La Taza Habla

https://feed.podbean.com/latazahabla/feed.xml

Downloads

Episodes

La Taza Habla (The Cup Talks) takes you on a 20-year java journey through specialty coffee’s rich tapestry, brought to you by ”Bald Guy Brew Coffee Roasting Co.”, nestled in the Blue Ridge Mountains of North Carolina. Each episode unveils the untold stories behind your daily brew—from origin to roast to ritual. Join founder and chief brain-hydrant Don Cox, a.k.a. ”Bald Guy,” as he transforms complex coffee concepts into engaging narratives that deepen your connection to what’s in your mug, the hands that crafted it, and why it matters. Visit us at www.baldguybrew.com or connect on Instagram and Facebook @baldguybrew.

Episodes

Friday Aug 15, 2025

Fix Your Water, Fix your Coffee

Friday Aug 15, 2025

Have you ever wondered why your home-brewed specialty coffee doesn't taste like the cafe's? The answer might be in your tap. In this episode of La Taza Habla, we dive deep into the crucial, but often overlooked, role of water in your daily brew. Discover why 85% of Americans have hard water and how it affects the flavor and extraction of your favorite beans. We explore three main solutions for every budget, from simple activated charcoal pitchers that remove bad tastes to under-the-sink reverse osmosis (RO) systems that create a perfect "blank canvas" for brewing. Learn about the ideal parts per million (PPM) for brewing, and which bottled spring waters, like Crystal Geyser and Volvic, are trusted by competition baristas. Finally, we reveal a centuries-old hack from Turkey to Taiwan: adding a pinch of salt to turn bitter disappointment into a smooth, fulfilling cup. Whether you're a casual drinker or a serious coffee lover, this episode will transform your "bean to cup" experience by fixing the one thing you've been missing—your water!

Share Your Story and Comments: Leave us a voice message using SpeakPipe
Stay Connected: Get exclusive coffee stories & tips delivered to your inbox
Fresh Roasted Coffee delivered to your door: Bald Guy Brew Coffee Roasting Co.

5 Key Takeaways

A basic carbon filter pitcher improves taste but doesn't fix hard water. While it removes chlorine and musty odors, it does almost nothing to the mineral content that causes scale buildup in your machine.
For the most control, an RO system is the best option. It strips everything out of the water, giving you a blank canvas to add back the specific minerals needed for perfect coffee extraction.
Pure RO or distilled water makes coffee taste flat. The paradox of "too clean" water is that you need some minerals to properly extract flavor compounds from the coffee. The recommended range for brewing is 75 to 250 parts per million (PPM).
Not all bottled water is the same for coffee. You should look for spring water, which naturally contains minerals, rather than purified or distilled water. Brands like Crystal Geyser, Volvic, and Fiji are trusted choices.
A pinch of salt can make bad coffee palatable. Sodium ions interfere with bitter taste receptors while enhancing sweetness, making a significant difference in cheap hotel or low-quality coffee.

3 Questions

Have you ever tried the salt hack? What was your experience?
After listening, which of the three water solutions—a filter pitcher, an RO system, or bottled water—feels like the best fit for your coffee brewing?
Do you have a favorite bottled water for brewing coffee? Why do you prefer it?

Glossary

Activated Charcoal/Carbon: A type of filter material that acts like a sponge, soaking up bad tastes and odors from water. It is effective at removing chlorine and some organic compounds that can make water taste musty or earthy.
Bitter Taste Receptors: Sensory receptors on the tongue that send signals to the brain. Sodium ions from salt can interfere with these receptors, reducing the perception of bitterness in coffee.
Blank Canvas: A term used to describe water that has had everything, including minerals, stripped out of it. This type of water, often from a reverse osmosis system, allows a user to build a custom mineral profile from scratch.
Hard Water: Water with high mineral content, particularly calcium and magnesium. It can cause scale buildup in coffee machines and other equipment. 85% of Americans have hard water.
Ion Exchange: A process used in whole-house water softeners that swaps hard water minerals for sodium. This is good for plumbing but can make coffee taste flat or dull.
Parts Per Million (PPM): A measurement of how many dissolved minerals are in water. The Specialty Coffee Association recommends a sweet spot of 75 to 250 PPM for brewing coffee.
Reverse Osmosis (RO): A filtration system that forces water through an incredibly fine membrane. This process removes almost all dissolved minerals, resulting in very pure water, typically under 10 PPM.
Scale Buildup: The accumulation of calcium and magnesium minerals that occurs when hard water is heated. It can cause damage to expensive coffee machines.
Sodium Ions: Particles in salt (sodium chloride) that can interfere with bitter taste receptors, changing the way we perceive taste. They also enhance the perception of sweetness.
Taste Improver: A type of water filter, like a pitcher with activated charcoal, that makes water taste better by removing chlorine and odors but does not solve the hard water problem.
Total Dissolved Solids (TDS): A measure of the combined content of all inorganic and organic substances in water. It is measured in PPM (Parts Per Million)

Friday Aug 08, 2025

Is your water secretly ruining your coffee?

Friday Aug 08, 2025

Are you truly satisfied with your morning coffee? ☕ In this foundational episode of our three-part series on water, we dive deep into how a hidden factor—your home's water hardness—could be secretly ruining your coffee. We explore the difference between hard water and soft water and how the minerals dissolved in your tap water impact everything from soap lathering to the scale buildup in your expensive coffee machine. Learn a simple, no-cost DIY water test you can do in 30 seconds with basic liquid dish soap to diagnose your home water. We also share advanced methods for getting a precise measurement of your total dissolved solids (TDS), and a simple hack to clean your coffee machine using vinegar. This episode is the first real step to brewing a better cup of coffee by understanding what’s coming out of your tap!

Share Your Story and Comments: Leave us a voice message using SpeakPipe
Stay Connected: Get exclusive coffee stories & tips delivered to your inbox
Fresh Roasted Coffee delivered to your door: Bald Guy Brew Coffee Roasting Co.

5 Takeaways

Your water's hardness, which is the amount of dissolved minerals like calcium and magnesium, is a significant factor in the taste of your coffee.
A simple shower test can help you identify your water type: lots of soap for lathering indicates hard water, while a slippery, slick feeling after rinsing is a sign of soft water.
You can easily perform a free at-home dish soap test by shaking a bottle of your tap water with a few drops of liquid soap. Hard water will result in few bubbles and cloudy water, while soft water will produce a thick foam.
The same minerals in hard water that react with soap are also responsible for the scale buildup, or chalky white deposits, in your kettle and coffee machine.
To clean out existing scale buildup, you can run a mix of equal parts white vinegar and water through your machine, letting it sit for 30-60 minutes mid-cycle before finishing and rinsing with clean water.

3 Questions

What does your shower test reveal about your water? Is it a bubbly lather or a slippery rinse?
Where do you live, and does your region's geology align with the hard or soft water examples we mentioned?
If you performed the dish soap test, what were your results? Were you surprised by the outcome?

Glossary

Hard Water: Water with a high concentration of dissolved minerals, specifically calcium and magnesium.
Soft Water: Water with a very low concentration of dissolved minerals.
Scale: The hard, chalky, white mineral deposits (primarily calcium carbonate) that are left behind when hard water is heated.
Chlorine: A chemical used in water treatment that can add an "off" or swimming-pool taste to tap water.
Bicarbonates: A type of mineral salt found in water that acts as a buffer, helping to balance the acidity of coffee, which significantly impacts the final taste.
pH: A measure of how acidic or alkaline water is on a scale from 0 to 14. For coffee, the ideal is a neutral pH of 7.
Total Dissolved Solids (TDS): The total measurement of all minerals, salts, and other substances dissolved in a volume of water, often expressed in Parts Per Million (PPM)

Friday Aug 01, 2025

How Science Saved Decaf: Coffee Chemistry 101 with Dr. Yoblinski

Friday Aug 01, 2025

What really happens when coffee goes decaf? Discover the truth of the often-misunderstood world of decaffeination as we peel back the layers to reveal the surprising history and cutting-edge science that creates your favorite caffeine-free brew. Discover how decaf coffee went from using dangerous chemicals like benzene to today's revolutionary supercritical CO2 process. Our expert guest, Dr. BJ Yoblinski, an inorganic chemist, demystifies complex concepts, explaining what a supercritical fluid is and how it precisely extracts caffeine from green coffee beans. From early accidental discoveries to modern bean to cup innovation, this episode offers a fascinating look at the coffee science ensuring your decaf is both safe and delicious. Tune in to understand the intricate industrial process and the surprising fate of the extracted caffeine!

Share Your Story and Comments: Leave us a voice message using SpeakPipe
Stay Connected: Get exclusive coffee stories & tips delivered to your inbox
Fresh Roasted Coffee delivered to your door: Bald Guy Brew Coffee Roasting Co.

5 Takeaways:

Early Decaf Was Risky: The very first decaffeination methods, including those used for Sanka, involved highly toxic chemicals like benzene (a component of paint stripper and gasoline).
Supercritical Fluids are "Fourth State" Wonders: Beyond solid, liquid, and gas, substances like $CO_{2}$ can become a "supercritical fluid" under specific temperature and pressure, exhibiting properties of both liquid and gas, making them ideal solvents.
$CO_{2}$ is a Selective Solvent: In its supercritical state, carbon dioxide preferentially dissolves caffeine from coffee beans, leaving the flavor compounds largely intact.
Modern Decaf is Safe & Clean: The widespread adoption of the supercritical $CO_{2}$ process replaced older, more dangerous chemical methods, leading to a safer and better-tasting decaf coffee.
Extracted Caffeine Has a New Life: The caffeine removed from decaf coffee beans is purified and primarily sold to the soft drink and power drink industries.

3 Discussion Questions :

Were you surprised to learn about the early decaffeination methods? What was the most shocking fact for you?
Had you ever heard of a "supercritical fluid" before this episode? How would you explain it to a friend now?
Do you drink decaf coffee? Does knowing the science behind the $CO_{2}$ process change your perception of it?

Glossary of Terms

Atmosphere (atm): A unit of pressure, approximately equal to the average atmospheric pressure at sea level. In the context of decaffeination, high atmospheres of pressure are used to achieve a supercritical state.
Benzene: An organic chemical compound, historically used in the early decaffeination process for Sanka. It is a known carcinogen (cancer-causing substance) and is also found in paint stripper and gasoline.
Caffeine: A natural stimulant found in coffee beans, tea leaves, cocoa, and other plants. It is the primary target for removal in the decaffeination process.
Carcinogen: Any substance, radionuclide, or radiation that promotes carcinogenesis (the formation of cancer). Benzene is identified as a carcinogen in the episode.
Carbon Dioxide ( $CO_{2}$ ): A colorless, odorless gas. In the supercritical $CO_{2}$ decaffeination process, it is transformed into a supercritical fluid to selectively extract caffeine.
Critical Point: The specific temperature and pressure at which the distinction between liquid and gas phases disappears for a substance. Above this point, the substance exists as a supercritical fluid.
Decaffeination: The process of removing caffeine from coffee beans.
Degassing Chamber: A component in the industrial supercritical $CO_{2}$ decaffeination process where the pressure and temperature are lowered, causing the $CO_{2}$ to revert to a gas and leaving solid caffeine behind.
Extractors (Continuous Extractors): Tall, industrial vessels (described as 60-70 feet high) used in the supercritical $CO_{2}$ process where green coffee beans are soaked in the supercritical $CO_{2}$ to dissolve the caffeine.
Green Coffee Beans: Unroasted coffee beans, which are the starting material for the decaffeination process.
Inorganic Chemistry: A branch of chemistry that deals with the properties and reactions of inorganic compounds (those not containing carbon-hydrogen bonds, or containing them in simple forms). Dr. BJ Yablinski's expertise is in this field.
Methylene Chloride: A chemical solvent that was used in decaffeination processes after benzene. While considered safer than benzene, it was also a suspected carcinogen and could impart a chemical taste to the coffee.
Sanka: A brand of decaffeinated coffee, historically significant as one of the first commercially successful decaf products in the U.S., originally decaffeinated using benzene.
Supercritical Fluid: A state of matter that is beyond the critical point, where it has properties of both a liquid and a gas. It can fill a container like a gas but has a density and dissolving power similar to a liquid.
Supercritical $CO_{2}$ Decaffeination Process: The modern, industrial method of removing caffeine from coffee beans using carbon dioxide in its supercritical fluid state. This process is highly selective for caffeine and is considered safe and clean.
Swiss Water Process / Mountain Water Process: Mentioned as "chemical-free" decaffeination methods, distinct from solvent-based methods. These were developed later than the chemical solvent methods.

Decaffeination Timeline:

1903: The first decaf method is patented by a German merchant. This method accidentally discovered that soaking coffee beans in seawater removed caffeine, but the commercialized version used benzene as the solvent.
Early 1900s: Benzene-based decaffeination becomes commercially available (e.g., Sanka in the U.S.).
Mid-20th Century (Post-Benzene): Safer chemical solvents like methylene chloride are developed and used for decaffeination, replacing more dangerous early methods. However, these still posed some health concerns and could affect coffee taste.
Late 1960s: German chemist Kurt Zossel makes a breakthrough in developing the supercritical $CO_{2}$ decaffeination process.
1980s: The supercritical $CO_{2}$ process is largely developed and refined for industrial application.
1990: The supercritical $CO_{2}$ process becomes an industrial standard for decaffeination, largely replacing older, less safe chemical solvent methods like those using methylene chloride.
Ongoing: Chemical-free methods like the Swiss Water and Mountain Water processes continue to be utilized alongside the supercritical $CO_{2}$ method, offering various options for decaf production.

Friday Jul 25, 2025

Beyond the Buzzwords: What's in your Cup Matters!

Friday Jul 25, 2025

Join us on La Taza Habla as we pull back the curtain on the coffee industry's environmental and social claims, revealing the uncomfortable realities often hidden behind marketing buzzwords. With over two decades in specialty coffee, your host exposes the brutal truth: coffee is a tree-cutting, diesel-burning, ozone-busting industry with a massive environmental footprint. This episode dives deep into greenwashing, where environmental claims lack substance, and farmwashing, using farmer photos and origin stories without meaningful relationships. Learn how to discern genuine sustainability from mere hype and what questions to ask your coffee roaster to uncover their true impact. We'll challenge the "people, planet, profit" fallacy and reveal why it's often "profit, profit, profit" with a green paint job. Discover how Bald Guy Brew prioritizes organic and shade-grown coffee to protect aquifers and combat deforestation. This is a must-listen for anyone passionate about ethical coffee sourcing and understanding the complex journey from bean to cup.

Share Your Story and Comments: Leave us a voice message using SpeakPipe
Stay Connected: Get exclusive coffee stories & tips delivered to your inbox
Fresh Roasted Coffee delivered to your door: Bald Guy Brew Coffee Roasting Co.

5 Takeaways:

Greenwashing and Farmwashing are Common Tactics: Be aware that many "earth-friendly" or "farmer-focused" claims in the coffee industry may lack substance, serving as marketing strategies rather than genuine practices.
The Coffee Industry Has a Massive Environmental Footprint: From transportation and processing to packaging, the global movement of coffee contributes significantly to tree cutting, diesel burning, and ozone depletion.
Challenge the "Triple Bottom Line" Narrative: The ideal of "people, planet, and profit" often defaults to "profit, profit, and profit" in reality, with sustainability claims serving as a "green paint job".
Ask Targeted Questions to Your Roaster: To uncover the truth, inquire why they purchased a specific coffee, what cooperatives are doing to empower communities, and how they define their "direct trade" claims.
Real Relationships and Sustainability Go Beyond Certifications: True commitment involves fair wages, empowering growing communities to thrive, and a profound commitment to doing the most good with the least amount of harm, rather than just a downloadable photo or a wall certification.

3 Questions:

What was the most surprising revelation for you about the coffee industry's practices after listening to this episode?
How will you change your approach to purchasing coffee after understanding greenwashing and farmwashing?
What specific questions will you now ask your favorite coffee roaster about their sourcing and sustainability practices?

Glossary of Terms:

Greenwashing: Environmental claims made by a company or product that lack substance or are misleading; slapping "earth-friendly" on a carbon-intensive product.
Farmwashing: Using farmer photos and origin stories as marketing props without establishing meaningful relationships with the farmers.
Triple Bottom Line: A business concept that traditionally refers to "people, planet, and profit". The podcast suggests that in reality, for many, it's often "profit, profit, and profit" with a "green paint job and a smiling face".
Aquifers: Underground layers of water-bearing permeable rock, rock fractures, or unconsolidated materials (gravel, sand, or silt) from which groundwater can be extracted. The podcast mentions protecting aquifers as a massive issue in coffee lands.
Shade Grown Coffee: A method of growing coffee plants under a canopy of trees, which can help protect ecosystems and prevent deforestation.
Direct Trade: A claim by roasters that they are paying the farmer directly. The podcast argues this is often a "big red flag" as it doesn't typically involve handing cash out at the farm.
Pre-finance Harvests: Supplying funds to coffee growers to offset enormous costs before the harvest occurs.
Broker: An intermediary in the coffee industry who can act as both an exporter and importer.
Cooperatives: Legal entIties comprised of groups of coffee farmers who often work together to process and sell their coffee.
Micro-mills: Smaller facilities where coffee cherries are processed.

Friday Jul 18, 2025

The Coffee Mycotoxin Myth

Friday Jul 18, 2025

La Taza Habla: The Coffee Mycotoxin Myth

In this eye-opening episode of La Taza Habla, we dive deep into the pervasive myths surrounding mycotoxins in specialty coffee. Join your host as he unpacks the real science behind ochratoxin A (OTA) and other naturally occurring byproducts from certain molds, addressing the alarming claims that your morning brew is making you "toxic and sick". We'll explore why these scare tactics, often spread online, are largely unfounded, especially when it comes to coffee roasting and rigorous industry quality controls. Discover how the intense heat of coffee roasting effectively destroys a significant amount of mycotoxins, with up to 96% of OTA eliminated at 392 degrees Fahrenheit. Learn about the strict global mandates and established best practices that ensure the safety of your bean to cup experience, from wet processing to green bean grading. This episode provides the facts you need to confidently separate reality from fear-based marketing, revealing that typical coffee consumption results in incredibly low mycotoxin intake – often less than 3% of the safe daily limit. Understand why common effects like jitteriness are due to caffeine's well-understood pharmacology, not mysterious toxins. Tune in to arm yourself with the truth and enjoy your coffee with peace of mind.

Share Your Story and Comments: Leave us a voice message using SpeakPipe
Stay Connected: Get exclusive coffee stories & tips delivered to your inbox
Fresh Roasted Coffee delivered to your door: Bald Guy Brew Coffee Roasting Co.

5 Takeaways:

Coffee Roasting is a "Kill Step" for Mycotoxins: Roasting coffee at about 392 degrees Fahrenheit for even ten minutes can effectively destroy up to 96% of OTA (Ochratoxin A), the mycotoxin most commonly associated with coffee. This is a significant "kill step" backed by multiple peer-reviewed research studies.
Global Regulations & Industry Practices Ensure Safety: Most countries around the world have clear mandate limits for mold toxins in coffee. While the FDA in the US specifically regulates some toxins, the industry's existing quality controls, including wet processing and strict green bean grading, are far more rigorous than some authors suggest, reducing mycotoxin levels before beans even hit the roaster.
Jitteriness is Caffeine, Not Toxins: Claims that toxins in coffee cause jitteriness and "coffee rage" are easily explained by caffeine's well-understood pharmacology, which can make you feel a little jittery or super focused.
Mycotoxin Exposure from Coffee is Extremely Low: Studies consistently show that our global intake of OTA through coffee is incredibly low, often less than 3% of the safe daily limit by authorities like the European Food Safety Authority.
Reaching Harmful Levels is Practically Impossible: To truly put the risk into perspective, a typical adult would need to drink approximately 410,000 cups of coffee per day to even begin to approach harmful levels of mycotoxins from coffee.

3 Questions:

Before listening to this episode, what were your beliefs about mycotoxins in coffee? Did anything surprise you?
What's one new fact you learned about coffee roasting or coffee safety that you'll share with a friend?
What other coffee myths or health concerns about coffee would you like us to address in future episodes?

Glossary of Terms:

Mycotoxins: Natural byproducts from certain molds.
Ochratoxin A (OTA): The chief mycotoxin most commonly mentioned and associated with coffee.
Specialty Coffee: Refers to high-quality coffee beans, often distinguished by rigorous grading and processing standards.
Coffee Roasting: The process of applying heat to green coffee beans to transform them into roasted coffee, which significantly reduces mycotoxin levels.
Bean to Cup: A phrase referring to the entire journey of coffee from its raw bean form through processing, roasting, and brewing, to the final beverage in your cup.
Wet Processing: A method of coffee processing where the fruit is removed from the coffee cherry before drying, which can help reduce initial mycotoxin levels.
Green Bean Grading: The process of inspecting and sorting unroasted (green) coffee beans based on quality, which helps reduce initial mycotoxin levels before roasting.
Pharmacology: The branch of medicine concerned with the uses, effects, and modes of action of drugs. In this context, it refers to the well-understood effects of caffeine on the body.

Measured Mycotoxin Levels vs. Safety Thresholds":

Ochratoxin A (OTA) in Roasted Beans: Typical levels found in specialty coffee range from 0.4–3.2 µg/kg. The EU limit for OTA is 5 µg/kg, meaning typical levels are 36–92% below the limit
OTA After Brewing: In a coffee beverage, OTA levels are typically ≤0.7 µg/kg. This provides less than 3% of the Provisional Tolerable Daily Intake (PTDI) set by JECFA for a 4-cup consumer.
Aflatoxin B1 Post-Roast: Levels are often undetectable up to 0.8 µg/kg. This is at least 96% below the FDA limit of 20 µg/kg for total aflatoxins.
To Reach Harmful Levels: A typical 70 kg adult would need to drink approximately 410,000 cups of coffee per day to even begin to approach harmful levels of mycotoxins from coffee. This makes reaching the PTDI practically impossible through normal coffee consumption.

Popular Claims vs. Scientific Findings":

Claim: "80–90% of coffee is dangerously moldy."
- Reality: A systematic review showed that ≥95% of samples were under EU limits, with only 2 studies exceeding them.

Claim: "If you pee fast after coffee, that’s toxins."
- Reality: Caffeine is a proven diuretic, causing increased urination. Ochratoxin A (OTA) clears slowly, not via immediate urination.

Claim: "U.S. has zero regulations [for mold in coffee]."
- Reality: The FDA enforces a 20 ppb aflatoxin limit, and OTA is monitored under the FD&C Act.

Claim: "Mycotoxins cause jitters & coffee rage."
- Reality: Normal caffeine pharmacology easily explains symptoms like jitters and focus.

Claim: "Our lab-tested coffee is the only safe option."
- Reality: Specialty grading (which includes zero primary defects) and the roasting process already significantly reduce OTA by 69–96%.

Friday Jul 11, 2025

The Cup Don’t Lie: Old-School Roasting, No Screens—Just Senses

Friday Jul 11, 2025

Step inside the roastery with Don Cox, "The Bald Guy," on this experimental episode of La Taza Habla, as he takes you on a sensory and scientific journey through the coffee roasting process. Discover the magical transformation of green coffee beans into the rich, aromatic brew you love. Don demystifies the complex interplay of conduction and convection heat transfer, tracing the historical evolution of roasting from open fires to modern drum roasters. Learn how the vital Maillard reaction creates depth of flavor and listen for the exhilarating sound of first crack, a pivotal moment in specialty coffee development. With 20 years of expertise, Don shares his unique approach to honoring the labor of coffee growers, emphasizing intuition and connection over rigid formulas. This episode isn't just about how coffee gets roasted; it's about what it feels like, a true "bean to cup" adventure for your ears and your mug. Tune in to deepen your appreciation for every sip.

Share Your Story and Comments: Leave us a voice message using SpeakPipe
Stay Connected: Get exclusive coffee stories & tips delivered to your inbox
Fresh Roasted Coffee delivered to your door: Bald Guy Brew Coffee Roasting Co.

Guess the coffee that I roasted and it's on me. Just put your best guess in the comments and the first five individuals to get a bag of fresh roasted coffee! Here is a little help: go to the website and look over our list of coffees. I will tell you that it was not a decaf, espresso, Brazil, or Rwandan.

5 Takeaways

Roasting is a Blend of Art & Science: While scientific principles like conduction, convection, and chemical reactions (Maillard, endothermic, exothermic) are crucial, the roaster's intuition, sensory experience (smell, sight, sound), and human judgment are equally vital to achieving a great roast.
The Maillard Reaction is Key to Flavor: This complex chemical reaction, occurring when beans turn from yellow to light brown, is where the vast majority of coffee's desirable flavors and aromas are developed. Skipping or rushing this phase results in bland coffee.
"First Crack" is a Critical Milestone: This audible popping sound signifies a major exothermic reaction where vapor and gases burst through the bean's outer layer. It's a key indicator for roasters to gauge progress and sweetness development, guiding decisions on roast completion.
Heat Transfer Methods Matter: Early roasting involved direct conduction (metal to bean). Modern drum roasters combine conduction (drum heating beans) with convection (hot air enveloping beans) for more even and controlled roasting, enhancing overall flavor development.
Honoring the Bean is Paramount: The ultimate goal of a roaster isn't just to turn green beans brown, but to honor the hard work of those who grew the coffee, highlight its historical flavor profile, and ensure the quality in the cup reflects its origin.

3 Questions

What aspect of the coffee roasting process surprised you the most after listening to this episode?
Do you have a personal "sensory feedback" system you use for other foods or drinks? Share your experiences!
Before this episode, what did you imagine happened to coffee beans during roasting? How has your perspective changed?

Glossary

Conduction: The transfer of heat directly from one object to another. In coffee roasting, this refers to heat moving directly from the hot metal of the drum to the coffee beans. (e.g., sitting around a campfire; heat moves from metal to bean)

Convection: The transfer of heat through the movement of fluids (liquids or gases). In coffee roasting, this refers to hot air enveloping the coffee beans for even heating. (e.g., think a hairdryer; hot air now envelops the bean)

Cooling Tray: The mechanism in a roaster where roasted coffee beans are immediately dropped after the roast is complete to rapidly cool them and halt the roasting process.

Drum Roaster: A type of coffee roasting machine that uses a rotating drum to heat and tumble coffee beans, typically combining both conduction and convection heat transfer. (e.g., in the eighteen hundreds, you have drum roasters arriving in Europe)

Endothermic Reaction: A chemical reaction that absorbs heat from its surroundings. In coffee roasting, this phase occurs early on as heat is put into the green beans to prepare them for later transformations.

Exothermic Reaction: A chemical reaction that releases heat. In coffee roasting, this is prominently observed during "first crack," where the bean structure breaks down and releases energy, moisture, and gases.

First Crack: A critical stage in coffee roasting, characterized by an audible "cracking" sound (like popping popcorn or an old typewriter). It signifies an exothermic reaction where moisture and gases forcefully escape the bean, causing it to expand.

Green Beans: Unroasted coffee beans, in their raw state, before any heat has been applied.

Maillard Reaction: A complex chemical reaction between amino acids and reducing sugars that gives browned food its distinctive flavor. In coffee roasting, this crucial phase is where the bean develops depth, aroma, and complex flavors, transitioning from a pale yellow to light brown. (e.g., this phase that we're in is really where the magic happens)

Roaster's Choice Brown: A term used to describe the point at which a roaster decides to stop the roast, based on their sensory evaluation (smell, sight, taste, feel) rather than a fixed temperature or time, reflecting their expertise and desired flavor profile.

Trier: A small, specialized tool inserted into the face of the roasting drum. It allows the roaster to extract a small sample of beans during the roast to visually inspect their color, smell their aroma, and gauge their development. (e.g., my friend, my guide through this whole process as I'm roasting right now is the trier)

Vapor Wedge: Refers to the moisture inside the coffee bean turning to steam during roasting, which creates pressure that eventually "blows through" the cellular structures, leading to the audible "first crack."

Friday Jul 04, 2025

Part 3: Processing & Flavor: From Fruit to Cup

Friday Jul 04, 2025

Welcome back to La Taza Habla, the podcast where we bring you 20 years of specialty coffee stories! In this insightful episode, we crack open the fascinating world of coffee processing and uncover how it transforms a humble fruit into the incredible coffee flavor you love in your cup. Ever wondered about the journey from farm to flavor? We go back to the origins, long before espresso and baristas, to understand the critical steps that give your coffee beans their distinct character. We'll explore the major coffee processing methods – Natural, Washed, and Honey – breaking down the "how" and "why" behind each, and revealing their unique impact on aroma, body, and taste. We also delve into the experimental realm of Controlled Fermentation. From the sun-dried traditions of Ethiopia and Yemen to the innovative techniques perfected in Costa Rica and Colombia, discover the secrets of coffee drying and coffee fermentation. Tune in to truly understand the differences in coffee processing methods and how they lead to those amazing flavor variations that make every bean to cup experience unique.

Share Your Story and Comments: Leave us a voice message using SpeakPipe
Stay Connected: Get exclusive coffee stories & tips delivered to your inbox
Fresh Roasted Coffee delivered to your door: Bald Guy Brew Coffee Roasting Co.

5 Takeaways:

Coffee processing is essential for flavor development. Just like pecans need to be removed from their shells, coffee fruit requires specific processing to unlock the desired flavors, ranging from fruity and vibrant to clean and balanced.
The "Big Three" methods are Natural, Washed, and Honey. Each approach (leaving the fruit on, washing it off, or leaving some mucilage) significantly impacts the final taste profile, making them distinct experiences for your palate.
Natural processing often leads to fruitier, sweeter coffees. By drying the entire coffee cherry with the fruit intact, fermentation occurs, allowing the fruit's sugars and flavors to infuse the coffee bean, resulting in a complex and often heavy-bodied cup.
Washed processing yields clean, uniform, and predictable flavors. This water-intensive method removes all fruit layers before drying, leading to a consistent and bright cup where the inherent qualities of the coffee bean truly shine through.
Honey and Controlled Fermentation offer unique, nuanced flavor profiles. Honey processing strikes a balance between natural and washed, creating inherent sweetness and distinct notes. Controlled fermentation, often involving added yeasts or anaerobic environments, pushes the boundaries of flavor, producing experimental and sometimes polarizing tastes.

3 Questions:

What's your favorite coffee processing method and why? Do you prefer the wild fruitiness of a natural or the clean clarity of a washed coffee?
Have you ever tasted a honey processed or controlled fermentation coffee? What unique flavors did you experience?
Before listening, what did you think was the biggest factor in coffee flavor? Did this episode change your perspective?

Coffee Processing & Flavor Glossary

Want to deepen your coffee knowledge? Here are some key terms from this episode to help you speak the language of coffee processing and flavor!

Anaerobic Processing: A method of coffee fermentation that occurs in a sealed, oxygen-deprived environment. This can create intense and sometimes polarizing flavors.
Cherry: The fruit of the coffee plant, typically red or yellow when ripe, which contains the coffee "bean" (actually a seed) inside.
Controlled Fermentation: An experimental processing method where specific yeasts or microbes are introduced to the coffee cherries (often in water) to create targeted flavor profiles through fermentation.
Depulper: A machine used in coffee processing (especially washed and honey methods) that mechanically removes the outer skin and pulp from the coffee cherry.
Dry Process (Natural Process): A coffee processing method where the entire coffee cherry is dried intact, often on raised beds or patios, allowing the fruit's sugars and flavors to infuse the bean during fermentation. Also known as Natural Process or Fruit Dried.
Fermentation: A natural process involving microorganisms (like yeasts and bacteria) that break down sugars in the coffee fruit, creating acids and flavor compounds that contribute to the final taste of the coffee.
Honey Process (Pulp Natural): A processing method where the coffee cherry's skin and some of its pulp are removed by a depulper, but a significant amount of the sticky, sugary mucilage is left on the parchment before drying. The amount of mucilage left and drying conditions can lead to different "colors" (white, yellow, red, black honey), influencing flavor. It's named for the sticky feel of the bean, not for bee honey.
Mucilage: The sticky, sugary layer that surrounds the coffee bean (parchment) inside the coffee cherry, located between the pulp and the parchment. It's key in honey and washed processing.
Natural Process: See Dry Process.
Parchment: The thin, papery layer that encases the coffee bean after the fruit and mucilage have been removed or dried. It's typically removed before roasting.
Pulp: The fleshy, fruity layer of the coffee cherry surrounding the mucilage and bean.
Raised Beds: Elevated drying structures (often mesh or bamboo) used to dry coffee cherries or parchment. They allow for better air circulation and more even drying than patio drying.
Wet Process (Washed Process): A coffee processing method where the skin, pulp, and mucilage are mechanically removed from the coffee cherry using water, followed by drying of the clean, parchment-covered beans. Also known as Washed Process or European Processing.
Washed Process: See Wet Process.

Friday Jun 27, 2025

Part 2: The Coffee Plant: Nature's Blueprint for Flavor

Friday Jun 27, 2025

In this captivating episode of La Taza Habla, Don "Bald Guy" Cox delves into the surprising parallels between the humble apple and the intricate coffee plant, revealing how nature's blueprint dictates the extraordinary flavor journey from farm to cup. Unpacking the core elements of the flavor equation—terroir, plant, processing, and roasting—listeners will gain a profound appreciation for the specialty coffee in their mug. Discover fascinating facts about the sheer diversity of Arabica coffee varieties, especially from Ethiopia, and learn how each coffee plant yields just a small amount of roasted coffee bean annually. The episode also provides an in-depth look at the anatomy of a coffee cherry, breaking down the four crucial layers that contribute to your daily brew's taste. Don explores modern innovations like F1 hybrids and the unique characteristics of peaberry coffee, offering a deeper understanding of what makes certain beans truly special. Tune in to uncover the hidden influences behind your coffee's complex profile and enhance your "bean to cup" experience.

For a limited time, get this entire Process & Discovery set for just $36.00. Follow Link to Website: Process & Discovery: Taste How Flavor is Made Uncover a spectrum of flavors with four 8 oz bags of meticulously chosen coffees—a special collection designed to help you taste the incredible impact of different processing methods in preparation for our deep dive into "Coffee Processing" in next week's episode. Order now to ensure your coffees arrive in time to taste along.

Share Your Story and Comments: Leave us a voice message using SpeakPipe
Stay Connected: Get exclusive coffee stories & tips delivered to your inbox
Travel the World from Your Kitchen Table: Bald Guy Brew Coffee Roasting Co.

5 Takeaways

The Flavor Equation is Key: Coffee flavor is a dynamic result of "Terroir + Plant + Processing + Roasting," highlighting the many factors that contribute to what's in your cup.
Plant Variety as Nature's Blueprint: The specific variety of the coffee plant acts as its inherent blueprint, predetermining the spectrum of flavors that can potentially develop in the coffee bean.
The Coffee Cherry's Hidden Layers: Understanding the four crucial layers of a coffee cherry (exocarp, mesocarp, mucilage, and endosperm) reveals how each contributes unique aromatic compounds, sugars, acids, and complexities to the final brew.
Vast Genetic Diversity: Ethiopia alone is home to an astonishing 10,000 unique Arabica varieties, showcasing the immense, often untapped, genetic resources available within the world of coffee.
Peaberries Offer Focused Flavor: Peaberry beans, a natural mutation where only one seed develops, are highly valued for their smaller, denser, and rounder shape, often yielding a more vibrant and concentrated flavor, especially when complemented by processes like the washed method.

3 Questions

How has this episode changed your perception of the phrase "bean to cup"?
Have you ever tasted a peaberry coffee? Share your experience and whether you noticed a difference in flavor focus.
What's one "fun fact" about coffee from this episode that surprised you the most?

Glossary


Anatomy of a Coffee Cherry

Exocarp (The Skin): The outer layer of the cherry—protects the fruit
and holds key aromatic compounds.
Mesocarp (The Flesh): The sweet, juicy fruit layer. Contains natural
sugars and acids that influence body and brightness.
Mucilage (The Honey Layer): A sticky coating around the bean that
ferments during processing and helps create flavor complexity.
Parchment (Endocarp): A papery shell that protects the bean and
regulates moisture. Essential for safe storage and drying.
Endosperm (The Bean): The seed of the coffee plant—contains flavor precursors activated during roasting.
Silver Skin (Testa): A thin, papery layer around the bean. Most flakes
off during roasting, but can influence roast evenness and flavor clarity.

Coffee Terms to Remember

Species: The big family (Arabica, Robusta)
Variety: Natural types within species (Bourbon, Typica)
Varietal: Coffee from a single variety
Cultivar: Human-bred varieties for specific traits

Coffee Varietal Quick Reference Guide

Typica: Clean, sweet, classic (like Red Delicious apples)
Gesha/Geisha: Floral, tea-like, jasmine notes (like Honeycrisp apples)
SL28: Bright acidity, clean finish (like Granny Smith apples)
Catimor: Hardy, disease-resistant, less nuanced (like Crabapple)
F1 Hybrids: Engineered for resilience + flavor (like Cosmic Crisp apples)

The Flavor Equation
Terroir + Plant + Processing + Roasting = Flavor

Fun Facts

Coffee "beans" are actually seeds
Peaberry beans are rounder and denser than regular beans and occur in only 5% of the harvest
Coffee plants can live 40+ years but peak production is earlier and produce 1-2 lbs of roasted coffee.
120+ coffee species exist in the wild
Most commercial coffee comes from just a handful of the 10,000 Ethiopian varieties
Only 2 species (Arabica & Robusta) dominate global market
Ethiopia has 10,000 unique Arabica varieties