard to Bottle.” Conversion Factors: From Vineyard to Bottle | Viticulture and Enology, 8 Dec. 2011, grapesandwine.cals.cornell.edu/newsletters/appellation-cornell/2011-newsletters/issue-8/conversion-factors-vineyard-bottle/.

PiscoLogía: The Craft of Batch Distillation

copper pot still, how to make pisco, peruvian pisco, piscologia, distilling

Our 300L Copper Pot still

 

Fermentation is now complete, which means native yeasts have converted our sugary Quebranta and Italia grape juice to alcohol, leaving us with tanks of unaged wine. Soon Nati will start distilling this wine in our 300L copper pot still. PiscoLogía is made using batch distillation, which allows for greater flexibility and promotes Nati’s artistic expression through pisco-making.

 

There are generally two types of distillation used to create alcoholic beverages: batch and continuous. Continuous distillation is an efficient method of making large quantities of liquor with uniform flavor. On the contrary, batch distillation is more versatile. We believe it allows the consumer to appreciate the true skill of the distiller.

 

In addition, distilling in small quantities allows us to adhere to traditions that have existed for thousands of years. Archaeologists have uncovered the first artifacts associated with batch distillation believed to be dated over a span of 3,000 years from “the end of the fifth millennium BC to the end of the second millennium BC”. (Belgiorno 21). Using a method that has been perfected over the course of several millennia provides us great satisfaction. It also gives us more flexibility to create an artisan product. Every single batch of pisco that we make is unique. Continuous distillation gives you a consistent product, but consistency isn’t something we strive for when crafting our pisco. We want each and every batch to show Nati’s distilling skills, to reflect the terroir of our vineyards and the characteristics of harvest that year.

 

So, how does batch distillation work? Remember, Peruvian pisco is distilled only one time, which means Nati has only one chance to create an exceptional pisco at the desired proof . She first loads our copper pot still with wine made from our estate-grown grapes. The still is then heated until the wine boils at a temperature of 78.4 °C/173.12 °F (This is a lower boiling point than water, so the alcohol evaporates faster than water). The vapors travel up the neck at the top of our still, down the lyne arm and into the condenser, where they cool. As all experienced distillers do, Nati separates methanol and other impurities during this process by removing the initial and final condensed liquid (heads and tails). The final result is a pure, delicious Peruvian pisco.

 

 

 

Sources:

Belgiorno, Maria. “Experimental Archaeology.” BEHIND DISTILLATION EXPERIMENTAL ARCHAEOLOGY , edited by Antonio De Strobel, De Strobel Publisher, 2018.

 

“Pot Still.” Wikipedia, Wikimedia Foundation, 25 Feb. 2019, en.wikipedia.org/wiki/Pot_still.