Caffeine High (School)😎
A lesson in 12-volt power management. How much battery capacity do you need to make a cup of cappuccino?
Dear Readers,
Since the English language is simply too small to encompass my thoughts and discussions on the amount of battery and solar energy needed for common (and not so common) RV appliances, I’m introducing two new words into your vocabulary: CEUs and PREUs (pronounced like cues and prunes, but “prunes” without the “n”).
In the beginning, there were SPEUs
Of course, this is simply an expansion of my concept of SPEUs (pronounced like spew, as in spew forth), which I created to discuss the amount of energy required to make a sock puppet with a sewing machine. Hence, Sock Puppet Energy Units (SPEUs) were born.
In today’s article, I’m going to discuss the amount of energy needed to make a cup of cappuccino or coffee (hence, CEUs for Coffee Energy Units) and later I’ll cover what’s need to run a portable 12-volt Danfoss refrigerator (hence, PREUs for Portable Refrigerator Energy Units).
Study time…
This sort of mind experiment will help you understand just how much battery energy is needed for any electrical appliance in an RV. There’s a little bit of math involved (actually just simple arithmetic), but most of these calculations can be performed by counting on your fingers and toes. That means you can put away that slide rule for now… So please keep your arms and legs inside the ride at all times until it comes to a complete stop.
The Portable Solar Power Station
I hate to call them solar generators, since these are basically lithium batteries and a pure sine wave inverter in a box with plug-in solar panels, but a Portable Solar Power Station is a reasonable nom de plume… That’s why a few months ago I asked for a Jackery 1500 Power Station with 1,500 watt-hrs of battery storage, an 1,800-watt pure-sine-wave inverter, and 400 watts of solar panels (200 watts shown here). Now, this portable battery / inverter will certainly not replace a hard-working generator to power your entire RV, nor do I think it’s time to rip out your existing RV’s converter / inverter / battery system. But as a supplement for boondocking without a generator it’s a solid concept. So that’s what I’m using for these next few energy experiments.
How much energy does a Jackery 1500 store?
Well, the Jackery 1500 is listed to be able to provide 1,500 watt-hrs of battery storage, and my casual observations confirm this. So you can run a 1,500-watt space heater for 1 hour (because 1,500 watts times 1 hour of time equals 1,500 watt-hrs).
Or it could run a 100-watt light bulb for 15 hours (because 100 watts times 15 hours equals 1,500 watt-hrs). Now, there is inverter overhead (the fan) and inefficiency losses when it makes 120-volts AC. So, some of my tests includes powering a Vitrifrigo Portable Refrigerator both from 12-volts DC directly as well as the 120-volt AC inverter.
Spoiler Alert – No surprises, since the portable refrigerator could run for nearly twice the number of hours using 12-volts DC compared to 120-volts AC.
How many CEUs does it take to make a cappuccino?
Okay, now it’s time to answer the question I get asked every week on my various forums and blog. Just how much battery power will it take to make an espresso, latte, cappuccino, or mug o’ joe in my RV? I’m thinking in Coffee Energy Units, or CEUs for short.
While there are old-school ways to heat water on a propane-powered cooktop, many of you still want your Nespresso machine. Apparently some of you made deals with your better halves that they could bring along their favorite caffeine machine, or they wouldn’t go boondocking in the woods with you. So now it’s a deal breaker if you can’t deliver the java…
The setup…
I plugged my Nespresso machine into a Jackery Explorer 1500 which has an onboard 1,500 watt-hr lithium battery and 1,800-watt pure sine wave (PSW) inverter. The Jackery has a very nice Power / SoC (State of Charge) meter, which makes it pretty easy to get both power and energy usage data.
As you can see in this short video HERE there’s 1059 watts of power draw from my Nespresso machine during the warmup cycle, followed by around 850 to 900 watts during the milk foaming cycle, followed by 550 watts down to 208 watts during the espresso pumping cycle.
The data…
We can see from this short video that the peak wattage used is just over 1,000 watts, so a 2,000-watt inverter should easily be able to power this Nespresso machine, as long as you don’t have the microwave oven running at the same time. And the SoC started at 87% and ended up at 85% at the end of the cycle. Since this is a 1,500 watt-hr storage battery, all we have to do is multiply 2% times 1,500 watt-hrs and calculate 30 watt-hrs of energy needed. So I’m going to estimate that each CEU (Coffee Energy Unit) is around 30 watt-hrs of energy for a Nespresso machine making cappuccino.
Flipping the calculation, you’ll see that if you have a single 100 amp-hr AGM or FLA (Flooded Lead Acid) battery, the 600 watt-hrs of available battery energy divided by 30 watt-hrs (1 CEU) needed per cappuccino cycle equals 5% of your available battery power, which is 20 espresso-making cycles on a battery charge.
More Calculations…
If you have a 100 amp-hr lithium battery in your RV, that’s around 1,200 watt-hrs of available battery power (since you can discharge them down to 0% SoC). So you could make 40 cups of cappuccino on a single battery charge.
So, the Jackery 1500 should be able to make 50 cups of cappuccino on a single charge, which I’m not going to actually test since I’m pretty sure I can’t drink that much caffeine in a day. But the math indicates that’s how it should work.
And if you consider that 400 watts of solar panels can recharge around 1,200 to 1,500 watt-hrs of battery power in a day, it suggests that you could make 50 cups of cappuccino per day FOREVER, as long as the sun is shining and you don’t run out of coffee pods.
Part 2: More info to come next week…
I’ll be posting the second part of this article next week where I’ll show much battery power was needed to run a portable Vitrifrigo 12-volt compressor refrigerator / freezer. You will be amazed. See you then…
Please share this with every RV owner you know who loves & needs their caffeine. 😁
Let’s play safe out there… Mike
Before I retired, I worked and owned a few car audio/12v shops. we sold alarms, stereos, any and all accessories for vehicles. One item we sold and installed was inverters and did a few battery upgrades for RV's to accommodate them. It used to crack me up, RV'ers would come in and state that their needs were easy and simple: they just wanted to make coffee in the RV. - No big deal. (after all, the coffee maker weighs almost nothing how much juice could it need?) We would educate them about needing 2000w inverter, wire as thick as their wrist , and honkin batteries to provide the necessary grunt to run the coffee maker.
Solar panel logic. You said 400 watts of solar can make 1200-1500 W/H/Day. That would be a factor of about 3.3 where (Watts of Solar) x 3.3 = (Daily Output). I have always used a factor of 3 to estimate roof mounted solar output, (Flat) which has been pretty accurate during my non scientific testing in Florida. Shouldn't you be able to do quite a bit better with portables if you move them throughout the day?