EDX Online - The Beer Thrillers

Beer Education: Series Overview

BKline — Thu, 28 May 2020 14:30:00 +0000

Well, like I said at the end of Module Ten, I would do a series wrap-up afterwards. If you’ve followed along, and if you have done the program / MOOC as well, we are all done now. It took roughly two months to get it completed, as my first post about the Series was on March 26th and I finished the class and Module Ten on May 26th. So two months from start of the blog about it to the end of the actual module, and another day or so for this final wrap-up. Not bad, and an interesting way to pass the time, especially during this quarantine and lockdown.

Speaking of that, things are progressively re-opening here in Central PA area, as well as in the nation as a whole. We’ll see how that goes, and with fingers crossed, maybe soon we’ll be sharing a pint together at a brewery.

As I said from the beginning of the series, I was doing this class without the certificate, so all of the ‘verified track learner’ pages and assessments were off limits to me. I would love to hear from anyone in the comments section who took the full version of the class, and paid for the certificate and got to see the verified track learner’s content pages. My take on that is this though – the certificate would be NICE to have, and would LOOK good… but, it is ultimately unneeded. The information learned is the real value, and any brewery that you are looking to use this for, will most likely be happy with you having the knowledge over the piece of paper. (Of course, the piece of paper would help a bit more, but I don’t think its a massive jump in ‘helping’ or value.) Brewing, and brewery industry jobs, are kind of still in a medieval sense, or in a ‘wild west’ kind of territory. Most breweries are opened with the owner being the head brewer (for craft breweries in America), and most of them got their start home brewing. So you have a lot of basically self-taught people opening their own businesses who learned by home brewing, not professionally. Now, this isn’t always the case, but it seems to happen frequently enough to bear out the point.

Thats not to take away from getting the certificate. Doing so will be an addition, and will help you in jobs. But so is just taking this class. Just show some proof of doing it, and answer questions and show your knowledge. There is other free (and pay-for) resources and certificates online, getting some of them will help as well.

So lets recap the course a bit. There was ten modules, not counting assessments and all that, there was ten modules with different topics for each. In each module was segments, but lets broadly just look at the modules.

Module One: The History of Beer Brewing
Module Two: Barley and Malting
Module Three: Water
Module Four: Hops and Spices
Module Five: Yeast
Module Six: The Steps of the Brewing Process
Module Seven: Fermentation and Maturation
Module Eight: Filtration and Packaging
Module Nine: Beer Quality and Stability
Module Ten: Beer Assessment and Tasting

In all of the discussion pages, so far, I’ve received two comments / replies back in the actual modules. I will post my comment and the responses here.

First:
My comment: “I find it in interesting in America that especially in the last few years there has been a greater move to go from bottle to can. Likewise from growler to crowler. I actually tend to prefer bottles for the 12oz and 16oz varieties, but prefer crowler (32oz) over the growler (32oz). Can’t exactly place why, perhaps because of a taste difference. Though I’m told by many there is no taste difference, and The Alchemist brewery even says to drink their IPAs from the can rather than from the glass. (I do typically pour into glasses from either can or glass; unless busy grilling or mowing or whatever, then I drink straight from the can or glass.)

Curious what other’s thoughts are on the glass bottle vs. can debate.”

The response:

“By: kr3846

In my opinion cans are the way to go 100% of the time. They are basically mini-kegs. They protect better against light and oxygen way better than crown/ bottles ever could. Which is a good enough reason to deem them the winner out-right. They are lighter weight which cuts down on shipping cost, both as a raw material and as a finished product. This also means they can be packed more cans per truck/ boat which ultimately leads to less consumption of fossil fuels. They are also 1000 times more recyclable than glass. In America, very few if any breweries (if any) are doing glass bottle returns. Plus, with cans you do not have the concerns with breaking glass around swimming pools, patios, backpacking, camping, etc.

I think (in America at least) there is still a stigma about drinking from a can. As if it is ubiquitous with large crappy breweries like AB-InBev. People seem to see drinking from a bottle as the “craft” or “artisanal” option. I wish we would move past this and accept cans as the clearly superior form of packaging they are for all the reasons listed above.

That being said, in the growler/ crowler debate, I think growlers are the way to go for the simple fact that they are re-usable. The single use aspect of crowlers, while convenient, is not very environmentally friendly. I do not have nearly the strong opinions in this debate than I do in the can vs bottle debate.

As for Heady Topper, they say to drink from a can because the beer looks like shit. Or the more “scientific” reason would be to keep the hop compounds contained in the can rather than losing them to the volatility of pouring into a glass.

Cheers!”

Second:
My comment: “Another great module. I have really been enjoying this course! I am learning a lot!

-B. Kline
https://thebeerthrillers.home.blog/“

The response: “By: StijnS (Staff)

Hi Ben,

Thanks for these nice words. We also appreciate that you keep a blog on your progress throughout the MOOC.

Have fun with the last module of the MOOC,

Stijn”

Overall, I really enjoyed the MOOC and the modules were all well done and very informative. The various expert clips were especially interesting and educational. For those, looking to further their beer or brewery knowledge, or looking for something to do (most modules were very quick and not extremely time consuming), or for someone looking for a foot in the door at a brewery or just hoping to better themselves for a brewery position (or one they already have), I would highly recommend this course.

I will be posting more information on possible other classes I do, and others that I’ve done in the past, when I get to the next beer education series, so be on the alert for that. And as we enter June, be ready to see a lot more beer reviews and brewery reviews as places start to open back up.

Until then, please stay safe and healthy, we’re almost there! Cheers!

-B. Kline

Beer Education: Module Ten: Beer Assessment and Tasting

BKline — Tue, 26 May 2020 19:05:39 +0000

Welcome to the final module of the class – The Science of Beer Brewing! Congrats! We finally made it. Took us a while, but we got here, and after this it’s all over; unless you signed up for the verified track learning and the certificate, in which case you’ll have a final exam / assessment after this final module. If you took that route, congrats and good luck. Hopefully the certificate will help you!

Like every module, this one also starts with an introduction video. This one is 2:11 and talks about this being the final module, about beer tasting, assessing the qualities of a beer, and how people will rate and enjoy the beer.

Our first page of the module is a text page about chromatography, and its the first of the segment about ‘methods to analyze chemical composition of beers’. “Chromatography is a method for separating, identifying and quantifying molecules present in a mixture, in our specific case, in beer. Separation of different molecules occurs by allowing the mixture to run through a thin tube, called a column. This column contains a specific filling, also referred to as the stationary phase, that interacts differently with different molecules, depending on their exact chemical or physical properties. These interactions affect the rate at which these molecules pass through the column and separate the different molecules from each other – causing each of the molecules to exit the column at a different time, the so-called retention time. As the molecules exit the column, they are detected and identified. The output is a chromatogram.” (EdX: The Science of Beer Brewing. Module Ten.)

The page then has a picture of a sample chromatogram. It then discusses the columns; how they are made – from a large variety of materials; two general columns are packed columns and capillary columns. In packed columns the phase known as stationary is packed into the cavity of the columns. In the capillary columns that same stationary phase is coated on the inner surface of the columns. This text page then has two tab pull-downs at the bottom for: gas chromatography and high performance liquid chromatography. Give yourself plenty of time, because each of these tab pull-downs could have been a page unto themselves.

Next up is spectrophotometry. “A spectrophotometer uses different wavelengths of light to determine the concentration of a compound in a sample. Specific wavelengths are absorbed by certain compounds and hence the amount of light that is absorbed can be used to determine the concentration of the absorbing compounds.” (EdX: The Science of Beer Brewing. Module Ten.)

Some beer properties that can be measured spectrophotometrically:

Color
Bitterness
Other beer characteristics
* glucose
* free amino nitrogen (FAN)
* fructose

There is others as well, but these are the primary ones to be concerned with and to note here.

The next page is a quick knowledge check (ie. test). The first question is a two-part drop-drag (multiple choice) question. The second question is a multiple check-box, where you will need to pick all of the ones that apply and are correct.

Moving along, we come to the next segment of this module: sensory analysis of beer. Our first page for this segment of the module is a typical introduction text page. “The methods discussed in the previous section allow you to quantify the different compounds present in beer. However, it is the interaction between all these compounds that determines how the beer is actually perceived by us. It is still very hard to predict a beer’s taste and aroma solely on the measurements of the individual aroma compounds. Different flavor compounds can interact with each other, with some compounds masking or enhancing the perception of other compounds. Each compound also has a specific flavor threshold, below which it will not be perceived. And of course, this flavor threshold also depends on what other flavors are present in the beer (and hence on the ‘matrix’ in which it is present: the flavor threshold of a compound will be different in water than in a beer…).” (EdX: The Science of Beer Brewing. Module Ten.)

Aspects of sensory analysis are:

visual aspects
aroma
taste
mouthfeel
body

Clicking next, we come to a text page about ‘testing panel’ and training a testing panel. Two big reasons for having a tasting panel is to ensure beers are true to brand and to evaluate the consistency of the beers. (How often have you read or heard about batch 1 vs batch 2 from a craft brewery or the lack of consistency between batches; I can think of the recent hullabaloo with Funk Brewing and a batch not having the consistency of a previous batch; this is why its so important to keep consistency between batches the same.)

“More specifically, do the beers contain all the typical flavor compounds they need to contain? Does it taste how this specific beer should taste, according to customer’s expectations? Is the beer conform the specific style or brand?” (EdX: The Science of Beer Brewing. Module Ten.)

Testing panels are people hand-picked by breweries to sample, test, and preview recipes, beers, ingredients, new procedures in brewing, new vessels, etc. They are usually a group or assortment of knowledgeable people with an extensive background in beer and alcoholic beverages; cicerones, BJCP judges, former brewers, restaurateurs, malsters, hop growers, etc, etc. (People with expert knowledge in the field.)

The first step to the testing panel, is to train the participants. As with everything, definitions and vocabulary is essential, so you will want everyone on the same page, using the same language, describing beer in the same terms, etc. This is why there are groups like the BJCP Judges, who have a uniformal way of judging beer. So this is a two step process; step one: development of vocabulary, and then step two: standardization of vocabulary.

Development of Vocabulary – “People are exposed to different flavors and are asked to write down the words they associate with a specific flavor. This can be done by using beers that have very specific flavors, or, more commonly, by using commercially available flavor standards (packaged flavor molecules that can be readily added to liquid and consumed).” (EdX: The Science of Beer Brewing. Module Ten.)

Standardization of Vocabulary – “Here, panel members discuss different words associated with a specific flavor. In the end, people agree to use some of these words as specific descriptors for a specific taste. In this way, everybody will use the same word to, for example, describe specific hop aromas. Based on the vocabulary developed during these steps, a tasting sheet can be developed that can be used as a tool during the actual tastings. Of course, you don’t necessarily need to establish your own vocabulary from scratch. You can also use the terms from, for example, the Beer Flavor Wheel that will be discussed later in this module. In a next step, the panel is trained in specific attributes. This is usually done by spiking known quantities of flavor-active standards into beer and asking the panel to describe what they smell or taste (without them actually knowing what they should be smelling/tasting). This allows to determine the threshold of different compounds.” (EdX: The Science of Beer Brewing. Module Ten.)

The next page moves on to discuss tasting sheets and the tasting wheel. For anyone who has done any kind of beer judging at events, or training for BJCP or cicerone, this is all common knowledge. People who also grow hops for a living have similar sheets for how their hops should smell, feel, etc after harvest.

Most breweries have a beer evaluation sheet or a tasting sheet. They are typically broken down per style, so you would have a page for Lagers, a page for IPAs, a page for Stouts, a page for Sours, etc. (And some can be further broken down from there, but thats typically marked and noted on the main style sheet.) [For verified track members, there is a beer evaluation sheet / tasting sheet you can download.]

“Another commonly used tool is the Beer Flavor Wheel. The Beer Flavor Wheel was developed by Morton Meilgaard, a flavor chemist at a brewery in Detroit, in an attempt to standardize the language used in beer evaluation. The beer flavor wheel was jointly adopted in the 1970s by the European Brewery Convention (EBC), the American Society of Brewing Chemists (ASBC), and the Master Brewers Association of the Americas (MBAA). The wheel (see figure below) gives a specific descriptive name to a wide range of distinct beer flavors. These are first divided based on if they are perceived by taste or smell (odour). Next, they are grouped into 14 categories, each with specific descriptors. For example, one of the categories is ‘aromatic and fragrant’. This is then broken down into specific descriptors, namely alcoholic, solvent-like, estery, fruity, acetaldehyde, floral, and hoppy, which can then be further subdivided into second-tier terms (not shown on the wheel itself). Many of the main descriptors are also assigned distinct compounds responsible for the flavor, referred to as the ‘reference standard’. ” (EdX: The Science of Beer Brewing. Module Ten.) Following this, on the page is an example beer flavor wheel. In 1993, Susan Langstaff updated the most commonly used beer flavor wheel to include mouthfeel descriptors.

Clicking NEXT, we come to the experiment page. Its a ‘do it yourself’ beer tasting. The page tells you what you’ll need to do a beer tasting, what ingredients, what equipment, etc. It also has a 9 minute video describing how to ‘professionally’ drink a beer. An interesting it discusses is a ‘black glass’, that way you are not persuaded or biased by the coloring of the beer. Its a very informative long clip, with the three main instructors giving you sage advice on how to properly, professionally, and smartly drink a beer.

The next page is a discussion on the tasting from the experiment. Here is my post in the discussion (a slight cop-out since I didn’t re-do the experiment, but I think it holds enough weight):

“I recently did a canning for SOCIAL DISTANCING – a collaboration beer between Tattered Flag, Abomination Brewing, and Pilger Ruh Brewing. Since I had several cans of it from the canning, I did that as my beer tasting. I also wrote up a review on it for my blog:

https://thebeerthrillers.home.blog/2020/05/25/beer-review-social-distancing-tattered-flag-abomination-brewing-and-pilger-ruh-brewing/

I really enjoyed it and thought it was a wonderful IPA to taste. I got lots of floral, citrus, hop notes, especially since it was dry hopped. My aroma segment from the article actually says:

“Canning day the whole brewery smelled delicious, like walking into a hop filled bakery. And cracking this beer just three days later retained that same smell. Strong juicy New England style hoppy deliciousness as soon as the tab cracked and the can opened. Very strong, citrus, floral and fruity notes, hint of peach and mango especially out of the fruit.” And not much changed doing the taster a day later either.

Cheers!
Enjoy!

-B. Kline
The Beer Thrillers
https://thebeerthrillers.home.blog/ “

I stand by the aroma, even a few days later, so I think I nailed their question. (The question for the discussion was about the aroma.)

The next page is an expert clip, its by Dr. Veerle Daems, a sensory analysis for Haystack. The clip is six minutes and fifty-seven seconds long. Haystack is a full service research agency.

After this, is a quick knowledge check (test). The first question is a check-box select all that apply question, the second is a drop and drag question, and then a feedback question.

The next page begins our next segment of the module – Belgian Beer Styles. As per usual, the first page is an introduction text page. “Every beer is unique: beers are extremely diverse in style, taste and aroma. Interestingly, most beers belonging to the same beer style do share some characteristics. In the first module of this MOOC, we used these shared characteristics to delineate 8 different beer profiles that were used in the beer profile quiz you took at that time.” (EdX: The Science of Beer Brewing. Module Ten.)

The eight beer profiles that they use are:

easy going – lagers, amber ales, pale ales
the dark side – brown ales, stouts, and porters
funky flavor – sours, geuze, and brett beers
high hops – IPAs
fruity – fruit beers
spicy specials – witbiers, wheat bears, spicy blondes
triple trouble – Belgian tripels, strong blondes
no-low alcohol – NAB-LAB

The first page after the introduction is dedicated to the easy going beers, the lagers, amber ales, and pale ales. “Lager, amber and pale ale were grouped together to form the ‘Easy-going‘ category in the beer profile quiz you took at the start of this MOOC. We have grouped them together since most of the beers within these styles are light, easy to drink, refreshing and have a low to medium ABV.” (EdX: The Science of Beer Brewing. Module Ten.)

From there, the next page is the dark side; the brown ales, stouts, and porters. “Brown, stout and porter were grouped together to form The Dark Side category from the beer profile quiz you took at the start of this MOOC. These three beer styles were grouped together in this category since they often are dark, creamy and sweet, with a caramel or coffee-like aroma and taste.” (EdX: The Science of Beer Brewing. Module Ten.)

After this is the funky flavors, the sours, geuzes, and brett beers. “Lambic, gueuze and Brett beers were grouped together to form the Funky Flavour category from the beer profile quiz you took at the start of this MOOC. These three different beer styles were grouped together since they are often complex in taste (tart, barnyard, sour, acidic).” (EdX: The Science of Beer Brewing. Module Ten.)

Then, we got the IPA. A familiar and favorite across the American craft beer scene, especially in recent years, and in all kinds of variations. From West Coast hoppy IPAs to New England smooth and juicy IPAs, or even ‘milkshake IPAs’ with lactose, and other variants in between (and even further apart!). “As you have seen in the first Module in this MOOC, the term India Pale Ale (IPA) refers to a British beer style that originated in the 1700s. British brewers realized that beers brewed using large amounts of hops would preserve better during the long journey to India compared to other beers. After a while, this IPA style was also brewed for the domestic market. IPAs were one of the first styles brewed by American craft breweries in the 1970s. Nowadays, different takes on the ‘traditional’ IPA exist, including for example New England IPAs, which are characterized by an intense tropical hop-derived aroma.” (EdX: The Science of Beer Brewing. Module Ten.)

Fruit beer is a pretty simple category. Fruit. In. Beer. Pretty simple, right? …Right. Don’t worry, there’s no M. Night Shamalyan style twist to this one. “Fruit beers formed the Fruity category from the beer profile quiz you took at the start of this MOOC. Different fruit beers exist, using different beers as a base to add fruits. The typical sourness of Lambic beers makes them ideal to be blended with fruits. These fruits not only add fruity and sweet aromas, but also provide a sugar sources during refermentation. Historically, Lambic brewers have used locally grown fruits to add flavours to their beers: sour cherries (used for Kriek beers) and raspberries (used for Framboises). Nowadays, other beers apart from Lambic beers are used as a base as well to make other fruitbeers, which are often sweeter than Kriek beers or Framboises.” (EdX: The Science of Beer Brewing. Module Ten.)

After this we have witbeer or witbiers. “Wheat beers and spicy blondes were grouped together to form the Spicy Specials category from the beer profile quiz you took at the start of this MOOC. Wheat beers, also called Witbier (not to be confused with German Weissbier), is one of the most unique beer styles of Begium. The name Witbier likely refers to the old Dutch word for wheat (‘weit’), since wheat is blended in with the malted barley. Historically, the wort was spontaneously fermented. This resulted in a cloudy beer with a sour taste. To balance out this sour taste, gruit was added. Nowadays, a mix of hops, coriander seeds and orange peel is used instead of the gruit. Nowadays, witbier is no longer produced via spontaneous fermentations. Instead, yeast strains are used that produce a characteristic, clove-like, pepper and spicy aroma. Witbiers are usually bottle conditioned with fresh yeast.” (EdX: The Science of Beer Brewing. Module Ten.)

The next category (and page) is the ‘triple trouble’ or tripels and strong blondes. “While many publications differentiate between Tripels and other strong blond ales, sensory and chemical analysis of different beers from these categories indicate that there in fact is a large overlap between these categories (with some notable exceptions of course!). Bottle refermentation is common for both styles, resulting in strong carbonation.” (EdX: The Science of Beer Brewing. Module Ten.)

And the final category, the NAB-LABs. The non-alcoholic beverages or near non-alcoholic. (Think O’Douls.) “NABLABs were the final category in the beer profile quiz. NABLAB stands for No Alcohol Beers (<0.5% ABV) and Low Alcohol Beers (<3.5% ABV). The alcohol levels is the only criteria to place a beer in the NABLAB category and hence different beer styles, including pilsner, amber, IPA and wit, are present in this category. Health concerns as well as responsible drinking behavior are the two main reasons listed by consumers as to why they drink NABLABs. Not long ago, NABLABs were less popular: brewers arrested fermentation before all fermentable sugars were converted into alcohol (resulting in a very sweet beverage) or used a distillation process that not only stripped the beer of ethanol, but also of much of the volatile aroma compounds. Additionally, many LABLABs tend to lack some body, and are considered less ‘full’ than other beers. Recent advances in brewing technology now make it possible for brewers to produce NABLABs without much compromise in flavor.” (EdX: The Science of Beer Brewing. Module Ten.)

The next page is a verified track learner page. A page for only those getting the certificate and paying the extra money for the course. (So we’ll be skipping this page, like I said in the previous articles, I’m not doing the certificate program, so I won’t have access to the verified learner track pages.)

Looks like we’ve reached the end, the next page is the ‘overview and check’ page, where you check the boxes saying you’ve learned everything in this module. The page after that is the assessment page – another page for verified track learners only. Clicking next we come to the feedback and questions page, a discussion page at the end of each module, where you can leave a note, or ask a question. The professors regularly check in, and like to help here especially. Following this page is the text page – End of Module Ten. They breakdown the different between the verified track and the audit track (the audit track is the non-certificate / free / non-paying program that I did, the verified track is the 99.99$ certificate track). At the end of this page, unlike other end of module pages, there is another discussion portion, but this time for the entire MOOC, so you can leave any feedback you have about the entirety of the MOOC, as well, or give a thanks, or shout-out, or what have you. I left a final note on the last MOOC overview discussion page:

“Thanks so much! This has been so much fun, and I’ve done it through my blog, which helped keep me on task, and I know my readers have really enjoyed it as well. Thank you for offering this, and doing it for either free or for certificate is so awesome. Was a great and fantastic (and productive) way of killing the lockdown time.

To see the start of my series on this you can check it out here: https://thebeerthrillers.home.blog/2020/03/26/beer-education-series/

To check out my blog:
https://thebeerthrillers.home.blog/

Thank you so much for all the valuable information, and for giving me something to do and write about.

Cheers!

-B. Kline
The Beer Thrillers
https://thebeerthrillers.home.blog/ “

Clicking the next page, it takes you to a page discussion the final assessment and a heads up on its grading system, for the verified track learners. They have until May 31st (2020) to complete the final exam. It accounts for 45% of their final grade of this MOOC. They will be graded, and if successful, certificates will be sent out June 2nd (2020).

As for us, we are all done now. Module Ten is done. The entire MOOC is done. I hope you feel as accomplished as I am. This was a fun MOOC, a fun course, a very informative course, and I know I learned quite a bit. If you did it with the verified track and get your certificate, congrats even more. Hopefully that will help to land a job at a brewery or craft beer bar or bottle shop as that is definitely something to hang your hat on. For those looking to further their beer, or brewing, or brewery education, I recommend the Brewer’s Association safety courses. I had taken them a few years ago (two and three years ago now). Each course in that comes with a certificate, and it has all aspects of the brewery covered. From silo and grains to bottling to kegging to sanitizing, to chemicals, to everything. There is a lot there, and they give you free certificates, and its all very well done as well. So I highly recommend that if you are looking to further your education. You can find them at: https://www.brewersassociation.org/educational-publications/free-online-brewery-safety-training/ – Brewer’s Association Safety Training.

I will do a follow-up wrap-up post in the next day or two, that will basically just be saying how everything is done, and just put a coda and a cap to this beer education series on the blog. I will also go back through, and edit the previous module and series installments here on the blog to include a full linked syllabus and series overview at the bottom of each post, that way you can get to any module or part of the ‘Beer Education Series’ you want to from any other module post. So that should make things simpler. (You can also click on the Category or Tag – Beer Education and that will provide a list of the links as well.)

I would love to hear in the comments from anyone else who has completed this journey along with me. Or if anyone else knows of any other beer education series online. Also love furthering my education (shouldn’t we all?). Especially at this time of rest due to the lock-down, which is starting to lift – at least here in Pennsylvania. We’ll see how that goes. June 5th the whole state moves to Yellow Phase, and soon after that several counties will enter Green Phase for the first time. Fingers crossed for humanity on this one.

Alright everyone, thanks for joining me on this module and the MOOC, and congratulations on completing it! I’m off to have a beer to celebrate!

Cheers!

-B. Kline

Beer Education: Module Eight: Beer Filtration and Packaging

BKline — Mon, 11 May 2020 14:30:08 +0000

As with every other module, we begin with a quick summary and preview video that takes about a minute and twenty seconds to start us off. Discussing what happens after fermentation and maturation.

The next page is a text page titled “What is Filtration?”. “During filtration, a turbid liquid (in this case: unfiltered beer) is mechanically separated by a filter medium into a clear filtrate and a residue. The beer is forced through this filter by applying pressure, so that there is a pressure difference between the inlet (where the unfiltered beer enters) and outlet (where the filtered beer exits) of the filter.” (EdX: The Science of Beer Brewing. Module Eight.)

The main goal of filtration is to remove yeast cells, as well as things that could result in a hazy beer (obviously, notwithstanding purposeful hazy beers like New England IPAs and pale ales). This also results in better beer stability. Filtration is also a way to remove some bacteria, further helping with the sterilization of the beer and protecting the drinker (customer).

Beer is usually filtrated after lagering. (After fermentation but before bottling.) The speed of filtration depends on the number of yeast cells and the fermentation equipment used.

Next is a page of text and diagrams discussing the different filtration mechanisms. There is several ways, but the big three are: surface filtration, depth filtration (mechanical retention), and adsorption filtration. (The page provides a diagram for each of these mechanisms.)

Clicking next we come to another text page – introduction to filter types.

Sheet Filters – This filter consists of filter sheets between plates.
Membrane Filters – The beer is passed through membranes with very fine pores.
Filter-aid Filters – Filters coated with specific filter-aid. Kieselguhr is most commonly used in the beer industry

Filter aids come in two main varieties: Kieselguhr and perlite. “Kieselguhr is also called diatomaceous earth. It is the fossilized remains of diatoms, single-celled micro-algae with a hard but porous cell wall composed mainly out of silica – SiO₂. These skeletal remains were deposited on ocean bottoms millions of years ago. Kieselguhr has a high porosity, causing substances to be filtered out from the beer due to mechanical retention. Kieselguhr only has limited adsorption capacities, implying that it does not significantly alter flavor and color of the filtered beer.” (EdX: The Science of Beer Brewing. Module Eight.) “Perlite is a material of volcanic origin. It is volcanic glass formed by the hydration of obsidian- a rock formed by the rapid cooling of lava. By heating perlite to 800°C, the water inside will expand and ultimately cause the perlite to burst. The resulting glassy structures are then milled to yield perlite powder, a very light, loose powder. Perlite consists of aluminium silicate. Because of the grounding, perlite does not possess a fine, internal structure and filtration mainly happens due to the cavities and channels between the perlite particles.” (EdX: The Science of Beer Brewing. Module Eight.)

Moving onto the specific filter types, first up – sheet filters. Sheet filters are fiber sheets that are hung between plates. The sheets are mostly cellulose but also use Kieselguhr (typically). The unfiltered beer flows from one plate to the next via the filters. In breweries, sheet filters are used for the finest filtration – also called polishing. There is some disadvantages to sheet filters; they are: occupy a large amount of space, need to be cleaned manually – so time consuming and hands on, filtering of turbid beers can be a very slow process, and high operating costs due to water usage and time factors.

Filter aid filters are the next type we take a look at. Filters are pre-coated with a filter-aid. The particles of filter-aid are smaller than the pores of filter support that they are coated on. To prevent this from getting into the beer the filter-aid is applied in three layers:

Precoat Layer
Safety Layer
Continuous Dosing

The most commonly used filter set-up using filter-aid filters is a set-up using kieselguhr-PVPP, with PVPP standing for polyvinylpolypyrrolidone.

Membrane filters have extremely very fine pores, like a giant mesh. This mesh or membrane filter catches the most and has quickly become the more popular way of filtration for many breweries in America. A big disadvantage to the membrane filter though – is when the pores get coated in with the impurities of the unfiltered beer, building a wall to them that lets nothing past. To prevent this, beer can be pre-clarified before ran through the membrane filters.

The next page is a 4:45 minute expert clip by Dr. David De Schutter, who works for AB InBev Europe. AB InBev has over 250 breweries, with countless amount of filtration systems throughout these breweries. AB InBev has its own interbrew filtration system.

Following the expert clip is a ‘quick knowledge check’. It is two questions, a drop and drag question, and a ‘check all that apply’ question.

We now move onto the next subject – beer packaging. The first page is ‘types of beer packaging’. Any consumer of beer should be pretty familiar with the various types of beer packaging. There are three main types of material styled products:

Glass or PET (polyethylene terephtalate) bottles
Cans (aluminum)
kegs

The types used by breweries vary for purposes of the beer and how it is sold, as well as region. In Europe, glass beer bottles are preferred and favored; where as in America consumers prefer aluminum cans, especially for the larger macro produced beers (Budweiser, Miller Lite, Coors Lite, etc.)

The next page is about glass beer bottles. Some of the important features of a glass beer bottle are: neutral to taste, impermeable to gas, and heat resistant. However; glass is heavier, and prone to breaking when transporting. The preferred color of a bottle is brown glass or brown-sugar class; primarily to prevent ‘skunking’. “This is because brown colored bottles offer the best protection against the formation of something that is called a lightstruck flavor – a pungent smell that is often described as ‘skunky’. This skunky flavor is caused by photo-oxidation of isohumulones (iso-alpha acids), important compounds derived from hops. This photo-oxidized product can react with thiols present in the beer and this results in the formation of 3-methyl-2-butene-thiol, also known as MBT. It is MBT that is responsible for the pungent, lightstruck smell in beers. MBT also has a very low flavor threshold: only a few ng per L (ppb) are sufficient for people to pick up the smell.” (EdX: The Science of Beer Brewing. Module Eight.) This is followed by a diagram showing how MBT forms.

For green bottles, the brewers use special hop extracts containing hydrogenated or reduced iso-alpha acids. Green glass bottles can also be coated with a lightblocking layer as well to prevent the MBT formation.

Up next is a 2 minute video about the bottling line. The next page is a text and diagram page about filling bottles with the beer. Home brewers and commercial brewers use similar equipment, but just on much different size and scope.

Following this is a page on carbonation. Carbonation is the process of dissolving carbon dioxide in a liquid; in this case in the beer. The degree (amount) of carbonation in a beer is a big factor in many ways for different types of beer. It can also potentially be too much, causing ‘gushers’ or ‘geysers’ when opened. It adds body and mouthfeel to a beer, foam formation, foam stability, and also can affect the hop aroma.

Carbonation can be performed before or after packaging. Beer can be carbonated one of two ways – natural carbonation or forced carbonation. Natural carbonation comes during the fermentation process (usually near the very end). Forced carbonation is after the beer is fully fermented, carbon dioxide is pumped into a sealed beer container, this allows the carbon dioxide to be absorbed into the beer.

Next up is a nearly seven minute expert clip from Dr. David De Schutter. In it he discusses beer packaging, especially how to minimize beer oxidation. At this point, oxygen is the ultimate evil for beer. Another aspect is making sure the beer is drinkable and microquality is ensured. Using either flash pasteurization or sterile filtration. Once again, following the video clip is another ‘quick knowledge check’. It is one question and is ‘check all that apply’ question.

We now move onto the next portion of this module – microbiological stability of beer. The first page is an intro to this segment of the module. We start off with pasteurization. “Pasteurization is a process used to increase shelf-life of food products and beverages, including beer. It is named after the French scientist Louis Pasteur. Remember him from the timeline in Module 1? Not only did Pasteur discover that yeast is responsible for the fermentation process, he also discovered that thermal processing of beer and wine would prevent them from souring. This is because the increased temperature destroys or inactivates micro-organisms that could otherwise lead to beer spoilage, or that, in the case of pathogenic microbes, even be harmful to humans. For example, if microbes such as lactic acid bacteria would still be present in the packaged beer, they would lead to sour beer by producing lactic acid. Presence of Pediococcus species in the packaged beer would lead to butter-like off-flavors because of diacetyl production. By pasteurizing the beers, these microbes are inactivated and hence cannot produce these compounds anymore. In other words, pasteurization increases microbiological stability of the beer.” (EdX: The Science of Beer Brewing. Module Eight.)

Beer pasteurization can be performed before or after packaging of the beer. There are two main types of pasteurization, namely flash pasteurization and tunnel pasteurization.

Flash pasteurization: “The term flash pasteurization refers to short-time pasteurization (15-30 sec) at high temperatures (71-74°C), with temperatures used in flash pasteurization being higher than those used in tunnel pasteurization. Flash pasteurization is most often used for beer that will be filled in kegs, and is most often done using plate heat exchangers. ” (EdX: The Science of Beer Brewing. Module Eight.)

The steps for flash pasteurization:

cold beer is warmed up
beer is brought to the pasteurization temperature (and maintained there for a short while)
the beer is cooled down again
the beer then needs to be packaged

Tunnel pasteurization – “Tunnel pasteurization is often incorporated in the beer filling process. Tunnel pasteurization is performed on packaged beer (in cans or bottles). Bottled or canned beers slowly pass through a long, narrow chamber (a tunnel, hence the name tunnel pasteurization) and are warmed up by spraying them with warm water for a fixed time before cooling. The beer is held at a pasteurization temperature of 60°C for a set time, usually around 30 min. The exact time of pasteurization also depends on the type of beer that needs to be pasteurized. In contrast to flash pasteurization, the beer inside a bottle does not all heat up in the same way in tunnel pasteurization – resulting in a temperature gradient inside the bottle.” (EdX: The Science of Beer Brewing. Module Eight.)

Cold sterile filling is also a method, and is actually gaining traction because the above procedures can age a beer quicker (due to the rising temperatures).

Beers in glass or aluminum cans have labels. Just like food at your grocery store, beer also requires labels. It lets you know key information about the beer, at the worst, it allows you to know the name of the beer so you at least know what the heck you’re drinking. Different regions, countries, and states require different information to be presented on the beer labels for the sake of the consumers as well as for those shipping the beers. The EdX course gives the example of Belgium which requires the following information:

Product Type
List of Ingredients
Net quantity in metric units
Date of minimum durability
Special conditions for keeping or use
Name or name of business, address, manufacturer, packager, and importer
Country of origin or provenance
Alcohol content for beverages that contain more than 1.2% ABV (alcohol by volume)
Lot identification

The page then has a discussion page where it is asking people to show their favorite beer labels. I presented the label from Fourscore Beer Co’s “This is Nut the Fluff You’re Looking For“. (Which if you click the link you can see my review of.)

My post: “

I chose this label because I’m a huge Star Wars fan, and I love how it both imparts what the beer is, as well as a fun pun, and uses the Star Wars theme. I think its done very well and is a nice clean, crisp, American craft brewery beer label.

https://thebeerthrillers.home.blog/2020/03/24/beer-review-this-is-nut-the-fluff-youre-looking-for-fourscore-beer-co/

-B. Kline
The Beer Thrillers
https://thebeerthrillers.home.blog/ – “

The next page we move onto the next module. The first page is a list of materials to collect for the ‘do it yourself’ experiment in Module Nine. After this is a page for verified track learners about priming sugars and carbonation. Next page is on the different priming sugars for carbonation. There are three main sugars for priming: corn sugar, table sugar, and dry malt extract (DME).

The next page (still listed on verified track learner; although it is letting me, a non-verified track learner see and read it) is about the carbonation levels of different beer types. It has a chart of recommended levels of carbonation per beer styles, for ex. Belgian Ales – 3.8 to 4.8 (g/l).

Now we come to the ‘end’ of the module. With the overview and check page. Followed by the assessment for verified track only. (Which this did not let me view.) After this is the feedback and questions page as is typical for the end of each module. I posted under the topic “Can vs. Bottle”:

“I find it in interesting in America that especially in the last few years there has been a greater move to go from bottle to can. Likewise from growler to crowler. I actually tend to prefer bottles for the 12oz and 16oz varieties, but prefer crowler (32oz) over the growler (32oz). Can’t exactly place why, perhaps because of a taste difference. Though I’m told by many there is no taste difference, and The Alchemist brewery even says to drink their IPAs from the can rather than from the glass. (I do typically pour into glasses from either can or glass; unless busy grilling or mowing or whatever, then I drink straight from the can or glass.)

Curious what other’s thoughts are on the glass bottle vs. can debate.

Cheers!”

So I’ll posit this to you dear readers as well, what do you think, do you have a preference between cans or bottles? If so – why? Also, do you pour into a glass typically when drinking? Does that affect your decision?

And last but not least, hitting next, brings us to the “End of Module 8” page. Congratulations! Another module done and in the books. Time to grab (another?) beer, and prepare for Module Nine!

I’ll see you there guys, and in the mean time – Cheers!

-B. Kline

Beer Education: Module Seven: Fermentation and Maturation

BKline — Wed, 06 May 2020 22:02:48 +0000

Up to module seven now, lucky number seven, and completing it on May sixth. I’m a little behind schedule (module nine just got released two days ago – Monday, the fourth), but lovely thing about this MOOC and doing online learning, I can play catch-up.

As per usual, the first page is an introduction video for the module. This one is a minute and twenty-eight seconds, and she discusses the module, fermentation, maturation, and that they have the head brewer of Orval as one of the guests for this module.

Our next page is a text overview page. It has a list of terms and definitions.

Fermentation – The process by which yeast cells convert sugars present in wort into ethanol, carbon dioxide and flavor compounds.
Green Beer – Immature beer. After fermentation but before maturation.
Maturation – Can also be called conditioning or secondary fermentation (most notably in the US). (There is also WARM CONDITIONING and COLD CONDITIONING.)
Bottle refermentation – Commonly called bottle conditioning. How most home brewers finish carbonation of their beers.

After the list of vocab words there’s a diagram explaining the steps. Starting with cooled wort and propagated yeast, to pitching, pitched wort, fermentation, green beer, maturation, beer, and finally ending at ‘possible bottle refermentation’.

Moving on, our next page is propagation. “To obtain good fermentation results, both quantity and quality of yeast cells is important. This can be achieved during propagation. To ensure a sufficient quantity of yeast cells for fermentation, all yeast propagation regimes consist of different steps where yeast cultures are grown in progressively increasing volumes.” (Edx: The Science of Beer Brewing. Module Seven.)

The steps of propagation are usually as follows: isolation of desired yeast cells, propagation in the lab, and propagation in the brewery.

The next page is a discussion page about yeast propagation. Their question: “Thinking back about what you have learned about yeast in Module 5 of this MOOC, why do you think these factors are important? You can discuss with your fellow students on the discussion forum!”

My post: Yeast is one of the biggest driving force behind flavor in a beer. You need the right requirements and factors to keep the yeast well and good for brewing. Sufficient temperature is always a big issue. Keeping the yeast right insures flocculation and FLO and makes sure you get no off flavors in your beer. (A common one being a ripe banana taste.)

Moving forward, we come to: “Dried Yeast – a Special Case”. Most home brewers (in the US especially) will be familiar with dry yeast. A lot of home brew shops sell dry and wet yeast packets from a variety of companies. This text page details how dry yeast is produced, and how you rehydrate it.

Clicking next, we have another text page about pitching yeast. This is when yeast is added to wort. The number of yeast cells added to a wort (at a specific volume) is called the pitch rate or pitching rate. The higher the pitching rate (the more yeast cells) the less fermentation time. The page then has a chart about different pitching methods. Such as: pitching freshly propagated yeast, pitching active dry yeast, re-pitching from a previous fermentation, and drauflassen.

The next page is about fermentation. “During fermentation, yeast converts fermentable sugars, present in wort, into CO₂ and ethanol. At the same time, hundreds of secondary metabolites that influence the aroma and taste of beer are produced. Variation in these metabolites across different yeast strains is what allows yeast to so uniquely influence beer flavor.” (EdX: The Science of Beer Brewing). (See also: Module Five: Yeast.) This is then followed by a very large diagram.

Fermentation can be done in an open or closed vessel. Most home brewers and craft breweries in the US ferment with closed vessels. Throughout the fermentation process, brewers can keep track of the fermentation progress by taking samples, they then analyze its wort gravity. (Similar to that of original gravity and final gravity.)

Moving on, we get to conditioning. Not altogether unlike an athlete, conditioning is final fermentation (or secondary fermentation). Where fermentation is the heavy lifting, conditioning is the cardio and toning. This is when green beer matures (primarily in flavor) and can be carbonated more. Two (of several) types of conditioning are warm and cold conditioning.

“Warm conditioning is sometimes also called diacetyl rest or VDK stand. This is a period where the green beer is stored at warm temperatures for final flavor and colloidal stability. During warm conditioning, yeast cells can take up the diacetyl from the green beer and convert it into acetoin and subsequently 2,3-butanediol.” (EdX: The Science of Beer Brewing. Module Seven.)

“Cold conditioning is sometimes also called lagering. When fermentation is finished, and often after a period of warm conditioning, the green beer is cooled (either in the fermentation tank or in a separate lagering tank) and stored at low temperatures (-1 to 5°C) for several days (ale beers) or up to several weeks (lager beers). These low temperatures cause yeast cells to further sediment and also cause precipitation of proteins (a so-called chill haze, due to the formation of protein-polyphenol complexes). Together, this results in clarification of the beer. Lagering also allows for flavor maturation of the green beer – acetaldehyde levels (green apple, solventy) and sulphur compound levels (rotten egg, garlic) drop, amongst others due to CO₂ gas stripping. For lager beers, this ultimately results in their characteristic clean, crisp taste.” (EdX: The Science of Beer Brewing. Module Seven.)

“Conditioning of beers in wooden barrels deserves a special mentioning here. After fermentation, the beer is further matured in wooden barrels. These wooden barrels are often made of oak and are often re-purposed from bourbon, whisky, wine, brandy, sherry or port production. The toasting of the oak affects the type of flavors that are imparted by the wood to the beer. Toasting is a process whereby the wood is brought to a specific temperature (often between 150-240°C) for a certain time. This heat causes complex thermal degradation reactions of for example polysaccharides present in the wood to take place – resulting in the production of aroma-active volatile compounds. Lightly toasted oak will impart a spicy flavor, whereas more heavier toasted oak can result in smoky and coffee-like flavors (Doesn’t this remind you of what is happening during the kilning of malt? In fact, toasting also creates furfural and HMF!). Vanilla and caramel are two other wood-derived flavors. The beer will also absorb the flavors of whatever was stored in the barrel before, such as wine or bourbon. Additionally, the microbes present on the wood can also contribute additional flavor compounds to the beer. These barrels can be re-used for several maturation rounds. Conditioning in wooden barrels can take several months. To give these wood-derived flavors to their beers, some brewers work with wood chips instead of full wooden barrels.” (EdX: The Science of Beer Brewing. Module Seven.)

Up next is a text page on bottle refermentation. Priming sugar and yeast cells are added to the bottle when the wort (now beer) – beer is transferred from the fermenting vessel to the bottle. (Home brewers will add just the priming sugar.)

Next is an expert clip from Anne-Francoise Pypaert, head brewmaster for Orval; it is a 7:14 minute video. In the clip, she talks about yeast, fermentation, conditioning, and how they do all of that at the Orval Brewery.

This is followed by a quick three-question quiz. (Drag and drop, and two multiple checkboxes.)

The next two pages are about fermentation vessels. The first page about what you can use. The second page about different types of vessels. Starting with open vessels and discussing coolships (used for lambics). Then discussing closed vessels. Fermentation vessels can be horizontal or cylindroconical. Cylindroconicals (or conicals) have a few advantages: easy to clean and sanitize, possibility to recover CO2 produced during fermentation, possibility to recover and easily remove (and thus reuse) [yeast] cells at end of fermentation, and possibility to install and use specific fermentation temperature devices and techniques.

After this is a three and a half minute video about the changes during the fermentation process. Notable changes in pH and Nitrogen. There is also changes in beer color, beer flavor, and acids. Due to the drop in pH the precipitation of polyhenols begins.

There is some factors affecting fermentation. They are:

Extract content
Ethanol levels
Trace elements and other nutrients
Oxygen
Temperature
Pressure

Moving on in the module, we come to a text page about the intro to yeast handling after fermentation. “In almost all breweries, yeast cells are used for a number of cycles, or in other words, a number of fermentations. Hence, yeast is collected at the end of a fermentation round so that it can be used in a subsequent fermentation. This process of inoculating a new batch of fermentations with yeast cells from the previous fermentation batch is also called repitching or backslopping and this practice has been used by brewers for centuries. ” (EdX: The Science of Beer Brewing. Module Seven.)

Yeast recycling passes through two phases:

Yeast Cropping
Yeast Purification

First up is yeast cropping. This is when yeast cells are collected from the fermentation vessel. Most conicals allow for easy retrieval from the bottom of the vessel, before the beer is even removed. For top-fermentation systems, the yeast will be on the top and you just skim them off the surface / top.

You can also do yeast centrifugation. “At the end of primary fermentation, the entire yeast crop can also be removed by centrifugation. A second, more frequently used option, is to first remove the main yeast crop by skimming or plug removal and then centrifuge the green beer to remove any remaining yeast cells. ” (EdX: The Science of Beer Brewing. Module Seven.)

After cropping the yeast cells (and prior to repitching) you must purify the yeast. This can be done either by sieving or acid wash.

Sieving – As you have seen in the previous part on yeast cropping, collecting yeast from the correct layer of your fermentation will already reduce contamination of the yeast crop with trub particles.

Acid Wash – This is done using phosphoric, sulphuric or citric acid. The yeast crop is chilled before washing and this yeast slurry is gently stirred while the acid is being added.

The next page is about yeast storage. The most common ways of storing yeast are ‘yeast cakes’ and ‘yeast slurry’. (Neither sounds too appetizing.) Kveik yeast strains get stored differently. (Kveik is Norwegian for yeast.) “Farmhouse brewers would only brew a couple of times a year, implying that the yeast they used needed to be stored in-between these brews. This was traditionally done using a so-called kveik ring or kveikstokker – a wooden structure in the shape of a ring or log. This structure was dragged through the fermentation, in this way collecting yeast cells from the fermentation. Next, the ring or log was put up to dry. When it was time to start the next brew, this ring was simply dipped in the wort (that was often still very warm: 30-40°C – this also explains perhaps why Kveik yeasts do so well at higher temperatures). In this way, Norwegian farmhouse brewers were backslopping their yeasts from one fermentation to the next!” (EdX: The Science of Beer Brewing. Module Seven.)

The following page is a ‘do it yourself’ about other food fermentations and page discussion. The next page is a verified track content page (practical tips for brewers). We’ve now come to the overview and end-of-module checklist, as well as the assessment for verified track learners. As usual, this is followed up with the feedback and questions page, and then the end of module page. So another module done! Clicking next will take you to the intro age for module eight, which is where we will pick up next time.

Another long module worked through and done. I hope you all are learning as much as I am and enjoying this as much as I am.

Cheers!

-B.Kline

Beer Education: Module Four: Hops and Spices

BKline — Wed, 15 Apr 2020 18:19:38 +0000

Finally we’re up to the module all you hop-heads were looking forward to. Module Four: Hops and Spices! I imagine most of you will be caring about the hops of it; not the spices, but both are intricate to brewing (as you will see with this module). So let’s continue our journey and adventure through the Science of Beer Brewing!

Module four starts off, just like the others, with an introduction video. The intro video is by Stijn and is only 1:31. The second page is a 4 minute video introducing hops. As most know, hops are used to bitter, add flavor, and to help stabilize beers. It was also quickly realized in the 11th century that hops also help add to the shelf-life of beer. So between this and the taxation of gruit in Germany, there was a lot more reason and emphasis for brewers to go from using gruit to using hops in brewing. In 1516 the purity laws in Germany reduced the usage of herbs and spices even more.

Hops scientific name is humulus lupulis. (The lupulis or lupulin is the power inside the hop cones.) Hops are primarily cultivated for brewing and beer production (but can also be used for tea, sleep aides, and soap). 75% of hop production and growth takes place in Germany and the United States (primarily in the Yakima Valley).

Only the female plants are used for beer brewing, as they grow the flowers and the cones. Its these cones that have the lupulin (resin) that contains the molecules of interest for brewing. For this reason male hop plants are not grown with the female to prevent pollination. (To learn more about hop growing, I will be posting an article shortly about my own hop growing from my own growing hops this spring. At my house I have Cascade, Centennial, Nugget, and Saaz, and looking at possibly getting more.)

After clicking NEXT, we come to a text page about the role of hops and hop compounds. Characteristics of beer that are altered by hops include: beer bitterness, beer flavor, mouthfeel, foam stability and lacing, improved shelf life, antibacterial properties of the hops, protein precipitation during wort clarification, and phenolic antioxidants.

There are four major hop molecule classes:
* alpha acids – hop bitter acids
* beta acids – not as important due to most being lost during the brewing process
* essential oils – important contributors to the beer’s flavor, bitterness, and aroma
* polyphenols – important for the beer stabilization (haze, foam, lacing)

The page continues with a large chart of the various compounds and their weight (when the hops are still wet). This is followed by a second chart showing what hop compounds are retained in beer (after the brewing process). There is an important note to remember; that beers with dry-hopping (particularly IPAs) the aroma is going to be higher and greater due to the dry-hopping.

Our next page is another text page – hop types and varieties. “The Latin name of the hop plant is Humulus lupus L., belonging to the plant family Cannabaceae (this plant family, for example, also contains the Cannabis plant species!). There are many different hop varieties and around 100 of these are commercially cultivated. New varieties are constantly being bred in order to obtain better growing and resistant plants and hop cones with superior qualities.” (EdX – The Science of Beer Brewing.) Hops are somewhat similar to most seed plants as far as naming, with the heirloom, for example, older hop varieties have a double naming pattern. The first name refers to the origin of the variety and the second name refers to the actual (modern / current) variety. So – example – Hallertau Magnum would be: Hallertau as the geographic origin, and the Magnum refers to the variety of the hop. Some heirloom fruit and vegetable seeds do this as well, or do something similar but naming its pedigree rather than geographic origin. Some more modern and newer hops, have just one name, like Cascade hops, which name comes from the Cascade mountains of Oregon.

The three different classes for hops are: bittering hops, aroma hops (including noble hops), and dual-purpose hops (which; just as the name implies – they contribute to both bittering and aroma). About 60% of hop production is aroma hops, primarily for IPAs and due to IPAs growth in the craft beer sphere.

Before moving on, at the bottom of this page is pull-down tabs for each of the classes, with information and some examples of hops of each type. The next page is a discussion page talking about home brewing and what hops you have used, I posted the following:

I grow my own hops, and love using the types I grow – Cascade, Chinook, Centennial, Nugget, and Saaz. I like making a wet-cone and dry hop IPA at harvest time using the Cascade and Centennial, as well as Chinook. I’ve also done a clone of Troegs’ Nugget Nectar as well.

I have pictures of my hops on my blog and the blog’s Facebook page.
https://thebeerthrillers.home.blog/

The following page is a three-question (true or false) quiz.

Moving on, we come to the alpha acids. And we’re starting to get into some ‘real science’ here. This page has the molecule diagrams, and discusses what acids and molecules are in the alpha acids and in the hops.

The five alpha acid molecules found in hop resin are cohumulone, humulone, adhumulone, prehumulone and posthumulone. These molecules differ only slightly from each other in their molecular structures depending on the side chain at the C2 position (see table). The most important alpha acids are cohumulone and humulone. Their content can be up to 50% of the total alpha acid fraction. Adhumulone is the third most important alpha acid representing around 10-15% of alpha acids across different varieties. Each of these molecules results in a different type or quality of bitterness. Cohumulone is for example believed to contribute to a rough and harsh bitterness. Therefore, the cohumulone content of bitter hops can be high, while a high fraction is not desired for aroma hops.
Alpha acids are commonly present in the range of 2 up to 20% (w/w) of the hop cone content. Importantly, these alpha acids themselves are not causing bitterness, they are the precursors. Only during boiling, the alpha acids are converted into iso-alpha acids (isomers of the respective alpha acids) via a thermal isomerization reaction (acyloin-type ring contraction). These iso-alpha acids are the principal source of bitterness in beer. In addition, iso-alpha acids are more soluble in water compared to the alpha acid precursors.
EdX: The Science of Beer Brewing – Alpa Acids

As you might have guessed, the next page is about the beta acids, and is similar, showing the chemical chains and discussing their molecular makeups. Both of these pages are fascinating with their diagrams of the chemical structures and the nuance knowledge it provides about these alpha and beta acids in hops.

The next page is ‘intermezzo on determining beer bitterness’ and is a text page. This page discusses determining beer bitterness and figuring out a beer’s IBU. An important note at the end of the page: “Importantly, IBU values do not necessarily match the bitterness as it is actually perceived when drinking the beer. Perceived bitterness can be influenced by for example, alcohol level, residual sugars and the use of roasted malts. ” (EDX – Science of Beer Brewing.)

Our next page is about essential oils – and no, its not that crap your wife’s friend Karen keeps trying to sell her; this is about hops essential oils. This is a very long page, with a large chart, followed by pull tabs of lots of information. This is followed up by a page on polyphenols. After this is a tough quiz, so you better have studied.

We next have an expert clip from Professor Thomas Shellhammer about dry hopping. After his informative 8 minute video is a 3 minute video by Stijn about hopping techniques. There is then a few pull tabs of information, and another video by Stijn – summary.

The next page is all about hop products. It discusses hop pellets, hop extracts, pre-isomerised hop products, reduced pre-isomerised hop products, and hop aroma products. The next page is another quiz.

The following page is a verified track learner page about ‘favorite hops’ and ‘popular hops’. After that is a discussion page on spices before we get into the spices segment of this module.

Spices have been used since beer was first brewed, but really used in medieval times. They were used for preserving the beer a bit longer, aroma, flavor, and to mask off-flavors. Some popular spices were: juniper, anise seeds, caraway and coriander seeds. Gruit was especially popular during this time (pre-hops). Some spices that would have been a part of gruit was: yarrow root, juniper berries, ginger, sage and rosemary. We still commonly use spices in Belgian beers, particularly witbiers, these spices are: coriander seeds, cinnamon, nutmeg, and orange peel. Regional and seasonal beers will often use seasonal spices and flavors (like yam / pumpkin beers and winter warmers).

There is a lengthy chart at the bottom of this page, detailing what spices can be used (or at least what are commonly used), how they are used, what part is used, the flavor they impart, beer examples, and some bonus comments.

Clicking NEXT we come to a page with the aroma compounds of spices. This page lists their chemical structures, aroma compounds, and where these compounds are found. After this, we have a 3 minute expert clip from Dr. Gert De Rouck about spices. This is followed by a 4 minute video for the ‘Do It Yourself’ experiment for this module.

Following the video is a discussion about the experiment; I wrote:

I took a pretty non-descript pale ale brewed by a friend homebrewer that didn’t have much more than just a “Mr Beer” flavor kit to it, so it was relatively bland (but fine and acceptable beer). I experimented using coca nibs and vanilla to try and give it a bit of a cookies and cream flavor to it (or at least a punch in that direction).

I was amazed at how it did certainly pick up those flavors. Though I don’t think taste-wise it turned out necessarily the best, but it did definitely pick up the flavors of the nibs and vanilla.

After this is a verified track learner page (spiced beers). Followed by a “quick knowledge check”. After the quiz is a page about what materials to collect for Module Five. Following this is the typical ‘overview and check’ page at the end of each module. Then there is an assessment page for verified track learners. After that is the feedback and questions page that ends each module. Once you click NEXT you will be brought to the “congratulations you finished Module Four”. Clicking NEXT again will bring you to the intro page for Module Five.

So follow with me next time when we move onto the next important ingredient in brewing: YEAST.

Cheers everyone!

-B. Kline

Beer Education: Module Three: Water

BKline — Fri, 10 Apr 2020 17:10:09 +0000

We start off Module Three with an intro video about water by Stijn (Stijn 2). The video is 3:34 long and details how water is used to make beer and how it is an ingredient in beer. It also talks about alkalinity as well as the molecular make up of water (calcium, magnesium, etc.). This is a good first look at what Module Three will be about: Water.

The next page is another video – five minutes – about water quality and how it pertains for commercial brewing. Discussing water ions in particular. The first step is to analyze your water composition. The first thing to do is to get a mineral composition report. The report should minimally include the concentration of sodium, calcium, magnesium, sulfate, chloride bicarbonate as well as the alkalinity of your water supply. The video focuses on the major ions of calcium, magnesium, sodium, sulfate, and chloride. Good brewing water should be ‘moderately hard’. Each of these ions have different properties and affects on the brewing process at different steps and parts of the brewing process.

Moving onto the next page we have a text based page about the various other ions found in water. Iron, zinc, copper, manganese, and nitrate. The following ions should NOT be found in water: arsenic, barium, bromate, cadmium, chromium, cyanide, lead, and mercury. As well as herbicides, insecticides, and other similar solvents and organic killers.

Our next page is another text page; this time based on water hardness. Calcium and magnesium are the primary ions that determine a water’s hardness. If you like formulas and science (and math), this page is chock full of all that goodness for you. It discusses temporary hardness, permanent hardness, and total hardness of the water (complete with formulas for figuring each out).

Next up we have water alkalinity and mash pH. The minerals in your brewing water will have more effect on the mashing process than the water pH. The most important buffer (in your brewing water) is the alkalinity (resulting from the carbonate content). This page contains more formulas and charts and content. The bottom of the page discusses how important mash pH is to your brewing process. The mash pH affects: activity of enzymes, yeast cells, hop extraction rate during boiling, proper protein precipitation, and extraction of tannins.

The next page is a ‘summary’ and contains a massive chart. This is then followed by a quick knowledge check. After this we move (from water ions) to water treatment and the first page is an introduction page.

Different water treatment technologies exist and depending on the source water and final purpose, the following treatment steps might be necessary:

Removal of suspended solids
Removal of dissolved substances
Reduction of residual alkalinity
Removal of dissolved solids
Removal of organic contaminants
Removal of dissolved gasses
Removal of microorganisms

Moving onto the next unit, we have suspended solids – filtration. This is the process of removing fine particles in the water; filtrating and extracting them out of the water to keep it pure for brewing. Next up is dissolved substances – oxidation / precipitation. Iron and manganese are not only bad for beer flavors (giving you off flavors and off colors), it can also damage brewing equipment. You can remove them through aeration (oxidation) or by binding them to phosphates. The next page is about residual alkalinity – ion exchange and is a smaller page but with two pull-down tabs.

Continuing on we come to dissolved solids – reverse osmosis. Then we get organic contaminants – activated carbon. This is followed up by dissolved gasses – deaeration / degasification. Moving on to more topics in this group we have microorganisms – disinfection. And to finish out this group of pages we come to the summary. Which of course followed up by a small knowledge quiz.

We now come to a video, an expert clip by Master brewer Hedwig Neven on water usage and waste water treatment. This is a very informative 7:41 minute clip. (I’ve loved the expert clips, they have all been greatly informative.) The next page is a text page – materials to collect – which tells you what to collect for the experiment. This is followed up by a page for verified track members only (calculations for brewing water); luckily these calculations can be found all over the internet or through various homebrewing apps. As usual, this is followed by an overview page. In lieu of doing an assessment for this module, it is instead an experiment.

The experiment is about finding out about your local water, by comparing parameters, and then discussing it on the discussion page. My discussion post:

Harrisburg PA Area
— Via Suez: (4.10.20)

The level of the most important parameters related to brewing water: • Alkalinity: 102 • Effective Hardness: 167 ppm • Calcium: 55 ppm • Chloride: 3 ppm • Magnesium: 6 ppm • Sodium: 3 ppm • Sulfate: 20 ppm • pH: 7.3

The parameters that are out-of-range for brewing water: High pH; calcium on the low side and alkalinity slightly above desired threshold.

Treatment steps: Permanganate to remove chlorine Acid to reduce alkalinity (need to drop to 100). pH is also high, need to reduce based on Braun sheets.

After this, (where the experiment took the place of the assessment) as per usual, its followed up by a feedback and questions page. Clicking next we go to our typical “congratulations” page where it tells us we completed Module Three and that the next module will be done by Stijn S and will be about spices. So join us (and me) as we dive into that next! So stay tuned for Module Four as we continue our beer education series!

Cheers and happy (safe) learning!

-B. Kline

Beer Education: Module Two: Barley and Malting

BKline — Wed, 08 Apr 2020 15:30:34 +0000

Firstly, let me apologize for the fact that its taken me awhile to post this, as well as the lack of posts. I know I said I was going to do a post a day… and despite being in lockdown, its amazing how hard it is to actually write right now. Despite all the free time, I find myself not wanting to write as much, and I also find myself doing a lot more around the house (so thats a plus). Also, there’s a lack of going out to drink, so I’m not trying as much new beer right now, and mostly drinking the regulars and flagship beers by Boneshire Brew Works, Troegs Brewing, Rotunda Brewing, Pizza Boy Brewing, Lord Hobo, and Tattered Flag. (Again, not really a negative.) But it does mean not as much to write about.

Also, I’ve found my energy to write is somewhat dissipated when a) I have all this time to do “REAL” work around the house, b) I almost have ‘too much’ time, and c) my keyboard is still acting up with certain keys. With a) I find myself doing yard work, helping my daughters with their new online schooling, taking the dog for more walks.With b) I think its the issue of “the busier you are the more you get done”. Its a surprising thing to note, that the days I worked, I got more blog stuff done, etc, I think because my time is / was so limited it forced me to work on it right away, instead of saying “I’ll do it later” …. later never comes. I keep pushing it back. With c) … well its just an annoyance factor, when you constantly use H or N or Y or U, it gets really frustrating trying to do work arounds or mashing your hand into the keyboard to get a button to press. Hopefully soon I will be getting a new laptop (not a priority during a pandemic where I got laid off and have a ton of other things on my plate), and when I do, I imagine my writing will ramp up. Also, as for the blog, it seems AJ and Josh aren’t as interested in writing as much anymore, so I’m the sole force and driver of the blog, which means I need to buckle down and write more, just need to find that energy and drive. The other issue with writing, is always the marketing afterwards. Getting the blog post seen, and doing all the work on Facebook, Twitter, Instagram, etc. It seems writing the blog takes 2-3 hours, and then another hour of self-promotion. And if I post it late (8PM or later lets say), the response from the community is far less than ideal (compared to posting at say noon).

Ok, enough rant and crap, lets finally kick off Module Two. Module two is about barley and malting and taking a key look at the first of the four major ingredients in beer (malt, water, hops, and yeast). The intro page talks about the course ramping up, and comes with an intro video by Stijn.

The second page is a discussion board where you can discuss what cereals (or malts) are used in your country. The question asked is: “In your country, what cereals are used?” and my response was:
“In the US craft beer scene there is pretty much an unlimited amount of grains and cereals at use, by all the different breweries. From roasted malt, to barley, to oats, to flaked oats, to ACTUAL cereals or even pastries (whoopie pies I’ve seen used, etc), and breads and things like graham crackers. Pretty much if it has starch or fermentable sugars, a craft brewer / craft brewery has used it in the USA.”

The next page is another video by Stijn – this time about barley. In the 3:16 minute video, he discusses why barley is pretty much the universal “go to” grain for brewing. Listing economical as well as brew-technical reasons for barley (as compared to the myriad of other choices). Economical reasons are: “grows on all continents, good grain yield, and strong disease resistance”, which means its produced the most (and most effectively) and means the cost for it is going to be lower compared to other options. Brew-technical reasons given are: “local availability, high starch content, sufficient yeast nutrients, sufficient enzyme formation, and adhering husks”.

Next we move onto the ‘barley structure’. Barley is primarily divided into two major types – winter barley and spring barley. From here, there can be many more sub-divisions and varieties like: two-row or six-row barley. Two-row barley is the preferred barley for most brewing. Kernels are more homogeneous, it has a more favorable endosperm over husk ratio, and it has lower protein levels.

Scrolling down on this page, you will find a chart and diagram where you can click different topics and names to read more about barley and the husks and other features of barley. The key parts are: the husk, pericarp and testa, aleurone layer, endosperm, embryo, and the scutellum and epithelium.

The next page is the chemical composition of barley. Here they break down the chemical and molecular levels of a barley kernel, detailing moisture content, carbohydrates, proteins, inorganic matters, lipids, and other smaller matters.

Moving onto the next page we start with the carbohydrates. Carbohydrates are roughly 70% of the dry matter of a kernel and can be broken into two categories: storage and structural. Storage – mainly starch. Structural – cellulose and hemicellulose. There is a drop down menu which breaks these all down for further reading and the molecular composition of each piece. After this is a 7 minute video by Professor Christophe Courtin, one of the experts for the program.

The next page is nitrogen compounds of barley kernels. The page breaks down the nitrogen percentages for the barley used for brewing versus animal feed, and then discusses the proteins in the kernels. After this we move on to polyphenols. Polyphenols contribute greatly to the stability and shelf life of beer. It contributes to the beer color, mouthfeel, and act as natural anti-oxidants.

The next page is a quick quiz to make sure we’re actually retaining all of this knowledge. After the two question quiz, there is a page about barley pests for verified track learners only (if you are paying for your certificate). The net two pages are video and discussion going back to the malting experiment.

This is followed by an expert video by Sofie Malfliet. She has a PHD in Malting Technologies. This is a 7 minute video, discussing her work at Albert Maltings. Following the video we get an overview of the malting process. There is five main steps: 1) cereal cleaning, sorting, and storage, 2) steeping, 3) germination, 4) drying and kilning, and 5) deculming.

From here, this five step process gets broken down. Starting with the cleaning and sorting of the barley. The second page is steeping. (Which is the process of periodically submerging graded barley to initiate germination.) The third page is germination. The fourth page is drying and kilning, and is loaded with charts and information. After this, the fifth and final page is about deculming. After kilning the malt is cooled and the culms are removed. These pages are followed up by a quiz, so hopefully you didn’t skim over it.

Following the quiz is a discussion page on green malt. The question posed is: “What are the advantages you think of using green malt in the brewing process? Are there any disadvantages you can think of? Please share your thoughts with us!” My answer:
“There is definitely advantages and disadvantages. Firstly, for disadvantages its primarily economical and logistical. So for smaller end malting plants this won’t be ideal (thinking of Deer Creek Malt in PA). As far as advantages go, its mainly environmental. Which is always a benefit on the long haul if we are able to do it. Problem is the ‘being able to do it’ part.”

Moving on, we come to the overview of different malts page (next page). It breaks down the barley malts by pilsner, pale ale, munich, aromatic, roasted, and caramel. The next page is another page for verified track learners only (different malt types).

The next page is adjuncts. Their definition of an adjunct is: “Adjuncts are defined as non-malted (mostly carbohydrate) materials used as complements or supplements to (barley) malt. These supplements are used in brewing for the following reasons – cost saving, enhancing brewhouse capacity, and influence on beer.” Different regions have rules, laws, and regulations about adjuncts. Germany still holds true to the purity laws. Some examples of adjuncts are: unmalted barley, corn (flakes), rice (flakes), sugar and sugar syrup.

And that pretty much wraps up Module Two. There is a feedback page, a small quiz page (one question), a larger assessment page (if you are a verified track learner), a discussion page, and an overview page. The final page is a “End of Module Two” page and if you click NEXT after that it brings you to the intro video for module three. So, join me next when we get to tackling module three!

Hopefully it’ll be sooner than later, possibly even tonight, or tomorrow. (Most likely tomorrow at the earliest.) I am going to try and really double-down and get these goings, with some possible beer reviews and other things to round out my articles. I have been working hard on my hops these last few days (beautiful weather), and taking lots of pictures, so there will probably be an article about that for all of you hop growers (or wanna-be hop growers).

Cheers, and stay safe and healthy everyone, looking forward to getting back out to breweries and having a pint with ya’ll! Cheers!

-B. Kline

Beer Education: Module One: History of Beer Brewing

BKline — Thu, 02 Apr 2020 20:00:00 +0000

Moving forward with our beer education series, and sorry that this one has taken a bit of extra time… but I had to do some reconstruction work on my keyboard. Letters on it weren’t working right, so I had to do some work to it. Its still a bit touchy, but its better. The Y-U-H-J-N-M buttons are all being a bit wonky, but hopefully I can get past that for this.

If you are new to this series (or to the blog), I am currently taking a course through EDX Online Learning, called the Science of Brewing. This is the first full module covered, we’ve already handled the series overview, the syllabus, and the introduction. Now its time to get some learning done.

Starting Module One, we are introduced to our first page – The History of Beer Brewing. The first page is an interactive history of beer brewing, complete with a PDF file. The first evidence of brewing first appears in 13000 BCE with remains found in a cave in Israel.

The next piece of evidence is in Iran in 5000 BCE with barley beer. In 1800 BCE there was a hymn written for brewers in Sumeria. Fast forward a bit to 811 CE and Charlemagne makes brewing a royal prerogative. This is the dawning of brewing as a craftmanship and a profession. In 816 CE the Catholic Church recognized brewing with the monks playing a particular role.

In 822 CE there is the first record of hops being used in the brewing process. Abbot Adelhard specifically required the usage of hops at his abbey – the Benedictine Monastery of Corbie. At this time most places still used spices and herbs. By the 1300s, hops were the main flavoring ingredient, replacing gruit.

In 1420, bottom fermentation begins in Bavaria Germany. This let them brew year round, where most places had to stop in summer due to the bacteria contaminating, they could keep brewing year round. In 1425, the first known depiction of a brewer appears in the Mendel Charity Book.

Start of the 1500s brought with it beer in brown glasses in England. And then perhaps one of the more significant things (for brewing) in modern times happened in 1516 – The Bavarian Purity Laws. This is the only piece I’ll direct quote from this segment:

The Bavarian Purity law (in German: Reinheitsgebot) states that water, barley and hops are the only ingredients that can be used to brew beer. Yeast is not mentioned as an ingredient, since it was not discovered yet. One of the reasons for the introduction of this law was to prevent price competition with bakers, who mainly used wheat and rye. A modified version of the purity law still exists in Germany today; although yeast has been added to the list of ingredients; and barley has been replaced by malted grains.
EDX Online: The Science of Brewing – The History of Brewing

In 1680, the Dutch scientist Antonie van Leeuwenhoek is the first to see and figure out yeast. “Hey, did you know that IPA stands for India Pale Ale…. and its because….” Yea, we’ve all heard every craft beer nerd say this at some point, but in 1780 is when it started. 1760 also saw the first thermometer used in a brewery. In 1765 the first steam engine was created, by 1784 they were beginning to be used in breweries. In 1769, the first hydrometer was used in a brewery.

In early 1800s, science was beginning to come to the forefront of brewing more and more. In 1816, more and more science was done on ethanol. In 1817, the drum roaster was invented. Inn 1837 they discovered that yeast was a living organism. 1873 saw the invention of the refrigerator. 1879 a beer filtration system was invented. And closing out the century saw the first bottle caps and bottling lines being made in the 1890s.

The science kept rolling in the 1900s, with the introduction of the PH Scale in 1909. Prohibition did happen though, and that was a major set-back, it lasted from 1920-1933. Artificial beer carbonation started in 1936.

The last thing the article then lists is an event from 2009; it discusses a patent on a variety of barley lacking lox activity by Danish researchers.

After this, we click the NEXT and come up to a quiz. There is four questions (and no, I’m not giving you the answers). Clicking next we come to another video. This about the process of brewing, taking you step by step through the process. After the video is another quick quiz.

This is followed up by a video about beer tasting. For my tasting discussion, I used my beer review for Boneshire’s S’mores Lazaris.

After the discussion, we get another experiment. First, we have a quick (~1:30 minute) video. The next page discusses how to malt your own barley. With this, you can do the experiment yourself, and do your own malting.

Lastly, we have an overview and quiz again. With this comes an assessment if you are doing the paid course (99$). If you are not, you move forward to the questions and feedback, and then to the end of module page. You can pause here, or click next and dive right into module two.

I know I’m gonna take a break, go outside, work on my hops, and enjoy the beautiful sun here in Central PA. Cheers everyone!

-B. Kline

Beer Education: Introduction

BKline — Tue, 31 Mar 2020 21:00:00 +0000

We start up with an opening page discussing the MOOC and a few details in the vein of that. Scrolling down on the opening page, we get a video by Kevin Verstrepen, of the University of Leuven. He is standing in front of his ‘laboratory’ or as we would call it a ‘pilot brewery’. He discusses the course a bit, and how he will have other brewers, as well as some colleagues helping with the course.

Clicking next, we move onto the next page which has a video introducing our instructors / brewers. You get to meet Stijn, Karin, and Stijn (there’s two Stijns). The next page provides a bio for each of the instructors.

Karin Voordeckers
Staff Scientist & Coordinator of the KU Leuven postgraduate in Malting and Brewing Sciences
KU Leuven University
Modules: 0 – 1 – 5 – 7 – 8 – 10

Stijn Mertens
Brewmaster at KU Leuven
KU Leuven University
Modules: 2 – 6

Stijn Spaepen
Innovation Manager at KU Leuven and the Leuven Institute for Beer Research
KU Leuven University
Modules: 3 – 4 – 9

Next page introduces us to some of the expert speakers that will help out throughout the course of the program.

Prof. Kevin Verstrepen
Full professor at KU Leuven, Director of the VIB-KU Leuven Center for Microbiology
Module 5

Prof. Christophe Courtin
Full professor at KU Leuven, Leuven Food Science and Nutrition Center
Module 2

Dr. Sofie Malfliet
Operations Manager, Albert Maltings
Module 2

Prof. Hedwig Neven
Master brewer, Duvel-Moortgat
Module 3

Prof. Thomas Shellhammer
Nor’Wester Professor of Fermentation Science, Oregon State University, USA
Module 4

Dr. Gert De Rouck
Brew Master, KU Leuven
Modules 4 and 6

Prof. Bart Lievens
Professor at KU Leuven, Head of Lab for Process Microbial Ecology and Bioinspirational Management, KU Leuven
Module 5

Anne-Françoise Pypaert
Brew Master, Orval Brewery
Module 7

Dr. David De Schutter
Innovation & Technology Development Director Europe, AB InBev Brewery
Module 8

Prof. Charlie Bamforth
Distinguished Professor Emeritus, UC Davis,Department of Food Science and Technology, UC Davis
Module 9

Dr. Veerle Daems
Senior Sensory Scientist, Haystack Consulting
Module 10

That is a lot of great speakers, and a wealth of information right there. Some notable breweries and people as well. The next page has two illustrations, and talks about the illustrations throughout the course and the artists for them. The next page is an introduction page, where they have a discussion page where you can introduce yourself.

I posted this for my introduction (answering their questions and introducing myself… as well as getting a quick plug in as well):

Hello everyone, here is my introduction post. I am Ben Kline, I am the writer, creator, and head owner of The Beer Thrillers blog. (You can find us at: https://thebeerthrillers.home.blog) I have done some home brewing, but not much. I have helped out at a few breweries with their canning lines and such (like Tattered Flag in Middletown, PA). I would say I am an enthusiastic beer taster, as well as curious learner, and part time home-scientist. I hope to learn as much as I possibly can about beer, brewing, and everything that goes with it. Something that people of the course should know is – that I am doing this and blogging about this course congruently with my blog. Writing up about the course as I do the course, so people can take the course with me, or live vicariously through me. Furthering the spread of this free knowledge (one of the best things we can do). I am a native English speaker (from Pennsylvania, born and raised).

I hit submit, and checked out a few of the other people’s posts. A lot of home brewers, from all kinds of places, like Spain, England, USA, Argentina, etc. Clicking next brings you to a list of the modules, and what to expect in each. Key notes is that module 1 will be about the history of brewing, and the basic steps to brewing; modules 2-5 will focus on the ingredients, there will then be a mid-term exam, then with module 6 they will examine the full process of brewing, module 7 will take a look at things on a science level, module 8 takes a look at filtration and packaging, module 9 covers an overview of quality checks with the beer, and module 10 is where the real fun begins – beer tasting. Module 11 is the dreaded final exam.

The next page explains how to use a MOOC and how to be a better student through a MOOC. The next page indicates how to do science experiments, and how you should be doing them when the course says to. The next page after this details materials needed, and also shows how they will be using the metric system (uh oh Americans). There is then a drop-down menu for each of the modules that you can click on to see what materials are needed for each module.

Next up is a bit of a fun, tongue in cheek, quiz to determine your beer profile. The results of my beer profile:

My beer profile

For those who know me, this isn’t surprising at all. I love dark, heavy, high-ABV beers. The stouts, the barley wines, especially anything bourbon barrel aged.

The next two pages are discussion boards. The first to discuss the beer profile results, the second for feedback and questions.

(If you click next, it will take you directly into Module 1 – The History of Brewing.)

Next up, we will start in on the actual brewing process and the history of brewing with module 1. Thanks for joining me as we worked our way through the introduction. Hopefully tomorrow (April 1st) we will have Module 1 up and down. Make sure to stay tuned!

Cheers Everyone! Stay busy learning! And Wash your hands!

-B. Kline

The Beer Thrillers

Beer Education: Syllabus

BKline — Sat, 28 Mar 2020 21:06:39 +0000

This is more of the starting point, with the syllabus just being the ‘cap’ to it. Its more about starting the course than the actual syllabus. I’ll walk through what I did to start up the course, and then cover the syllabus at the end. I was tempted to call this: “Beer Education: The Start” but I figured saying “Beer Education: Syllabus” sounded more formal, scholarly, and the right place to really start it.

Opening page describes procedures of the class, when it ends, when it begins, how it works, when you lose access to it (if you don’t finish) (June 25th, 2020). Scrolling down the opening page, you see a segment with the EdX logo (an X with a smiley face and a graduating cap), it gives you the options of: EARN A CERTIFICATE or COMPLETE THE COURSE or EXPLORE THE COURSE. The certificate will cost 99$, but they are running a special for 84.15$.

On the right hand side, there is a list of upcoming dates:

* May 21st, 2020
“You are still eligible to upgrade to a Verified Certificate! Pursue it to highlight the knowledge and skills you gain in this course.Upgrade to Verified Certificate.”
* May 31st, 2020
“After this date, course content will be archived.”
* June 2, 2020
“Day certificates will become available for passing verified learners.”

I selected “Complete the Course”, since I don’t need the certificate (or at least, if I wish to get it, I can get it later). (You can do whichever is best for you.)

The page then gives an outline (a syllabus) of the course:

Introduction
* Welcome to the BrewingX Course
* Course Overview
* Experiments: Do It Yourself!
* Quiz: Determine Your Beer Profile
* Feedback and Questions
Module 1: History and Overview of Brewing Process
* Overview Module 1
* Beer Brewing
* Do It Yourself: Beer Tasting
* Do It Yourself: Malting at Home
* Assessment Module 1
* Feedback and questions
Module 2: Barley and Malting
* Overview Module 2
* Do It Yourself: Cereals used in brewing
* Barley – the preferred starting material for maltsters
* Do It Yourself: discussing malting at home
* The malting process
* Malt types
* Assessment Module 2
* Feedback and questions
Module 3: Water
* Overview Module 3
* Water composition
* Water treatment
* Expert talk
* Do It Yourself: Hops and spices preparation
* Verified track content: Practical tips for brewers
* Assessment Module 3
* Feedback and Questions
Module 4: Hops and Spices
* Introduction
* Important molecule classes in hops
* Hopping techniques
* Verified track content: What are hops used by brewers?
* Spices and herbs
* Do it Yourself: preparation for fermentation experiment
* Assessment Module 4
* Feedback and questions

All of these are links that you can click on and view at your leisure. You can either click the first link (or any) or hit the “Begin Course” in the upper right. After doing so, it then becomes a “Resume Course” button.

Now that we got the syllabus out of the way, and the logistics of the class. Let’s get started. Follow me as we hit “Begin Course: and start at the introduction in the next article!

Cheers and happy learning ‘soon to be beer scholars’!

-B. Kline

EDX Online - The Beer Thrillers

Beer Education: Series Overview

Beer Education: Module Ten: Beer Assessment and Tasting

Beer Education: Module Eight: Beer Filtration and Packaging

Beer Education: Module Seven: Fermentation and Maturation

Beer Education: Module Four: Hops and Spices

Beer Education: Module Three: Water

Beer Education: Module Two: Barley and Malting

Beer Education: Module One: History of Beer Brewing

Beer Education: Introduction

Prof. Kevin VerstrepenFull professor at KU Leuven, Director of the VIB-KU Leuven Center for MicrobiologyModule 5

Prof. Christophe CourtinFull professor at KU Leuven, Leuven Food Science and Nutrition CenterModule 2

Dr. Sofie MalflietOperations Manager, Albert MaltingsModule 2

Prof. Hedwig NevenMaster brewer, Duvel-MoortgatModule 3

Prof. Thomas ShellhammerNor’Wester Professor of Fermentation Science, Oregon State University, USAModule 4

Dr. Gert De RouckBrew Master, KU LeuvenModules 4 and 6

Prof. Bart LievensProfessor at KU Leuven, Head of Lab for Process Microbial Ecology and Bioinspirational Management, KU LeuvenModule 5

Anne-Françoise PypaertBrew Master, Orval BreweryModule 7

Dr. David De SchutterInnovation & Technology Development Director Europe, AB InBev BreweryModule 8

Prof. Charlie BamforthDistinguished Professor Emeritus, UC Davis,Department of Food Science and Technology, UC DavisModule 9

Dr. Veerle DaemsSenior Sensory Scientist, Haystack ConsultingModule 10

Beer Education: Syllabus

Prof. Kevin Verstrepen
Full professor at KU Leuven, Director of the VIB-KU Leuven Center for Microbiology
Module 5

Prof. Christophe Courtin
Full professor at KU Leuven, Leuven Food Science and Nutrition Center
Module 2

Dr. Sofie Malfliet
Operations Manager, Albert Maltings
Module 2

Prof. Hedwig Neven
Master brewer, Duvel-Moortgat
Module 3

Prof. Thomas Shellhammer
Nor’Wester Professor of Fermentation Science, Oregon State University, USA
Module 4

Dr. Gert De Rouck
Brew Master, KU Leuven
Modules 4 and 6

Prof. Bart Lievens
Professor at KU Leuven, Head of Lab for Process Microbial Ecology and Bioinspirational Management, KU Leuven
Module 5

Anne-Françoise Pypaert
Brew Master, Orval Brewery
Module 7

Dr. David De Schutter
Innovation & Technology Development Director Europe, AB InBev Brewery
Module 8

Prof. Charlie Bamforth
Distinguished Professor Emeritus, UC Davis,Department of Food Science and Technology, UC Davis
Module 9

Dr. Veerle Daems
Senior Sensory Scientist, Haystack Consulting
Module 10