I saw a pretty sharp decline  in the amount of solar produced. Since my solar panels are nearing their 4 year anniversary, I  thought it would be a good idea to share what   I’ve learned living with solar panels in an  area you might not think they’d be good for,   as well as what happened last year.

Do I still  think getting solar panels was a good idea?   Let’s see if we can come to a decision on this. I’m Matt Ferrell … welcome to Undecided. If you haven’t seen my previous videos on my  solar panel installation, I’ll include links in   the description so you can check them out.

I won’t  rehash everything from those videos, but in short,   I live in the Boston area and have been  documenting what it’s been like living with   a 9.49 kW solar panel system in a colder climate.

My wife and I decided to get solar installed for   two reasons: 1) reduce our electric bill and  save money over time, and 2) get as much of our electricity from clean sources as possible.  There’s no question where my electricity is coming from when it’s being produced on my roof.

You could probably also include a third reason to the mix, my Tesla Model 3. Charging up your  EV with electricity that you generate yourself is pretty cool. I guess you could say the  idea of energy independence is enticing.

My house has a few challenges. If  you live in the northern hemisphere,   it’s best to have a southern facing  roof to maximize your solar production,   but my house is oriented more east-to-west.

That’s why I have panels on both sides of my roof,   so I can capture morning and afternoon sun. The  second issue is that my roof is pretty small. And   finally, I have a fair amount of trees on the  western side of my house that start to block   the sun in the mid-to-late afternoon.

Like I  said, my house is a bit challenging for solar. For the past few years my solar panels have  reduced our reliance on the grid by about 54%,   which is what we expected given my home’s issues.

We’re still on track for the system to have paid for itself in  savings by 2026 (it’s a 7-8 year payback),   but there’s some wrinkles to  that I’ll get to in a bit. First though, I’ve got to get into last year’s  issues.

We saw a pretty steep drop in performance   in 2021, but it’s really important to give these  numbers some context. If you don’t have solar,   it’s easy to armchair quarterback and  ridicule solar as a waste of money.

Some of the comments I see most often on my  solar panel videos bring up the misperception   that solar panels degrade and die quickly. Others  question the accuracy of solar installers telling  you how much you’ll produce each year … sometimes  for the next 10, 15, 20 years.

Weather is going to be a huge factor in how well your solar panels  work. The criticism is usually, if a meteorologist struggles to predict the weather a week out,  how can you predict years of solar production.

On that first point about degradation, it’s  absolutely true that you’ll see a decline   year over year. However, if you have quality made panels from the major manufacturers,   those panels will last 30+ years.

For these  panels you’ll have warranties that guarantee  minimal losses over the next 20 years, but that’s  not end of life … that’s just the warranty period.   In my case I have LG solar panels on my home  that are guaranteed to produce at least 88.

4%   of their original efficiency, which means  you’re talking about a .5% drop each year.   And that’s why I had to raise an  eyebrow at last year’s numbers. My solar installer offered a 10 year production  guarantee.

If my panels produce less than 95% of   their projection, they’ll pay the difference  in the cost of electricity. They projected   that we’d be producing close to 6,600  kWh each year for the first few years,   but last year we produced only 6,479 kWh.

The year before we produced 7,293 kWh.   So comparing 2021 to 2020, we saw an 11% drop in  production. So yeah … I was a little perplexed,   frustrated, with a dash of concern. To add to that  our electricity use had increased slightly because   my wife started working from home due to the  pandemic, and our electricity prices had risen … a   lot.

Back when we got the solar panels installed  we were paying about $0.24/kWh. Now we’re paying   about $0.30/kWh. On average we use roughly  950 kWh per month over the course of a year,   so you’re talking about going from a potential  bill of $228 a few years ago to $285 today.

That’s when the data nerd in me kicked into gear   and I started crunching the numbers  to figure out what was going on. But before getting to what I found,  there’s some other numbers worth crunching.

I’ve been asked on previous solar panel videos how  much my home insurance went up with solar panels,   and that really depends on your provider. My home  insurance didn’t change at all with solar, but   we’re planning on moving at some point soon, so  we’ve been looking to see if there are some better   deals for our home and auto insurance.

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Policygenius has   saved customers an average of $1,250 per year over  what they were paying for home & auto insurance. Head over to policygenius.com/undecided to  get your free home & auto insurance quotes   and see how much you could save.

Thanks  to Policygenius and to all of you for   supporting the channel. Now back to what I found  after digging into my solar production data. When looking at your solar panel production,  it’s important to not focus and obsess   on the day-to-day numbers.

There’s going  to be an incredible amount of volatility   day to day depending on the weather.  Cloudy days, rain, snow, etc.   It all depends, so you have to look longer  term when assessing how it’s performing and if   it’s worth the cost of the system.

It’s the same  reason my solar installer does a yearly guarantee. Take a look at my monthly numbers year over  year and you’ll start to spot some clear trends.   Summer is obviously going to be peak production  because of the increased daylight hours   and the sun being at a higher angle in the sky.

During winter you have shorter days and a lower   angle of sun. The yearly trend looks a lot  like a daily trend. Very low production   in the winter and none at night, and a swell  during the summer months or middle of the day.

However, something should jump out at you  on this chart. The 2021 numbers between   May and September are dramatically  lower than the years before it. I knew weather was going to play a role in how  effective my panels would perform, but I didn’t   expect such a huge swing to happen year over  year.

That’s when I pulled up the historical   weather data for my area. If you overlay the  amount of precipitation on top of the solar   production chart, the correlation is pretty clear.  Here in the New England area, 2021 was one of the   warmest and wettest on record, especially if you  look at the July, August, and September data.

2021 was the third warmest on record going all  the way back to 1895. It was also the third   wettest year on record and July 2021 coming in  as the wettest month on record. Massachusetts   typically sees about 4 inches of rain in July,  but last year we saw an average of 10.

3 inches. So the mystery was solved for  why 2021’s production was so   low. It wasn’t anything wrong with my  panels, inverters, or other hardware.   Thankfully, if you look at what we’ve seen so far  in 2022, everything is back to normal.

In fact,   April’s production numbers were the best  we’ve seen so far after four years of data.   While you might think this challenged my belief  in only vetting solar production numbers year   to year vs. day to day, and that weather doesn’t  really factor in too much long term, it hasn’t.   2021’s yearly number came in at 6,479.6 kWh with  a prediction from my installer of 6,549 kWh.   That prediction was off by about 1%, which  really isn’t bad at all.

The variability in seasonal weather conditions is factored into  historical data that solar installers pull from   to make their future production numbers. And  from what I’m seeing, it’s pretty accurate … even   though I’ve seen wild swings between a couple of  years.

2020 was about 10.8% higher than predicted.   They worked out the prediction on the  conservative side of what we might see. And that brings me to the giant question  of, “do I still think it was worth it?”   If you’ve watched my previous videos on my solar panels, you’ll know that I’ve said in each one of these that the answer is yes.

But you’ll  also know that I always stress very hard that   it’s going to depend on what your personal goals  are. Anyone that tells you that solar panels are worth it no matter what should be ignored.

And the same is true from anyone that says solar panels are a scam and will never work.  Solar panels are just one method of producing  electricity and don’t necessarily make sense for  every person in every location and situation.

For me, I live in an area without time of use  electricity rates, but we do have net metering that pays back nearly a 1 to 1 credit on my  electricity bill. So we bank some credits in   the summer that wipe out our electric bills in  those months and into the fall.

And during the   winter we’re primarily pulling from the grid like  anyone else. We also have solar renewable energy credits (SREC). 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 for the cost of our solar panels. 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  we’ve been saving almost $1,500 a year with solar.

And since our electricity prices have risen  to $0.30/kWh, our savings has actually gone   up a little bit. All of that rolled together is how our solar panel system will pay for itself sometime in 2026, and the panels should  easily go another 20 years or more after that, so they’ll be producing free,  clean electricity at that point.

Again, I can’t say this enough, the warranty  period is not the end of life for the panel. But here’s that wrinkle I brought up earlier about  my specific return on investment. I’m not going to be living in my house in 2026.

I’m not going  to be living in this house a year from now. My wife and I are building a new, modular, net zero home this year and will hopefully be moving in   early next year. That means we’ll be selling our  current home with the solar panels before they’ve  returned on the investment, which means we’re  only about halfway into that payback period.

Am I going to lose out on that money? Am I going  to have a hard time selling my home with solar panels on it? On that first point, no, I’m not  going to be selling my solar panels at a loss.

A home’s value actually increases with  solar panels. It’s not that different   from doing a kitchen or bathroom renovation.  And solar panels are very popular in my area. Energysage has a great article that details the  impacts to a home’s value.

According to a study by Lawrence Berkeley National Laboratory, which used  data from 8 states over an 11 year time period, you can expect to see $4 per watt of installed solar capacity added to the value of your home.

In my case, that could be a $38,000 increase. To  me that sounds too high. But according to Zillow,   they saw homes with solar panels selling for 4.1%  more. And the National Renewable Energy Laboratory   reported seeing an increase in home value by $20  for every $1 reduction in annual utility bills.

That math would work out to about $30,000 for  my house, which isn’t that far off from the   first study. The bottom line: the more money  your solar panels save you on electricity,   the more it increases your house’s value.

I won’t have to wait too much longer to   find out if that holds true, so stay tuned  to the channel if you want to hear how it went selling a house with solar, as well as a ton of videos around my upcoming house build.

So do I still think getting solar panels for my home was worth it. That’s a big yes. For my goals,   which was saving money on electricity over  time and ensuring my power was coming from a   clean energy source, it ticked all the boxes.

Our  system cost $20,727 after the Federal Tax Credit.   By the time we leave this house, we’ll have  received about $6,000 in SREC payments.   About $1,500 a year in electricity savings, so add  another $6000 on top of that.

We’ll have whittled   the payback down to about $8,000 by the time we  leave. And if the $30,000 increase in value holds true, the return on investment will have been well  worth it … but that wasn’t my only goal.

Again, I did this for some energy independence and to  ensure I was getting energy from a clean source. Would I recommend that you get solar? That’s  tricky because I don’t know your goals, where you live, or what costs are in your area, so you’re  going to need to do that evaluation for yourself.

But if you are thinking about it, don’t wait much  longer. If you live in the US, the Federal solar   tax credit is going to be dropping from 26% to  22% in 2023. Solar installers book up fast, so   you really need to be scheduling installers now to  ensure you get the panels installed before the end   of the year.

I’ve been getting quotes for my new  house and installers are already booked up through   August and into September. So start looking today  and evaluating if it’s the right choice for you. And on that note, you should check out EnergySage  for great articles and reviews of solar equipment.

I’ve found them to be an amazing resource  when researching my current installation,   as well as my next one. I also used Energysage  to find my installer on my current house. If you   live in the US, check out my Energysage portal to  find installers in your area and get quotes.

Full  transparency, this is an affiliate program, so I  do get a small commission if you use my portal.   But regardless of that, I love Energysage and find  them a great resource. My favorite part of finding   an installer through them is that you’re not  giving out your phone number to get deluged with dozens of calls.

All of the quotes are delivered  to your Energysage account and are presented in a   way that’s an easy apples-to-apples comparison  between installers. I strongly recommend it. So what do you think? Do you want solar for your  home? Jump into the comments and let me know.

If you liked this video, be sure to check out  one of these videos over here. And thanks to   all of my patrons for your continued support  and welcome to new producers Michael Maxie,   Greg MacWilliam, and J.

And thanks to all of  you for watching. I’ll see you in the next one.