It’s the video many of you have been asking
for for some time now.
Ever since I published the video about my
solar panel system on my home earlier in the
year, and my experience with the installation
and energy production I’ve been seeing,
I’ve been asked for an update on how it’s
going.
By a lot of people.
Well, it’s time.
How much energy production have I been seeing?
How much money have I spent versus how much
I’ve saved?
I’m going to cover it all.
But before we dive in take a moment and hit
the subscribe button, so you don’t miss
out on future videos like this one.
I’m Matt Ferrell ... welcome to Undecided.
I had my solar panels installed in September
of 2018 and turned on at the beginning of
October.
It was a long and drawn out process, but pretty
straight forward.
You can check out my previous solar panel
video for details around that experience.
On that video, as well as my videos on energy
storage, I’ve gotten a lot of comments about
how solar isn’t worth it because you’re
not getting energy on cloudy days, when it’s
snowing, or can’t live off-grid and it only
works in certain locations.
There’s usually a nugget of truth in those
comments, but they all miss the bigger picture
for why solar works for so many people.
For me specifically … I live near Boston,
so knew going in that my solar production
during the winter months would be less than
ideal.
My home and the surrounding environment is
also a bit challenging with trees blocking
the late afternoon and early evening sun.
My goal has never been to be 100% on solar.
For my specific situation that’s not possible,
but it might be for many others.
My goal is to get as much energy as I can
from a renewable and sustainable resource;
to reduce my carbon footprint as much as I
can; and do it in a financially responsible
way that works for me.
So have I been achieving that goal?
The jury is still out, but things look like
they’re on the right track.
It was a little anti-climactic turning on
my solar panels for the first time since it
was a rainy day in October.
I also knew whatever I saw that month was
only going to drop the following month since
we were heading into winter.
My system is managed by Enphase, which has
an “okay” app for checking high level
data for day-to-day production.
The way my system is set up, I don’t see
down-to-the-minute production numbers, but
that hasn’t bothered me too much because
I also have a Sense energy monitor installed.
I have a video on the Sense, too, if you’d
like to see more on how it works and my experiences
with it, but it’s a pretty cool system that
lets me see real time data for my home energy
use and solar panel production.
Between the two I have some great data for
comparison along side my electric bill.
One of the common topics that’s come up
in a lot of comments is the cost of maintenance.
It’s still early days, but so far my cost
has been … zero.
That’s not to say there’s been no upkeep
on the system, but I haven’t had to pay
anything out of pocket to keep the system
up and running.
Over the winter we had a number of good snow
storms that dumped a lot of snow on the roof.
What I found was that light snow typically
didn’t stick to the panels at all and melted
away almost as fast as it landed on the panels.
Heavier snow would accumulate just like a
roof without panels though.
If the sun came out within the next day or
two, we’d often find mini avalanches of
snow as the panels cleared themselves.
Our roof was clear far sooner than my neighbors
without panels.
A few times I pulled out a roof rake to clear
off the panels quickly to try and maximize
our solar production, especially if the sun
was shining again after the storm.
I have a small house and can reach about 90%
of the panels from the ground with my roof
rake.
It took about 15-20 minutes to clear everything
off, so wasn’t too much of a chore.
(Shoveling away the snow that fell is another
story…)
In the warmer months you’ll notice pollen
and dust buildup if it hasn’t rained in
a while.
If it gets really coated, you might start
to see a minor hit to energy production efficiency,
but I haven’t.
In my area it’s rained frequently enough
that I haven’t had do any manual cleaning.
I did it once to see how difficult it would
be, but all it took was a quick spray from
a garden hose.
To be more water efficient I bought an attachment
for my roof rake that has a mop and squeegee
head.
I still haven’t had to use it though.
We did have two separate incidents where the
solar panels stopped producing electricity,
which was throwing errors in the Enphase system.
My solar installer came out right away and
determined that my AC disconnect switch was
malfunctioning.
The first time out they switched everything
off and on again to get it working.
The second time out they ended up replacing
the faulty switch and everything has been
working perfectly since.
Looking at the energy production from the
beginning of October, you can see a clear
trend.
My solar production starts at around 250 kWh
for October, but quickly drops to a low of
about 100 kWh in December.
This low period continued through February,
but more startling is when you look at the
production numbers against the consumption
numbers.
We’re typically using between 700 - 1000
kWh per month.
And before anyone says anything in the comments,
yes that’s high, but it’s not out of line
for the average home in the United States.
Energy conservation is as important as clean
energy production, but that’s a separate
video.
To say that I was excited to see how my production
would take an upswing in the spring would
be an understatement.
I was like a kid eagerly awaiting Christmas
morning for my Red Ryder Carbine-Action Two-Hundred-Shot
Range Model Air Rifle.
March is when everything took a sudden turn
with production hitting around 670 kWh, which
meant March covered two-thirds of our energy
use.
Step into April and May and things stayed
fairly consistent for production.
Since April we’ve been meeting or exceeding
our energy use from our solar panels.
For me the highlight was when my wife couldn’t
stop laughing when she opened the April electric
bill and saw that we owed $10.94.
Compare that to the previous year at $233.40
… you can probably understand why she was
laughing.
Our June bill is the first one with a credit
of $38.36 on our account, which most likely
means we won’t have a bill to pay in July,
either.
If you step back you’ll see a sine wave
pattern emerging for our solar production,
which means I can provide a pretty good estimate
for what the rest of the summer and early
fall will look like.
Depending on how it plays out over July through
the beginning of October, it’s looking like
we may come in around the low 6,000 kWh range
for the year.
The estimate we received from our installer
was 6,615 kWh for the first year, so I think
we’re going to fall a little shy of the
estimate.
If that turns out to be the case, it’ll
be disappointing, but not a showstopper … and
it’s also only half the story.
For the other half of the story we need to
look at the money.
Here’s a look at our electric bill’s kWh
over time.
All the way through 2018 up until June.
Across the board you can see that we’ve
done better, especially once you hit March.
For the actual electric bill price it looks
very similar.
The delta between what we’ve paid in the
past spring and summer vs. what we’re paying
now is substantial.
Just in electricity costs we’ve seen $929
in savings from the previous year, which accounts
for a 48% drop from before solar panels ($1919).
But if you want a truer apples to apples price,
it’s easy to calculate the price per kWh
the panels have been generating.
Just take the cost per kWh and multiply that
by the kWh’s the system has been producing.
Since we’re on full net metering, we’re
getting full credit for all of the solar power
we’re using or putting back into the grid.
That’s $873 so far.
When you add in the SREC program, which are
credits paid out for how much electricity
you put back into the grid, that adds another
$1,136 on top of that.
We have a 10 year solar loan that has had
a minimum payment for the first year of $148
a month, but we didn’t start paying for
that until December.
If we retroactively roll those payments back
for October and November, you’d be looking
at $1,332 in loan payments for the same time
period.
That’s a lot of numbers I just threw at
you, so let’s break this down at a high
level.
That’s $873 in solar production, plus $1,136
for SRECs, minus $1,332 in loan payments.
We end up positive by $677 so far.
If we didn’t have SRECs, we’d be $-459.
Would that mean it’s not worth it?
For me, no.
Paying the minimum on the solar loan will
pay it off in 10 years, but we’re not doing
that.
We’ve actually been overpaying the loan
already to get it paid off earlier than 10
years.
That will reduce the loan interest we’re
having to pay and help the solar panels hit
break even sooner.
The solar panels are warrantied for 25 years,
but can be expected to work well beyond that
timeframe as well.
So again, even without SRECs the system would
hit break even and turn a little profit before
its true end of life.
And as much as people like to hold up incentive
programs and subsidies as to why solar panels
don’t work, we do have them.
Once you put those numbers back into play,
you can see that we’re actually getting
money back from our system today even with
our minimum loan payment.
That means our out of pocket costs for the
system are close to a wash for the loan payback
period right now.
Our loan payment and electric bill are balanced
out with the solar energy production and SREC
credits across the past nine months, and that
should hold true for the year.
So what about the system turning a profit?
What is the payback period?
Like I’ve said before, it’s still a little
early to tell for sure because I’d like
to have at least one year of data for that.
However, filling in the blanks for those few
months we’re missing, here’s how it’s
looking right now.
Our system cost $29,609 for a 9.49 kW system
made up of 26 LG 365 watt panels.
In my previous video I had said we were going
to get a $9,883 tax credit, but that was a
typo.
It should have been an $8,883 tax credit.
Once we got that credit back on our tax refund
we immediately applied it to the solar panel
loan, which knocked the final amount we’re
paying off to $20,726.
Depending on the rate we pay off the loan
it could be close $6,800 in interest over
10 years, which is why we’re paying it off
faster to reduce that amount.
For the sake of the numbers here, I’ll keep
that interest in here for a total of $27,526
on the loan.
We’re getting $126.22 a month in SREC credits
for 10 years, so we’ll be seeing $15,146
from that.
That leaves us on the hook for $12,380 out
of pocket.
But then you have to look at the money we’re
saving on our electric bill.
We were spending about $2,600 a year on electricity,
but will most likely be spending about $1,100.
That’s a savings of $1,500 in the first
year.
If we assumed that electricity prices won’t
increase (they will) and my panels will produce
the exact same amount for those 10 years (they
won’t), then I’d be looking at $15,000
in savings over the first 10 years.
That would mean the solar panels will have
reached their payback period in about 8 years,
which is right in the ballpark of what we
calculated before having them installed.
Yes, there is variability in there because
of the cost of electricity and reduced panel
efficiency over time, but I’m putting that
to the side for simplicity.
In reality, I don’t think it’s going to
change that prediction much at all.
In the U.S. electricity prices have risen
by 15% over the past 10 years, which is about
$0.02 per kWh per year.
But that varies depending on the region.
In my area specifically, prices have increased
10% in the past 10 years.
And under my panel warranty, they’re guaranteed
to produce at least 88.4% of their original
efficiency, which means you’re talking about
a .5% drop each year.
If anything, I’m going to see the cash amount
saved in electricity increase each year because
of how quickly the electricity prices are
rising … not a drop because of a minor decrease
in panel efficiency.
Again, depending on the cost of electricity
and without the SREC credits, I’d be looking
at a payback period closer to 13 years (not
including interest).
And if I also didn’t have the tax credit,
I’d be looking at closer to 18 years.
No matter how I sliced the numbers, I always
came out with my specific solar panel installation
earning it’s money back before the system’s
end of life.
So have I achieved my goal to get as much
energy as I can from a renewable and sustainable
resource?
To reduce my carbon footprint as much as I
can and do it in a financially responsible
way that works for me?
Yes.
Financially right now we’re in the same
month to month position as we were before
solar panels, but we’re getting the benefit
of reducing our dependence on fossil fuels
for our energy use.
In another 8 years or so we should have the
system completely paid off and turning a tidy
little profit for us going forward.
So far, so good … but I’ll be keeping
a close eye on my system and how it’s holding
to those predictions over time.
I don’t anticipate any maintenance costs
to throw this off by too much either, but
time will tell.
Now, if you’re interested in going solar,
I strongly recommend checking out EnergySage
for research and articles, which is a completely
free service.
They have great write-ups and reviews of different
solar panels, inverters, and solar tech that
can be useful no matter where you live.
But if you live in the U.S. and are interested
in going solar, you can get quotes from installers
by using my Energysage portal.
You can plug in your information and request
quotes from solar installers, which all get
funneled into your EnergySage account.
You don’t have to worry about getting flooded
with phone calls.
It makes it easy to compare installers, cost
estimates and energy production quotes in
one place.
And installers also have customer rankings
and feedback, so you can find a reputable
and good quality installer.
I’ve used it myself and can vouch for how
well it helped me through the process.
So what’s your experience?
Jump into the comments and let me know how
your solar panel system has been performing
for you.
Meeting expectations?
And if you don’t have panels but want to
get them, what’s holding you back?
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And as always, thanks so much for watching,
I’ll see you in the next one.
