'Design of Coffee' course teaches engineering through brewing the perfect cup of coffee
- Written by William D. Ristenpart, Professor of Chemical Engineering, University of California, Davis
What does the course explore?
The course focus is hands-on experiments with roasting, brewing and tasting in our coffee lab.
For example, students measure the energy they use while roasting to illustrate the law of conservation of energy[2], they measure how the pH of the coffee[3] changes after brewing to illustrate the kinetics of chemical reactions, and they measure how the total dissolved solids[4] in the brewed coffee relates to time spent brewing to illustrate the principle of mass transfer[5].
The course culminates in an engineering design contest, where the students compete to make the best-tasting coffee using the least amount of energy. It’s a classic engineering optimization problem, but one that is broadly accessible – and tasty.
Why is this course relevant now?
Coffee plays a huge role in culture[6], diet[7] and the U.S.[8] and global economy[9]. But historically, relatively little academic work has focused on coffee. There are entire academic programs on wine and beer at many major universities, but almost none on coffee.
UC DavisThe Design of Coffee helps fill a huge unmet demand because students are eager to learn about the beverage that they already enjoy. Perhaps most surprisingly, many of our students enter the course professing to hate coffee, but by the end of the course they are roasting and brewing their own coffee beans at home.
What’s a critical lesson from the course?
Many students are shocked to learn that black coffee can have fruity, floral or sweet flavors[10] without adding any sugar or syrups. The most important lesson from the course is that engineering is really a quantitative way to think about problem-solving.
For example, if the problem to solve is “make coffee taste sweet without adding sugar,” then an engineering approach provides you with a tool set to tackle that problem quantitatively and rigorously.
What materials does the course feature?
Tonya and I originally self-published our lab manual, The Design of Coffee: An Engineering Approach[11], to keep prices low for our students.
Now in its third edition, it has sold more than 15,000 copies and has been translated to Spanish[12], with Korean and Indonesian translations on the way.
What will the course prepare students to do?
Years ago, a student in our class told the campus newspaper, “I had no idea there was an engineering way to think about coffee!” Our main goal is to teach students that there is an engineering way to think about anything.
The engineering skills and mindset we teach equally prepare students to design a multimillion-dollar biofuel refinery, a billion-dollar pharmaceutical production facility or, most challenging of all, a naturally sweet and delicious $3 cup of coffee. Our course is the first step in preparing students to tackle these problems, as well as new problems that no one has yet encountered.
References
- ^ Uncommon Courses (theconversation.com)
- ^ conservation of energy (www.britannica.com)
- ^ the pH of the coffee (www.sciencedirect.com)
- ^ total dissolved solids (doi.org)
- ^ mass transfer (en.wikipedia.org)
- ^ a huge role in culture (www.smithsonianmag.com)
- ^ diet (doi.org)
- ^ the U.S. (www.ncausa.org)
- ^ global economy (icocoffee.org)
- ^ fruity, floral or sweet flavors (doi.org)
- ^ The Design of Coffee: An Engineering Approach (www.amazon.com)
- ^ Spanish (www.amazon.com)
Authors: William D. Ristenpart, Professor of Chemical Engineering, University of California, Davis