This Week in Solar

Exact Solar

A weekly look at what's new in solar, brought to you by Exact Solar. Clean energy news, policy updates, and stories that matter. exactsolar.substack.com

  1. 1 hr ago

    Building Hurricane-Proof Off-Grid Solar In a Box: Meghan Wood

    This Week In Solar is always brought to you by Exact Solar, your locally owned, twenty-year-old solar installer for Southeast PA and New Jersey. We’d love to pay you $1000 if you refer a friend to us and they go solar (We only install in New Jersey and Pennsylvania, so please do not refer anyone outside those states). All you have to do is: Click the “Earn $1000” button below.Fill in your information (we need your address to mail you a check if your friend goes solar).Select Aaron Nichols as the sales representative.Add your friend’s name and address.Get a $1000 check mailed to you if your friend goes solar with us! Refer a Friend and Earn $1000 Aaron Nichols talks with Meghan Wood, CEO and co-founder of Raya Power, the first plug-and-play solar and battery appliance. Listen to this episode on:YouTubeApple PodcastsSpotifyConnect with Meghan: Find her on LinkedIn, visit her website at rayapower.com, or follow the Raya Power Instagram account for behind-the-scenes content. Expect to LearnWhy treating solar like a piece of IKEA furniture or a standard household fridge removes the need for homeownership, roof repairs, and long construction timelines (which have kept thousands of people out of the solar market).How Raya’s system connects directly to essential household loads (like a fridge or Wi-Fi) without backfeeding the grid, completely sidestepping the need for interconnection agreements and electrical permits.Why Puerto Rico is the perfect primary market and testing ground for Raya (think frequent outages, high electricity rates, and abundant sunshine).Quotes from the Episode“When we thought of how can we actually get this [solar power] to more people, we thought ‘this needs to be an appliance.’ It needs to be something that’s as simple as getting a fridge or a table at IKEA or your wifi. Something as a renter you would get normally, something you could replace without too many hurdles.” — Meghan Wood “80 years from now, it’d be really cool if it was like, ‘of course my home is self-powered and that’s like the norm,’ not a contentious fighting point.” — Meghan Wood

    22 min
  2. Tesla, Renew Home, and Sunrun Plan to Use Home Solar and Batteries to Power Data Centers

    5d ago

    Tesla, Renew Home, and Sunrun Plan to Use Home Solar and Batteries to Power Data Centers

    What’s new Across the country, data centers are gobbling up power, and Americans are paying the bill for rising costs. Everyone involved in building these things needs energy now, but energy infrastructure takes years to build. Tesla, Sunrun, and Renew Home say they can help meet the ever-growing power needs of A.I. data centers by linking together devices that are already sitting in people’s homes: * Rooftop solar * Home batteries * Smart thermostats * Other controllable loads They’re planning to coordinate these into “virtual power plants” that can respond in minutes to increased energy needs. By the way, if you look up “Virtual Power Plant,” it seems like no one wants you to understand them. This is the Department of Energy’s blurb: “Virtual power plants, generally considered a connected aggregation of distributed energy resource (DER) technologies, offer deeper integration of renewables and demand flexibility, which in turn offers more Americans cleaner and more affordable power.” It’s wild how no one wants to state things simply. The best definition I found comes from the Solar Energy Industries Association: “A Virtual Power Plant (VPP), also known as a Distributed Power Plant, is a network of decentralized energy sources — like solar panels, home batteries, and smart devices — that work together to generate, store, and manage electricity. It is a system of thousands of smaller devices that are aggregated, and they work together and function much like a traditional power plant, supplying electricity when it’s needed most and helping ease demand on the grid.” The idea is simple: * These companies ask customers who already have solar and batteries (or want to sign up for them at a subsidized rate) to opt in to a program * They then use software to coordinate all of these systems, charging batteries and pulling power from them as needed. * When the grid is most stressed, they slightly adjust things like thermostats and other smart home devices across millions of homes, then they use that extra power for data centers The three companies claim they can free up enough capacity during peak demand to cover the equivalent needs of about 17 large data centers. They cited real programs already running in places like California and parts of the Northeast as proof they can do this, and they say this approach can be deployed in months, especially in data-center hot spots like northern Virginia, where they say hundreds of megawatts could be available quickly. If you’ve learned something from This Week In Solar and you’d like to learn more, drop your email below, and we’ll keep sending you free solar news! Why it matters A.I. is pushing data center growth so fast that the parts of the power system that are slow and expensive to build (new power plants, big solar farms, grid batteries, and new transmission lines) can’t keep up. This is a simple supply/demand problem. Everyone wants power, so power is getting expensive. The worst strain on the grid happens during peak hours like hot summer evenings or cold snaps, when everyone turns on their AC or heat at the same time. If home batteries and smart devices can reliably reduce demand or supply power during those peaks, it could delay or reduce the need for new “peaker” plants and major grid upgrades. Homeowners who participate in these programs can earn payments, bill credits, or even subsidies towards battery installations (all depending on what their installer or utility actually offers). Personally, if I were thinking about participating in one of these programs, I’d make sure I knew exactly what I was signing up for and that I was going to be fairly compensated before I signed up. Especially if I was agreeing to let a large corporation adjust my thermostat from afar. This Week In Solar is always brought to you by Exact Solar, your locally owned, 20-year-old solar installer. Energy costs are skyrocketing, and no one seems to have a good plan to fix it. Between natural disasters, capacity auctions, utility rate hikes, and data centers gobbling up power, energy just keeps costing more. You have no control over how much someone charges for power for your home or business, but you can choose to opt out of the cycle by going solar. If you live in New Jersey or Pennsylvania, Exact Solar would love to work with you to see if solar is a good fit for your property. Whether you have cash to pay for solar up front or you want solar for zero dollars down, we have an option that will fit your needs. Just click the button below, submit your info, and we’ll show you the numbers! Sources: A Solution to A.I.’s Growing Power Demand: Homes Tesla, Sunrun, Renew Home team up on massive 16GW virtual power plant Sunrun, Tesla say they have 16 GW of existing home battery capacity to send to utilities Virtual Power Plant (VPP): Best Practices & Principles This is a public episode. If you would like to discuss this with other subscribers or get access to bonus episodes, visit exactsolar.substack.com

    7 min
  3. The Future is Filled With Solar and Sheep: Rebekah Pierce

    Jun 24

    The Future is Filled With Solar and Sheep: Rebekah Pierce

    Energy costs are skyrocketing, and no one seems to have a good plan to fix it. Between natural disasters, capacity auctions, utility rate hikes, and data centers gobbling up power, energy just keeps costing more. You have no control over how much someone charges for power for your home or business, but you can choose to opt out of the cycle by going solar. If you live in New Jersey or Pennsylvania, Exact Solar would love to work with you to see if solar is a good fit for your property. Whether you have cash to pay for solar up front or you want solar for zero dollars down, we have an option that will fit your needs. Just click the button below, submit your info, and we’ll show you the numbers! In today’s episode, Aaron talks with Rebekah Pierce, a freelance writer and first-generation farmer. Rebekah is a former educator who’s now on the front lines of the movement to combine solar energy and agriculture (agrivoltaics). She deploys flocks of sheep to control vegetation under solar arrays alongside her husband and their five-year-old son. She’s also just an awesome human to interview. Listen to this episode here, or on: * YouTube * Apple Podcasts * Spotify Connect with Rebekah on LinkedIn here. If you’ve learned something from This Week In Solar and you’d like to learn more, drop your email below, and we’ll keep sending you free solar news! Expect to learn: * Why sheep are better for controlling vegetation under solar panels than diesel mowers. * How farmers are growing everything from kale to sun-loving tomatoes under solar arrays. * Rebekah’s advice on shifting the solar narrative from “climate change” to “food security” to win over hesitant local communities. Quotes from the episode: “Food security is really a non-partisan thing. We can increase our food production, we can help America’s farmers, and we can help our soil—all while increasing our renewable energy production.” — Rebekah Pierce “It’s kind of cool because we think of solar farms as futuristic, but they are allowing farmers to return to a style of farming that people have done for centuries.” — Rebekah Pierce Transcript: Aaron Nichols: Rebecca, you’re living what I’m sure many people would consider a dream as a freelance writer who lives on a farm. I think that there’s a lot of probably novels or movies with characters just like you. And I’m curious if you could just give us a general idea of what your day-to-day life [is like]. Rebekah Pierce: Sure, so I guess I’ll start with the caveat that even a nightmare is a dream. No, and I say that very, very tongue in cheek. But yeah, so my husband and I started our farm pretty much right when we purchased our property, which was about 11 years ago... At first it was just your typical hobby farm. We both didn’t want to continue teaching, and we wanted to expand our farm to more of a commercial enterprise... I left teaching around the time of the pandemic, started pursuing my freelance writing full time. It was also right around that time that we turned our farm into an LLC and started exploring this idea of solar grazing and agrivoltaics. Day to day, the writing business is my full-time business. So most days I’m in front of a computer interviewing, researching, writing. But I also help on the farm during our high times. We start lambing in just a few short weeks here, so it’s pretty much all hands on deck. It’s just us and our five-year-old son who very much thinks he’s helpful. Aaron Nichols: So for everyone who’s listening, welcome back to This Week in Solar. My guest today is Rebecca Pierce, who’s a freelance writer who has covered a lot of sustainability and clean energy topics. Rebecca, will you introduce yourself and just talk about your experience specifically with solar? Rebekah Pierce: Absolutely. So again, Rebecca Pierce, freelance writer in upstate New York. We’ve only been solar grazing since about 2022. For folks who don’t know, solar grazing is just the practice of grazing livestock, typically sheep, under solar panels for the purpose of maintaining the vegetation. For us, our first initial reason for getting into it was a form of farm viability. My husband and I are both first generation farmers. We got into this with not a whole heck of a lot to our names. We got our first solar contract in 2022. We now graze seven sites across four counties in upstate New York. Aaron Nichols: So just to clarify—do you bring livestock to other people’s solar panels and graze under them, or you do it on your own farm? Rebekah Pierce: We graze as a third-party service provider. Often it’s other farmers who are leasing their land to the solar company. The solar company, who is in charge of the maintenance, pays us to do the vegetation management with our sheep. Aaron Nichols: And have you found solar companies to be pretty supportive? Rebekah Pierce: Back in 2021-2022, there was a lot of us having to pitch that sheep are cheaper than traditional mowing. But since then, adoption has increased due to advocacy from groups like the American Solar Grazing Association. Companies are realizing it’s not as risky as they thought. There’s a reduced risk of damage to panels because sheep don’t kick rocks like a mower might. You don’t have to worry about fire risk. Also, you have a shepherd on-site every other day who acts as the “eyes and ears” for the O&M team to spot things going wrong. Aaron Nichols: I think another benefit would be just you don’t need to use as many pesticides or herbicides. Rebekah Pierce: Yeah, you’re using gas or diesel powered equipment to mow around these sites, so [grazing] is cleaner. We don’t use herbicides or pesticides at all. Through rotational grazing, you can actually improve the soil quality of the site. It’s kind of cool because we think of solar farms as futuristic, but they allow farmers to return to a style of farming done for centuries—moving animals daily and feeding them grass rather than grain. Aaron Nichols: For anyone who doesn’t know, what are the major benefits of agrivoltaics or dual-use farming? Rebekah Pierce: Agrivoltaics is just any practice of farming under or around solar panels. In my book, I call it “Agri-Energy” to pull out some of the complexity. Economic viability is huge because farming is a very risky business. Beyond that, shade is incredibly beneficial, not only for animals but also for crops. There’s a narrative that you can only grow shade-tolerant crops like broccoli or kale, but we’re seeing that you can pair solar quite nicely even with crops like tomatoes that prefer more sunlight. There’s even a trendy term now called “Cattle-voltaics” for raising cattle on solar farms. Aaron Nichols: I want to pull the thread of being an educator. I came from an education background as well. I’m interested in how you think being an educator has helped or hurt you in this work. Rebekah Pierce: As a writer and a marketer, I have to understand my audience. I think the solar industry has a little bit of a PR problem. The conversation has always been about climate and the environment. But energy has become politicized. Food security is a non-partisan thing. By leaning into agrivoltaics, we can speak to people who are hesitant about solar by showing it increases food production and helps America’s farmers. Aaron Nichols: I close this podcast with the same question. My grandma turned 80 last summer. Everything from the invention of solar PV in 1954 to it becoming the cheapest power source happened within her lifetime. What do you think energy looks like 80 years from now? Rebekah Pierce: I would like to see a world where we don’t look at energy production, food production, and community resilience as separate systems, but rather things that are enmeshed. I want systems that are circular, where power and food stay within communities. We need to get back to producing our power and food as locally as possible in a way that benefits everybody at the most direct level. Aaron Nichols: That’s exactly the future I want to bring about. If you want to be found online, where can people find you? Rebekah Pierce: I’m on LinkedIn—Rebecca Pierce. My website is jrpiercefamilyfarm.com. I’m also on Instagram and Facebook, but LinkedIn is my number one. Aaron Nichols: For everyone who’s listening, that’s been this week in solar. Rebecca, thank you. This is a public episode. If you would like to discuss this with other subscribers or get access to bonus episodes, visit exactsolar.substack.com

    28 min
  4. Here's How You Can Help Legalize Plug-In (Balcony) Solar In Your State

    Jun 19

    Here's How You Can Help Legalize Plug-In (Balcony) Solar In Your State

    Plug-in solar is one of the best defenses average Americans have against skyrocketing electricity bills. Sadly, not every state legislature agrees. Some state representatives are stuck battling utility monopolies in committee, just so that their constituents can legally use the sunlight that hits their homes. If you’re excited about potentially lowering your electric bill without a permit and live in one of the states below, here’s what you can do to help move this battle forward. Listen to this episode on: * YouTube * Apple Podcasts * Spotify This Week In Solar is always brought to you by Exact Solar, your locally owned, 20-year-old solar installer. Energy costs are skyrocketing, and no one seems to have a good plan to fix it. Between natural disasters, capacity auctions, utility rate hikes, and data centers gobbling up power, energy just keeps costing more. You have no control over how much someone charges for power for your home or business, but you can choose to opt out of the cycle by going solar. If you live in New Jersey or Pennsylvania, Exact Solar would love to work with you to see if solar is a good fit for your property. Whether you have cash to pay for solar up front or you want solar for zero dollars down, we have an option that will fit your needs. Just click “Show Me How Much I Can Save With Solar” below, submit your info, and we’ll show you the numbers! Here’s What to Say if You Live in These States (Legislation Died or Failed to Advance) If you live in: Rhode Island, Washington, Illinois, Minnesota, Wyoming, Oregon, Missouri, Indiana, Arizona, New Mexico, Georgia, and Idaho. Contact: Your state representatives and senators, as well as local environmental and renter advocacy groups. Tell them: Say that you expect plug-in solar to be reintroduced in the next legislative session as a standalone bill, and that you are building a coalition to support it. Remind your reps that UL 3700 certification requires automatic anti-islanding, and that because of that safety regulation, plug-in solar is already being safely deployed across several states. Then point out that traditional rooftop solar is inaccessible to Americans who don’t own their homes, and that plug-in solar solves that. To summarize, tell them that these systems are safe, and that killing these bills directly harms renters and low-income households who need immediate utility bill relief (and gives them a solution that doesn’t require government subsidies). (If you’re wondering what that bit about UL 3700 and anti-islanding means, it’s just a guarantee that if the grid goes down, the system shuts off in milliseconds. So it means that plug-in solar poses zero risk to utility workers when people buy and install proper kits. Germany has over 4 million of these installations with zero lineworker incidents). Here’s What to Say if You Live in These States (Legislation is Pending) If you live in: * Awaiting Signature: New York (the SUNNY Act) and Vermont. * Active in Chambers: California (SB 868), Massachusetts, New Jersey, Pennsylvania, Michigan, Delaware, North Carolina, Ohio, and Washington, D.C. Contact: * For New York and Vermont: Contact the Governor’s office and ask for a signature. * For the others: Contact your state representatives and senators, as well as local environmental and renter advocacy groups. Tell them: Remind them that while traditional rooftop solar can cost upwards of $20,000 for cash or a loan, plug-in kits cost between $400 and $2,000 and plug directly into a standard 120V or 240V outlet with no need for expensive electrical panel upgrades and contractor soft costs. Make it explicitly clear that these bills do not ask for state funding or tax credits. They simply remove outdated bureaucratic red tape so consumers can spend their own money to lower their electric bills directly. Urge them to publicly support the specific plug-in solar consumer access bill currently moving through their chamber. Here’s What to Say if You Live In These States (Where It’s Already Legal) Disclaimer This Week in Solar is an informational and educational publication. The legislative tracking and advocacy strategies shared above do not constitute formal legal advice. Legislative language, utility rules, and local regulations vary widely by state and can change rapidly. Before purchasing or installing any plug-in solar hardware, always review your specific local state statutes, municipal electrical codes, and utility tariff documents to verify current compliance requirements. If you live in: Utah, Maine, Virginia, Colorado, Maryland, Connecticut, and New Hampshire. These states have officially signed laws legalizing plug-in systems up to 1,200W (and a nation-leading 1,920W in Colorado). But these states have now shifted from passing the law to enforcing it, and there’s still a chance that an HOA or township will try to stop you from installing plug-in solar. Contact: Your state’s Public Utility Commission (PUC) and the state legislators who sponsored the bill. What to tell them: First, read the law in your state and understand what your rights are. In states with renter and HOA protections (like Colorado), the law preempts homeowners’ associations and landlords from banning balcony solar. Once you know your rights and you’re ready to install, if your local utility demands a formal interconnection agreement, a pre-install inspection, or proprietary equipment for a UL 3700-certified kit, report them to the PUC (if you’re legally allowed those things under new laws in your state). Sources https://pluginsolarguide.com/ https://www.brightsaver.org/legislation-tracker/ https://pluginsolarusa.com/ https://www.reddit.com/r/pluginsolarusa/ This is a public episode. If you would like to discuss this with other subscribers or get access to bonus episodes, visit exactsolar.substack.com

    7 min
  5. Here's How We Connect Way More Solar to The Grid: Mike McGuire

    Jun 17

    Here's How We Connect Way More Solar to The Grid: Mike McGuire

    This Week In Solar is always brought to you by Exact Solar, your locally owned, twenty-year-old solar installer for Southeast PA and New Jersey. We’d love to pay you $500 if you refer a friend to us and they go solar (We only install in New Jersey and Pennsylvania; please do not refer anyone outside those states). All you have to do is: * Click the “Refer a Friend and Earn $500” button below. * Fill in your information (we need your address to mail you a check if your friend goes solar). * Select Aaron Nichols as the sales representative. * Add your friend’s name and address. * Get a $500 check mailed to you if your friend goes solar with us! Aaron talks with Mike McGuire, a Professional Engineer and the founder of H2DC. Mike is a 30-year engineering veteran whose firm is licensed in all 50 states. He specializes in the technical side of distribution engineering (figuring out how to integrate massive solar loads into aging utility grids that were never designed to handle two-way power flow). Listen to this episode here, or on: * YouTube * Apple Podcasts * Spotify Connect with Mike on LinkedIn here. Expect to learn: * How savvy engineers use modeling to downsize projects just enough to avoid multi-million dollar utility grid upgrade fees. * About new sophisticated off-grid systems that use automatic transfer switches (ATS) and batteries to run heavy industrial loads independently. * Why anhydrous ammonia, created from solar, air, and salt water, might be the carbon-free fuel that replaces fossil fuels in the next 80 years. Quotes from the episode: “The cost of solar has dropped dramatically, making it easier for people to develop solar. The cost of regular utility provided power has gone up and keeps going up at a pretty steep rate. You really don’t need the incentives anymore.” — Mike McGuire Transcript Aaron Nichols: Mike, when I was connecting with you and your team before the show, you mentioned that the shift from small municipal utilities to large corporate structures has driven up electricity costs and then noted that solar is becoming more viable even without incentives as utility costs rise. So how has this changed the way that solar projects are being integrated into the grid? Mike McGuire PE - H2DC: Well, that’s slightly two different things, but they’re related. The price of solar has come down dramatically. 20 years ago it was $8 a watt to buy a solar module. Now, you can buy entire ground mount solar for 75 cents a watt for extremely large facilities. You really don’t need the incentives anymore. As far as integration, the whole grid thing has evolved. In Massachusetts and New Jersey, high incentives led to a tipping point around 2010. It filled up the electric company’s circuits. Once power starts flowing in the other direction from all these little distributed generation sites, it eventually comes back to a substation where they have limits on the equipment. Massachusetts has been to hell and back on this. The utilities got crushed by the number of applications. It wasn’t fair to put the cost of repairing the grid on regular ratepayers, so they put those costs on the solar developers. In congested areas, the utility might tell you it costs $5 billion to upgrade the circuit for a 300 kW project, or you can “sneak in under the wire” if you reduce it to 125 kW. That’s the trade-off we see now. Aaron Nichols: I’m very excited to talk to you today and learn more. I am a sales and marketing storytelling minded person, but I have a lot to learn on the technical side. Welcome back to This Week in Solar. I’m your host, Aaron Nichols, and my guest today is Mike McGuire. Mike, would you quickly introduce yourself? Mike McGuire PE - H2DC: Sure, I’m an electrical engineer, and our firm is licensed across the entire US—all 50 states, DC, and Puerto Rico. (Not Guam yet!). Part of our shop does distribution engineering. We calculate how much energy you’re going to need for a store—lighting, outlets, appliances—and size the electrical needs. With distributed generation, we look at how much you’re putting in. There’s “behind the meter” where solar takes a bite out of existing loads, or you’re a net producer dumping power back on the grid. 20 years ago, that was straight net metering. It’s primitive—like an abacus. They take a picture of your meter odometer every month and compare the two. Over the years, utilities complained about a glut of energy at certain times, which they call the duck curve. Aaron Nichols: I’ve heard of the duck curve, but please refresh my memory. Mike McGuire PE - H2DC: It’s a glut of energy available on the lines when everyone’s solar is dumping on the grid at the same time. Let’s also talk about peak demand. Every summer, when people leave work and come home, both locations have the air conditioning on. That uses a lot of power and can cause brownouts. Utilities then have to “wheel in” power from an open market at a premium—sometimes 5 to 200 times the normal price. They share that pain with big commercial users through a “speeding ticket” called a peak demand charge. Some manufacturing plants pay as much for their “speeding ticket” as they do for their regular consumption. Now we’re seeing time of use (TOU) charges for residences too, where you might pay 10 times more for electricity between 4 p.m. and 10 p.m. Aaron Nichols: Where do you and your company come in to help fix this? Mike McGuire PE - H2DC: We’re the electrical engineers. We figure out how to integrate all these systems—pairing modules, combining them with inverters. We’re the cooks; the customers tell us what they want on the menu, and we figure out how to get it done and deal with the utilities. Aaron Nichols: You’ve been a PE for 30 years and in solar for 20. What are the major changes you’ve seen? Mike McGuire PE - H2DC: Grids are getting full and processes are getting complicated, but now we have energy storage. To combat that duck curve and the peak demand, you capture energy and hold onto it for a few hours. Batteries are the easiest solution. Instead of tapping the utility to charge an electric car—which is a bigger load than most A/C systems—you hit the battery. For the future, I think we’ll see more off-grid solar. I don’t mean a camp on an island; I mean solar running specific loads while the sun is out, regulated by batteries so clouds don’t “pull the rug out” from under you. If the batteries run low, you use an automatic transfer switch (ATS) to snap back to the grid. This is “solar without the utility.” In New England, solar energy per kWh is much less than utility rates, which draws people in. Aaron Nichols: Mike, if you were to guess what energy looks like 80 years from now, what do you imagine? Mike McGuire PE - H2DC: It will still be electric. How we make it will change. I don’t think fossil fuels or uranium will be enough. I believe we’ll use “modern fuels” we can’t even think of yet. One I like is anhydrous ammonia (NH3). It has no carbon, stores like propane, and its energy content is between propane and natural gas. If you have a glut of solar, air, and salt water, you can create NH3. Industry is working on making the manufacturing plants smaller and more efficient. It can also be used for fertilizer. That might be a go-to fuel in 80 years. Aaron Nichols: Thank you for coming on, Mike. For everyone listening, that’s been This Week in Solar. This is a public episode. If you would like to discuss this with other subscribers or get access to bonus episodes, visit exactsolar.substack.com

    31 min
  6. Your State-By-State Plug-In Solar Update (Balcony Solar)

    Jun 12

    Your State-By-State Plug-In Solar Update (Balcony Solar)

    Plug-in solar is sweeping the nation. What started as a fringe, under-the-radar DIY movement (look up “guerrilla solar”) will soon be a legally protected appliance class across the United States. Curious where your state stands on legalizing anyone’s right to harvest sunlight? Read on. Listen to this episode on: * YouTube * Apple Podcasts * Spotify If you’ve gotten some value out of this week in solar, please consider subscribing (for free) so we can continue to bring you more! When it comes to plug-in solar, states have wildly different attitudes. A few have made moves to eliminate utility red tape, while others have killed bills under heavy pressure from utility and labor monopolies. States where legislation has passed Five states have officially signed plug-in solar bills into law. These are: * Utah: The pioneer that started the movement when they signed their 1,200W limit into law in March 2025. * Maine & Virginia: Both signed their respective 1,200W limit bills into law in April 2026. * Colorado: Signed into law on May 7, 2026. HB 26-1007 sets the national high-water mark with a 1,920W limit and explicitly stops HOAs from interfering with homeowners’ rights to put a few solar panels on their property. * Maryland: Signed into law on May 12, 2026. HB 1532 is unique because it specifically exempts smaller systems under 391W from needing UL certification or building code alterations. * Connecticut: HB 5340 passed both chambers on June 4th States where legislation is advancing These states have active, moving legislation. * Awaiting Signature: New York, New Hampshire, and Vermont. * Active in Chambers: Illinois (SB 3104 successfully advanced out of committee), California, Massachusetts, Hawaii, Delaware, North Carolina, Oklahoma, and Washington, D.C. States where legislation’s been killed stone dead Utility pushback, union opposition, and legislative gridlock effectively stalled progress in 11 states for the 2026 session. * The Casualties: Washington (the plug-in solar exemption was explicitly stripped from a broader energy bill before passage), New Jersey, Pennsylvania, Wyoming, Indiana, Missouri, Arizona, New Mexico, Oregon, Georgia, and Idaho. Opponents in these states largely cited fire risks and technical interconnection concerns, causing bills to either fail a floor vote or die in committee. Sponsors in these states are forced to regroup for 2027. States with no Legislation 16 states remain entirely without explicit legislation. Utilities in these states continue to apply outdated, heavy-handed interconnection rules designed for massive rooftop arrays to simple 120V plug-in systems. * The Holdouts: Alabama, Arkansas, Florida, Kansas, Kentucky, Louisiana, Mississippi, Montana, Nebraska, Nevada, North Dakota, South Dakota, Tennessee, Texas, West Virginia, and Wisconsin. Sources: https://pluginsolarguide.com/ https://www.brightsaver.org/legislation-tracker/ https://pluginsolarusa.com/ https://www.reddit.com/r/pluginsolarusa/ This is a public episode. If you would like to discuss this with other subscribers or get access to bonus episodes, visit exactsolar.substack.com

    4 min
  7. Dr. Janette Freeman: Why Aren't We Recycling More Solar Panels?

    Jun 10

    Dr. Janette Freeman: Why Aren't We Recycling More Solar Panels?

    Aaron talks with Dr. Janette Freeman, VP of Business Development at Fabtech and a leading expert in the circular economy for solar. Janette is a former minister and mindfulness coach who transitioned into renewable energy to help solve the issue of solar waste. Listen to this episode on: * YouTube * Apple Podcasts * Spotify Connect with Janette on LinkedIn here. If you feel you’ve gotten some value out of this week in solar, go ahead and give us your email so we can continue sending you more solar news! Expect to learn: * Why it currently costs $15–$16 to recycle a panel versus $1 to landfill it (and why that gap is closing fast). * The difference between metal stripping (solar recycling level 1) and the advanced separation of glass, copper, and silver (advanced solar recycling). * How the solar industry ended up being the first industry in history to impose recycling standards on itself (before being forced by legislation). Quotes from the episode: “Clean energy has to take care of their circularity and the end-of-life panels. We can’t be in clean energy and add to a problem on the other side of it.” — Dr. Janette Freeman “What I would hope is that within 80 years, human beings evolve enough to handle this kind of technology... that will determine if we actually still have a planet that’s inhabitable and we can live on.” — Dr. Janette Freeman Transcript Aaron Nichols: Janette, why aren’t more solar panels recycled when they reach the end of their useful lives? Dr. Janette Freeman: Basically, the main reason is cost, because it costs to recycle solar panels. And sometimes that is a sticker shock for a lot of customers and companies. Because we’re a new industry, and because waste in solar panels is new, people don’t know about it. The infrastructure for recycling centers is just building because it’s not a typical recycling product to recycle. In 10 years that won’t be the case. There will be more of an infrastructure, more education, and more companies that are budgeting in advance for the cost of recycling. Aaron Nichols: So at the moment, it’s more of a problem of incentives than anything else. We just haven’t lined up the incentives correctly for everyone to make it happen. Dr. Janette Freeman: I think you could say it like that. Everyone always takes action based on certain incentives, right? But I don’t like that to sound like, unless there’s all kinds of handouts and financial incentives, then it’s not gonna happen. There’s a lot of incentives. One major incentive is a company’s social governance. It’s part of their social influence. They don’t want their company to be known as filling the local landfills with the solar panels that are providing power in the communities. Aaron Nichols: And we’ll get to that. I know that you mentioned that social norms are a very powerful motivator when people are talking about a company and what they’re doing or what they’re not doing. We’ll get to that down the line, but for anyone who’s listening, welcome back to This Week in Solar. I am your host, Aaron Nichols, the research and policy specialist here at Exact Solar in Newtown, Pennsylvania. And my guest today is Dr. Janette Freeman. I know you’re at Fabtech—I forgot your title. Would you please introduce yourself and talk about your day-to-day life at Fabtech? Dr. Janette Freeman: Thanks so much for having me on, Aaron. So my name is Janette Freeman and my title is VP of Business Development. To give a little bit of history, Fabtech’s been around over 25 years. We started out in the refurbishing of electronics, from cell phones to all kinds of different things. Then we got into solar panels about 15 years ago. About six years ago, they brought me on. Fabtech is a family company, basically. My brother-in-law and sister started it. They had been in the salvage market, not really in renewable energy. They brought me on to really build relationships in the renewable industry space so that we could get those used solar panels off solar farms in large quantities. It didn’t take long for me to realize that reuse is only one part of the puzzle; recycling is a very key part of that circularity. Aaron Nichols: And what were you doing before? I know there was a quick sidebar there. What did your brother-in-law and sister pull you away from? Dr. Janette Freeman: For about 20 years before that, I was actually a minister in churches. I founded and served new thought ministries. I also did coaching on the side and had written three books. My work was working with people with their personal mindset and deeper spirituality. I was an expert in mindfulness and meditation training. After I had gotten out of nonprofits, I was teaching in psychiatry with mindfulness and behavioral management. I was craving something brand new. I just said to my sister one day, I wonder if there’s anywhere where my particular skill set will meet your growing needs. It’s been great fun; it fills my need to do something with purpose that makes the planet a better place. Aaron Nichols: That is so awesome. I certainly can relate to that. I ended up in this business because I was surfing and trying to figure out what to do with the rest of my life in Ecuador. I had just done some yoga teacher trainings and realized that if I spent the rest of my life deploying clean energy, I could look back and feel like that was a good use of a life. Going back to that purpose angle—even though solar has this green image, a lot of panels end up getting taken down and thrown away far before they need to be replaced. Can you elaborate on why that is? Dr. Janette Freeman: There’s actually a lot of reasons and they’re usually good reasons. In larger commercial rooftop projects, they might come off early because of a roofing issue, a transference of ownership, or technology increases. 10 years ago we had 250-watt panels; now you can put a 650-watt panel on. Those are typically the reasons: decommissioning, repowering, or ownership change. The other reason is breakage from weather incidents. Aaron Nichols: So it’s not always motivated specifically by business reasons. It’s no one’s fault. Dr. Janette Freeman: Right. There’s usually a good reason. Aaron Nichols: So what do we do about it? Where do you guys come in? Dr. Janette Freeman: Reuse is always a priority if panels can be reused. That’s first choice before recycling and definitely before landfill. Reuse comes in when panels can be resold. There’s a big difference; 250-watt panels still work, but we can’t really do anything with them because we can’t resell those. Nowadays, it’s really over 320 watts where there is resale value to cover the labor, testing, and marketing costs. The second choice is recycling. Solar panels are sturdy pieces of equipment made with many different materials that have to be recycled separately. The aluminum frame and junction box come off, then the glass is separated, and then the solar cell is processed to pull out precious materials like silver, copper, and lead. Some metals recyclers just strip the frame and landfill the rest—that is no solution. We want “real recycling” where the entire panel gets recycled. Recycling prices have already come down since I started five years ago. As the price of silver goes up and demand increases, I can see a time where recycling costs very little or is even free. Right now, landfilling might cost $1 or $2 versus $15 or $16 for recycling. That’s why 90% of panels are still being landfilled, which is entirely too high. However, we’re seeing prohibitions. Texas and California have legislation banning solar panels from landfills. Aaron Nichols: That’s really good news. I got into this industry because of the amount of trash I saw while traveling through the developing world. You mentioned social pressure is something you believe will change this. How can we ethically and in a friendly way put the pressure on? Dr. Janette Freeman: Social influence has always been a factor—you don’t want people to see you throwing a plastic bottle in the garbage when there is a recycling bin. In the last five years, I’ve noticed a huge difference in companies making it a policy to recycle. Part of that is driven by the consumer in communities where solar farms are being installed. People don’t want those panels in their local landfills. The industry is actually pushing the industry to do things the right way, which is pretty admirable. Aaron Nichols: It is. I live very close to Kate Collardson, who started solarrecycle.org. She mentioned that we’re the first industry in history to impose recycling upon ourselves before anyone made us do it. Dr. Janette Freeman: Yeah, I was just going to mention that. We were talking at the RE+ conference in September and you were saying that. I was like, “Yay us!” Aaron Nichols: Well, Janette, I ask everyone who comes on this show the same closing question. My grandma turned 80 last year. 80 years means she was born in 1945—a world where clean energy didn’t exist. PV wasn’t invented until 1954. Within her lifetime, solar went from a niche technology to the cheapest power source in the world. What do you think clean energy looks like 80 years from now? Dr. Janette Freeman: I’m going to say a little twist to this. Our technology is increasing exponentially now with AI. What I would hope is that within 80 years, human beings evolve enough to handle this kind of technology. What we see in the world will be directly related to if human beings evolve to think more of the common good versus selfish needs. That will determine if we still have a planet that’s inhabitable. Of course, clean energy then will be the normal way that we have energy. Aaron Nichols: That’s a beautiful vision. Janette, where do you like people to find you online? Dr. Janette Freeman: LinkedIn is the best place—Janette Freeman. And of course, my

    24 min
  8. Is Solar Panel Quality Getting Worse?

    Jun 5

    Is Solar Panel Quality Getting Worse?

    What’s New: Two of the solar industry’s leading independent testing labs, Kiwa PVEL and RETC, just dropped their 2026 solar panel reliability reports. The high-level takeaway is: solar panels are becoming more efficient and delivering higher energy yields than ever before, but their failure rates during extended laboratory stress testing have skyrocketed to historic highs. We don’t say this to scare you; it’s just another reason to work with a reputable, locally owned installer that’s done their research when you’re considering going solar. You can listen to this episode here, or on: * YouTube * Apple Podcasts * Spotify If you’ve learned something from This Week In Solar and you’d like to learn more, drop your email below, and we’ll keep sending you free solar news! Why it Matters: For a high-quality, locally-owned solar installer like Exact Solar, it’s absolutely critical that we can stand behind the promises that we make to home and business owners. Those promises are only as good as the equipment we use to build our systems. We’re brand-agnostic in the systems we build, and we’re always testing new equipment to ensure home and business owners get the best experience. It’s our name on the roof, not the manufacturers’. If the system breaks, we’re the ones who get called to fix it. Most home and business owners only have a vague idea of who manufactured their solar panels, but they know who installed them. Historically, standard certifications kept catastrophic equipment failures from happening on a large scale. But as the market scrambles to meet surging energy demands, manufacturers are cutting corners to save on costs and increase output. We are seeing thinner encapsulant layers, zero-busbar designs, and significantly thinner aluminum frames. Thinner frames and glass mean higher rates of glass breakage and cell cracking when panels are exposed to simulated heavy snow, high winds, and severe hail storms. Let’s look at the numbers coming out of the labs: * 87% of manufacturers evaluated in the Kiwa PVEL Scorecard experienced at least one test failure. * More than 10% of the tested module samples failed during the intensive 2,000-hour damp heat test (this means that layers separated and moisture crept in). * Not a single solar panel model managed to achieve “Top Performer” status across every single test category for the first time in history. How to Find The Top Performing Panels: If you’re interested in going solar, here’s how to make sure you’ll own a system that’s built to last. If you are working with a well-established, locally owned, reputable installer, ask them what equipment they have worked with extensively and like. They have years of experience and will help you find the equipment that works best in your area, for your unique climate. If you want something to cross-reference with, these five brands earned high honors as both a Kiwa PVEL “Top Performer” and an RETC “Overall Highest Achiever” for 2026: * JinkoSolar * Trina Solar * JA Solar * Qcells * LONGi Solar Sources: Photovoltaic Reliability and Standards Development Latest PV Module Reliability Scorecard shows unsettling uptick in failures RETC solar panel report shows troubling performance issues Latest RETC solar module quality report reveals significant issues 2026 PV Module Index Report The 2026 PV Module Reliability Scorecard This is a public episode. If you would like to discuss this with other subscribers or get access to bonus episodes, visit exactsolar.substack.com

    5 min

About

A weekly look at what's new in solar, brought to you by Exact Solar. Clean energy news, policy updates, and stories that matter. exactsolar.substack.com

You Might Also Like