May Brew of the Month: Max Spencer's Flux IPA

By Max Spencer

Spring is upon us, ladies and gentlemen. Weather is not the only herald in this time of transition—the beer we brew and drink also reflects the changing of the seasons. I love to brew and drink stouts, quads and barleywines during the winter — and while they still have a place in my heart during the warmer months, I begin to crave different fare. IPAs tend to be a year-round choice for many beer drinkers, but nothing makes me itch for an IPA quite like spring weather. There is just something about the emergence of fresh greenery, kind-of-warm weather and sunlight that ignites my thirst for hoppy goodness.

In honor of that thirst I brewed an IPA with a fun assortment of hops. I chose Galaxy as my core hop for bittering and aroma additions. Galaxy is an Australian hop known for imparting flavors of passionfruit, peach and citrus. Along with Galaxy I added Wai-iti and Citra hops as aroma additions. Wai-iti is a New Zealand hop which gives flavors of peaches and other stone fruits. Citra is a hop most brewers and beer drinkers are familiar with, providing tropical fruit and citrus flavors.

The finished product was a beautiful deep gold. The nose was rife with fruity goodness — including a healthy dose of peach, citrus and tropical fruit tones. On the palate, I detected more of the passionfruit and peach with a background of citrus and tropical fruit supported by a pleasant dry malt character. The finish was pleasantly bitter and dry with lingering fruitiness. I enjoyed this beer immensely. This malt build has quickly become my go-to for IPAs, and really showcases the hops without being chewy or too overbearing.

All Grain ($45.50)

• 12 lbs. Golden Promise
• 1 lbs. Golden Naked Oats (or Carahell)
• 0.75 lbs. Melanoidin Malt (or Gambrinus Honey Malt)
• Mash @ 154 for 60 minutes
• 0.5 oz. Galaxy @ First Wort (60 minutes)
• 0.5 oz. Galaxy @ 30 minutes
• 1 oz. Galaxy @ 15 minutes
• 1 oz. Galaxy @ 0 minutes
• 1 oz. Wai-iti (or Vic’s Secret) @ 0 minutes
• 1 oz. Citra @ 0 minutes
• 1 oz. Galaxy Dry Hop for 4 days
• 1 oz. Wai-iti (or Vic’s Secret) Dry Hop for 4 days
• 1 oz. Citra Dry Hop for 4 days

Vital Statistics

• OG: 1.066
• FG: 1.010
• IBUs: 66
• SRM: 7.1

EXTRACT ($50.99)

• 9 lbs. Light LME
• 10 oz. Caramunich I
• 7 oz. Gambrinus Honey Malt
• 8 oz. Corn Sugar
• 1 oz. Galaxy @ 60 minutes
• 0.5 oz. Galaxy @ 30 minutes
• 1 oz. Galaxy @ 15 minutes
• 1 oz. Galaxy @ 0 minutes
• 1 oz. Wai-iti (or Vic’s Secret) @ 0 minutes
• 1 oz. Citra @ 0 minutes
• 1.5 oz. Galaxy Dry Hop for 4 days
• 1 oz. Wai-iti (or Vic’s Secret) Dry Hop for 4 days
• 1 oz. Citra Dry Hop for 4 days

Vital Statistics

• OG: 1.068
• FG: 1.010
• IBUs: 59.7
• SRM: 8

Variations

I used OYL-052 for my yeast — Omega’s “Conan” DIPA strain. Their DIPA strain produces esters that taste like peaches and complemented the hops well. You can also use Safale 05 for a dry yeast, or any other American ale strain that you prefer. An additional option is Wyeast 1318 London Ale III, which many people are using for New England style IPAs.

November Brew of the Month: M. Spencer's Strong Bitter

By Max Spencer

With the holidays coming up I wanted to make a crushable yet weather appropriate beer for the long drinking sessions that family gatherings entail. This need inspired me to create a Strong Bitter, better known in America as an ESB (Extra Special Bitter). This very British style of beer incorporates a strong malt backbone with enough hop character and bitterness to be balanced — dangerously drinkable, endlessly enjoyable. ESBs typically have flavors of bread, biscuit, nuts, toffee, fruits, earth, spices, and flowers. To me, this flavor profile screams fall and early winter — a perfect companion for holiday foods too.

I used a technique called first wort hopping as you will see down in the recipes. First wort hopping is an advanced hopping technique that has great practical uses and is easy to execute — it increases the utilization of all the hops that are added to the boil by around 10-15%, increases hop aroma and results in a “softer” bitterness overall. German breweries have traditionally used first wort hopping as a method to get more out of less hops. For all grain, first wort hopping entails adding hops as soon as you start draining your mash into your kettle. For extract, add hops after steeping your grains and adding all or some of your LME before boil.

I ended up brewing an additional gallon of beer to do something a little special with. I took my extra gallon and aged it on oak chips soaked in Calvados — apple brandy from the Normandy region of France. I thought that the flavors of rustic apples and earthy spices found in Calvados would complement my ESB in all the right ways. Feel free to do something similar with Calvados as well, or any form of brandy — especially apple brandy — or even whiskey.

All Grain

• 9.5 lbs. Golden Promise 
• 1 lbs. Medium Crystal
• 0.5 lbs. Amber Malt
• 0.5 lbs. Melanoidin Malt
• 0.25 lbs. Pale Chocolate
• 1 oz. UK Challenger First Wort (60-minute boil)
• 1 oz. UK Challenger @ 30 minutes
• 1 oz. East Kent Goldings @ 15 minutes
• 1 oz. UK Challenger and 1 oz. East Kent Goldings @ 5 minutes
• Yeast: Lallemand’s London ESB

Extract:

• 7.75 lbs. Light Pilsner LME
• 1 lbs. Medium Crystal
• 0.5 lbs. Amber Malt
• 0.5 lbs. Melanoidin Malt
• 0.25 lbs. Pale Chocolate
• 0.5 lbs. corn sugar
• 1.5 oz. UK Challenger First Wort (60-minute boil)
• 1.5 oz. UK Challenger @ 30 minutes
• 1 oz. East Kent Goldings @ 15 minutes
• 1 oz. UK Challenger and 1 oz. East Kent Goldings @ 5 minutes
• (Alternatively, use the same hop schedule as all grain if you are boiling at full volume)
• Yeast: Lallemand’s London ESB

Manipulations: For all grain, you can replace Golden Promise with Maris Otter as the base malt if you prefer one over the other. For extract — if you feel like spending a little extra money for authenticity — you can use Munton’s Pale LME in place of the pilsner LME. There are several English ale yeast strains that you could use as an alternative to the Lallemand ESB strain — Safale 04, White Labs 005 British Ale, Wyeast 1028 London Ale, Wyeast 1098 English Ale. Really, any English ale yeast will work. You can use American hops if you wish, but I would recommend a lighter hand on the quantity.

Homebrew Science: Sour Hour!

By Max Spencer

So, what in the hell makes something sour? The simple answer is organic acids. Acids are found in almost every food and drink we ingest, including the beer we love — even non-sour beer. Organic acids are present in malted grains and are created by yeast and other microbes during fermentation². This is why the pH of beer is relatively low (~4 for non-sour beer, down to ~3 for sour beer). It is beneficial to have acids in beer. Acidity augments flavor, affects viscosity, hinders microbial growth, stabilizes flavor and has an influence on perceived hop bitterness^2,4.

This still doesn’t explain what makes something sour. Is there really such a huge difference between a pH of 4 and a pH of 3? Yep, but it’s more complicated than that. pH is a measurement of free protons (H+; hence the H in pH) in a solution. Acids lower the pH of a solution by releasing protons when dissolved. The pH scale is logarithmic, so each number represents a 10x increase in the concentration relative to the number before it. The last thing we need to know about pH is that the scale works in the opposite direction you expect it to — the lower the number, the higher the concentration. So, a pH of 3 is 10x more acidic than a pH of 4, meaning it has 10x the concentration of H+. Despite this, two different beers that share a pH can be vastly different in their sour character and intensity. pH plays a role, but this tells us that there is more to it^1,3,4.

Organic acids are comprised of at one least carboxyl group (-COOH) attached to an endless variety of structures. The carboxyl group is where our free protons come from, as the hydrogen on the carboxyl group gladly gives up its electron in exchange for a life of free lovin’ in solution (-COO- and H+). Studies have found that solutions of different acids at the same pH do not result in the same intensity of sourness^1,3. The sour character is also distinct between different acids. For example, acetic acid — the main component of vinegar — has an unmistakable vinegar character to our taste buds, while lactic acid tends to be described as “clean” and “tart”¹. This reveals to us that it is not only the pH of a beer that causes sourness, but the identity of the acid. The structure attached to the carboxyl group clearly influences beer in a way that is detected by us through our sense of taste — specifically, our taste for sour^1.3,4. Despite knowing that different organic acids result in various sour flavors and intensity, the mechanism behind why and how is still unclear⁴. Ph.D. project, anyone?

Now that we have a better understanding of sourness, how do we get to sour beer? There’s an easy way, and a complex way. The easy way is to add an organic acid to beer until it tastes the way you want. Homebrew shops — including little ol’ us — carry lactic acid solutions that can be used to lower the pH of any beer and add that “tart” flavor common to most sour beers. The traditional way is to use microbes. Brewers, including homebrewers, have access to non-yeast microbes that are used alongside yeast to create sour beers. The two most popular microbes used are Lactobacillus and Pediococcus. They are closely related genera of bacteria that create lactic acid and other byproducts during fermentation, creating a sour character that yeast is incapable of developing on its own. Microbes add a layer of complexity to the flavor of sour beers that pure acid solutions don’t provide. A Belgian lambic or Flanders red would not be the same without the massive diversity of microbes that perform their collective metabolic magic. Microbes create a smörgåsbord of organic acids that can accentuate fruit and malt characters already present in beer and provide a swathe of flavors ranging from funky to fruity^5,6.

The major disadvantage of using microbes is the length of time it takes for their character to develop. It can take months or even years for a sour beer to fully develop, but techniques such as kettle souring can drastically shorten the length of time required to achieve sourness via microbes. A kettle soured beer merely takes hours to days for souring to occur. Another disadvantage is the potential for cross contamination. Breweries and homebrewers alike fear occasional infected batches. Using microbes intentionally increases that chance by bringing them into the same space as clean beers. Despite this, if you practice solid sanitation technique or maintain a second set of plastic equipment the chance of infection stays at the same level it would be if you only fermented clean beers.

Whether you’re a homebrewer or someone who just enjoys drinking beer I hope you can go forth with a new appreciation for all things sour. Maybe take a crack at making your first sour, or buy yourself a nice Belgian masterpiece crafted by tradition and dedication. Either way, let us enjoy the spoils of — intentionally — sour beer together. Cheers!

"I went on a diet, swore off drinking and heavy eating, and in fourteen days I lost two weeks." –Joe E. Lewis

Literature cited

1. Hartwig, P. and M.R. McDaniel. 1995. Flavor characteristics of lactic, malic, citric, and acetic acids at various pH levels. Journal of Food Science 60(2):384-388. 
2. Li, H. and F. Liu. 2015. Changes in organic acids during fermentation. J. Am. Soc. Brew. Chem. 73(3):275-279.
3. Makhlouf, G.M. and A.L. Blum. 1972. Kinetics of the taste response to chemical stimulation: a theory of acid taste in man. Gastroenterology 63:67-75. 
4. Neta, E.R.C., S.D. Johanningsmeier, and R.F. McFeeters. 2007. The chemistry and physiology of sour taste—a review. Journal of Food Science 72(2):R33-R38.
5. Snauwaert, I, S.P. Roels, F.V. Nieuwerburg, A.V. Landschoot, L.D. Vuyst and P. Vandamme. 2016. Microbial diversity and metabolite composition of Beligan red-brown acidic ales. International Journal of Food Microbiology 221:1-11.
6. Spitaels, F. A.D. Wieme, M. Janssens, M. Aerts, H. Daniel, A.V. Landschoot, L.D. Vuyst and P. Vandamme. 2014. The microbial diversity of traditional spontaneously fermented lambic beer. PLOS ONE 9(4):1-13.

Bootleg Biology Yeast Wrangling Kits, Now Available

Kits now available at Siciliano's

By Max Spencer

Whether we know it or not, microbes impact almost every aspect of our existence upon this rock we call home. Most people go about their daily lives never giving a thought to the tiny microscopic critters all about and within them. As homebrewers, we must forego this ignorance in favor of understanding and utilizing the metabolic processes that yeast provides us. Yeast, that holiest of microbes, is what enables us to make the beer we love so much. Without yeast our brewing efforts would amount to unpalatable hop soda. On the flip side, adding hops to beer and our preoccupation with sanitation techniques are designed to prevent other microbes from finding their way into our beer, though they need not always be excluded. Microbes are at the core of our hobby.

As a lover of all things biology and homebrewing, I am thrilled that we will be carrying Yeast Wrangling Kits from Bootleg Biology™. The Wrangling Kit allows you to capture wild yeast and other microbes from a variety of environmental sources with three main methods: open air capture, putting fruit, flowers and so on into test tubes, and using cotton swabs. It also contains everything needed to then culture and isolate microbes from these wild fermentations. The kit and methods involved are very approachable and do not require a science background to undertake. Additionally, if you’re a little nervous using wild microbes the kit is also capable of isolating microbes from the bottle dredges in your favorite beers!

The components of the Wrangling Kits

The Bootleg Biology website has useful articles in the DIY section on how to capture, cultivate and isolate wild yeast using the materials provided in the kit. This section is worth glancing at before and after making a purchase as it breaks down the methods involved into clear and easy to understand steps. Jeff Mello, Chief Yeast Wrangler, also takes the time to respond to any questions sent his way via his email in the contact section on the company website.

We carry the Yeast Wrangling Kit for $60.00 + tax and agar plate and agar blend refill kits for $30.00 + tax.

INCLUDED IN THE KIT:

• ½ Gallon mason jar (for open air capture and making starters)
• 4 Cheesecloth covers for the mason jar
• 10 Agar plates (for culturing / isolating)
• 18g Agar blend
• 1’ x 2” Parafilm (seals agar plates)
• 6 Test tubes (for collecting from fruit, flowers, etc.)
• 6 Plastic pipettes
• 4 packets of 2 sterile cotton swabs
• 1 Paper clip
• 2 Fermetrics™ stickers (fermentation trackers)
• One pre-paid contributor pack (to submit yeast to the database)

Be sure to keep an eye out for Part II of this blog post (coming soon) to read about Jeff’s inspiration and his advice for homebrewers looking to use the kit. Until then, happy wrangling!

Brew of the Month, April Edition: Spencer's Spring Porter

By Max Spencer

To me, spring is about earth. I cherish when the wind first carries the scent of wet dirt and the herbaceous aroma of freshly emerged plants every year. With the first days of spring here I wanted to create a beer that I felt embodied the primal essence of the season. After a fair amount of deliberation, I decided to make a dry porter with mint and star anise in honor of spring.

While mint is primarily used in winter beers, I feel it is more appropriate in a springtime ale. In addition to a cooling sensation on the palate, fresh mint adds a lot of herbaceous flavors beyond the one-note taste found in mint gums and toothpastes. Star anise adds another layer of complexity by providing earthy and spicy tones reminiscent of licorice or fennel.

The resulting brew poured opaque dark brown with a solid beige head. The mint and anise dominated the nose, lending the pleasant spice and earth tones I was looking for. Anise and chocolate flavors from the malt kicked off the palate, finishing strong with bold herb and spice notes derived from the mint. The body was dry and effervescent from the addition of honey, which I felt was appropriate in attempting to illicit the effect of a cool spring breeze. I enjoyed this brew and the process of designing it. The mint and anise worked great together and added a level of complexity without taking away from the beer itself.

All Grain ($38.87)

• 5 lbs. of Munton’s Maris Otter
• 5 lbs. of Breiss Pale 2-Row 
• 1 lbs. of Crisp Pale Chocolate
• 0.7 lbs. of Breiss Caramel 60°L
• 0.5 lbs. of Breiss Chocolate 
• 1 lbs. of Non-Pasteurized Honey

Extract w/ Specialty Grains ($39.26)

• 5 lbs. Breiss Pilsen Light LME
• 1.5 lbs. Breiss Amber LME
• 0.8 lbs. of Crisp Pale Chocolate
• 0.6 lbs. of Breiss Caramel 60°L
• 0.5 lbs. of Breiss Chocolate 
• 1 lbs. of Non-Pasteurized Honey

Boil / Hops

• 0.25 oz U.K. Challenger @ 60 minutes
• 0.5 oz U.K. Challenger @ 30 minutes
• 0.75 oz U.K. Challenger @ 15 minutes
• 0.5 oz U.K. Challenger @ 5 minutes
• 2 oz fresh mint @ 5 minutes
• 2 oz star anise @ 5 minutes

I preferred the beer as is without extracts, but if the two ounces of mint and anise are not enough for your own tastes I would recommend using the anise and/or spearmint extracts from Beanilla ($7.59 each). Be careful when adding these extracts as a little goes a LONG way. I suggest investing in a pipette ($0.99) and adding a few drops at a time followed by a gentle stir until it tastes how you want it.

The staff at Siciliano's is always eager to answer your homebrewing questions. Stop by for help developing custom-made recipes like this one!