Maryland Solar Energy Solar Expresss LLC

HOW SOLAR POWER

WORKS WITH THE GRID

GUIDE FOR HOMEOWNERS:

HOW SOLAR PANELS WORK

JOIN THE REVOLUTION

CREATE YOUR OWN POWER

TOP 10 SOLAR MYTHS

DEBUNKED

WHAT IS MEANT

BY SOLAR OFFSET?

SOLAR LEASING vs

SOLAR PURCHASING

HOW SOLAR POWER AND THE GRID WORK TOGETHER

The popularity of producing clean energy with your own solar power system continues to increase. As more people are going solar, utility companies are using programs like net metering to help integrate solar power and the grid. We believe the solar power industry and the electric grid can enjoy mutual benefits through increased energy supply that stabilizes when, where, and how electricity is generated and distributed. When thinking about solar power, it’s helpful to understand how home solar, solar companies, utilities, and the power grid can all work together to better serve the electricity needs of the population.

How Does the Electricity Grid Work?

The day-to-day operations of the electricity grids in the United States are rather straightforward, as utility companies have used the same top-down model for over a century. Here is a breakdown of the process:

* Generation: Big power plants generate power. Step-up transformers increase voltage of power to needed for transmission.

* Transmission: The generated power travels long distances over high-voltage transmission lines.

* Conversion: At local facilities, the high-voltage power flows through step-down transformers to become lower voltage.

* Distribution: Distribution wires carry lower voltage electricity from transformers to homes and businesses in the area.

* Transformation: The transformers on power poles further lower the voltage to consumption level.

* Connection: Electricity enters your home or business via the electricity meter which keeps track of consumption.

The Relationship Between Your Solar Power System and the Electric Grid

Despite what people often think, going solar doesn't necessarily mean you’re going to be off-the-grid. In fact, no conversation about how solar energy works would be complete without discussing the relationship between solar power and the grid. This is because the vast majority of homes that install solar panels still draw power from the grid that the utility companies help operate.

So why does your home need power from the grid after solar panel installation? The simple answer is that remaining connected to the grid allows your home to draw additional power when solar panels can’t generate enough electricity, including nights and cloudy days. At the same time, your home can also push additional power back into the grid when your home doesn’t need all of the electricity being generated, such as in the middle of a sunny day when everyone is away from the house.

For most homes, your residential solar power system will probably be grid-tied, more commonly known as on-the-grid. When grid-tied, your solar panel system is connected to the grid via a bi-directional electricity meter. It measures the excess power you send to the grid when your solar panels produce more than you need, and the amount of energy you pull from the grid when your solar panel system doesn't generate enough.

If you are truly off-grid, you are not connected in any way to the local grid. That means there are no distribution wires from the power line to your home. You are entirely reliant on the electricity your solar panels produce to meet your energy needs, and there’s no backup in case of a power outage or other issue. Off-grid living requires you to take some extra steps to be successfully disconnected from the grid, including generating energy from multiple sources, solar power battery storage, and home design that minimizes excess energy usage.

Net Metering Credits Homes That Add Solar Power To The Grid

A net metering program credits homeowners when they generate electricity and send that excess generation to the grid. If your utility company offers net metering and you participate in the program, every excess kilowatt-hour (kWh) of energy you send to the grid counts as credit towards your future energy consumption.

The more excess power generated and fed to the electricity grid, the more credit you will earn, which will help offset the energy you use when your solar power system doesn't create enough electricity to power your home. Thus, your electricity bill is based on the total electricity you used, relative to the total energy you generated and fed to the grid.

Most people consume more electricity in the morning when getting ready for the day, and in the evening when they get home from work. Net metering ensures you get the most value from the energy generated by your solar power system, especially in the afternoon, which happens to be when you typically consume less electricity.

The excess energy you generate goes to the grid, earning you credit while also helping the grid by reducing electricity demand. Keep in mind that electricity demand is usually highest during the day when most businesses are open, so feeding your surplus energy back to the grid helps meet this increased demand.

Time-of-Use Plans Align Rates with Demand on the Grid

Time-of-use rates allow utility companies to adjust the rate of pay for electricity over the course of the day. When demand goes up, rates go up as well, and when demand drops, homeowners can pay less for the electricity they need.

On a time-of-use rate plan, your photovoltaic (PV) system's excess solar energy generation in the middle of the day is usually less valuable than the power you draw from the grid at night. During peak sun hours, solar-powered homes often add more electricity to the grid than they use, so utility companies don’t want to pay as much for that electricity because of the increased supply.

When the sun goes down, utilities can then charge homeowners more per kWh for the electricity they draw from the grid as demand outpaces supply.

If you live in an area with time-of-use rate structures, you may be able to save more money by storing the excess energy generated by your solar panels during peak sun hours, and then using your solar power storage later in the day when rates are highest. This requires the installation of battery storage as part of your solar power system, which can help you save more money by circumventing the peak utility charges at night.

How Solar Power Helps the Grid

While there is some interaction between solar power and the grid operated by utility companies, it can often seem like they operate independently from each other. However, installing solar panels on your home can actually help the electric grid, so we think that the relationship between solar homes and the electric grid should be strengthened.

From helping lower the electricity demand and reducing grid stress to increasing generation, going solar helps support the grid in various ways:

* Solar Power Smooths Out The Grid’s Demand Curve.

The demand curve is how the energy industry describes the increase and decrease in consumer demand for electricity relative to supply in a given day. By adding electricity to the grid with your solar panels, you reduce the peaks of that curve because people can use the energy you generated without the utility companies ramping up their power plants to meet consumer demand. Thus, the grid doesn’t experience massive spikes in demand because solar energy generation is available from grid-tied panels.

* Solar Power Reduces Grid Stress.

When you go solar, you help reduce the amount of electricity that needs to be moved across transmission and distribution lines. Solar energy lowers the stress on the electricity grid because most solar energy stays in the area where it’s generated, and doesn’t need to be transmitted long distances. As a result, the transmission lines get a breather during the hottest parts of the day when demand is highest.

* Solar Power Helps Lower The Cost of Grid Upgrades and Maintenance.

Going solar helps offset the need for spending on both new generation and new transmission infrastructure. When solar power enters the grid (instead of energy from fossil fuels) the reduced grid stress translates into lower operating costs for utility companies thanks to reduced maintenance expenses. The less money the grid needs to spend to fix problems, the less you have to pay on your utility bills over time to cover that expense.

How Solar Energy and the Electricity Grid Don't Get Along

Even with the benefits they provide, many utility companies aren’t excited about the growth in homes with solar power systems. Afraid of losing revenue and influence in the energy industry, the people in charge of the electricity grid have started looking for ways to make going solar more challenging for people. Their perceived problems with the recent growth of solar power and the grid boil down to five factors:

Solar Energy Reduces Income for Utilities.

Homeowners with rooftop solar panels purchase less energy from the grid and pay less to the utility companies. People who participate in net metering programs can sometimes produce enough surplus electricity to offset the majority of their utility bills, so they end up paying almost nothing to their utility company. While this is a good thing for consumers, the environment, and the long-term health of the grid, some utility companies are concerned about how rooftop solar may reduce their potential earnings in the future.

Solar Energy Increases The Fear of Competition.

In many places, the utility company has basically operated as a monopoly for many years, which means they haven’t had to compete in the open market to “win” their customers. Now that solar panels give homeowners an alternative to how they get power, utilities have to compete in ways they’ve never had to in the past. Furthermore, as the cost of solar decreases and efficiency increases, the technology approaches grid parity, which is when solar power costs less than, or equal to, the cost of electricity from conventional fossil fuel sources like coal, oil, and natural gas. The goal of grid parity is to make solar more affordable than fossil fuel power, even without tax credits or other incentives, which would drastically increase the competitiveness of clean energy. This increase in solar installations worries utility companies because they view it as consumers paying less for grid operations. In many places, the utilities are so concerned about consumers becoming power producers that they’re seeking additional restrictions on solar energy production and net metering to prevent that competition.

Solar Energy Doesn't Provide Predictable Generation.

While solar panel systems can generate a lot of electricity and add it to the grid, they can't do so all the time. When the sun isn’t shining, energy production decreases, so there’s no way to just ‘turn on’ more solar energy like you can with fossil fuel electricity generation.

Solar Energy and The Grid are Built Differently.

The current power grid is designed to support electricity transmission that starts at large power plants and gets distributed out to consumers. Compared to the grid’s top-down model, solar panels are designed to work using a distributed model. Distributed generation focuses on electricity production at or near where it will be used, with a big focus on the electricity created by photovoltaics. While energy from solar panels can be fed to the electric grid to support clean power and reliable delivery, the current grid configuration needs some improvement for the two distribution infrastructures to work seamlessly together.

Solar Energy Uses the Grid Without Paying for It.

On a grid-tied system, homeowners with rooftop solar panels generate the electricity they need, feed the surplus to the grid, and only turn to the grid when their systems aren't generating enough to meet their needs. Utility companies feel they need to be allowed to recover the costs associated with maintaining the grid infrastructure that solar-powered homeowners stay connected to, even if they don’t pull power from it all the time. Solar Express feels that no customer wanting to go solar and participate in net metering should be penalized. Solar energy helps the planet by reducing our reliance on fossil fuels, and home solar plays a big role in easing pressure on the aging grid by lowering overall electricity demand.

How the Utility Grid and Solar Energy Companies Can Work Together

The world is getting more focused on using renewable energy sources for a pollution-free planet, but the grid is not yet ready to fully integrate renewable energy technologies. A significant upgrade is necessary for that to happen, and can be made easier if solar companies and utility companies join hands. The utility companies should be ready to accept that the time for a change is here, and look for ways to upgrade the current top-down system to support distributed generation. This new smart grid has the potential to benefit solar homeowners, utility companies, and the grid at the same time, but only if everyone works together for the greater good. Embracing distributed generation, focusing on increasing solar generation, and investing in solar technologies are some of the things the utilities should consider implementing to help solar power and the grid work together.

Focus on Increasing Solar Generation

The aging US electricity grid already struggles to meet the rising energy demands of modern homes filled with electricity-powered devices. With consumption increasing by the day, a shift to renewable energy to address that additional demand is more viable and timely. Instead of seeing solar companies as competitors, utility companies should start seeing how they can empower them to produce more clean energy in the future.

Embrace Distributed Energy Generation

Utility companies feel disadvantaged by the growth of solar technologies. Both the current regulations and the new ones they seek are a major blow to increasing and improving clean energy generation. Instead of ignoring the benefits of solar energy and its growing popularity, utility companies should adapt by creating a conducive environment for their counterparts, working together to create and distribute the electricity that we all need.

Invest in Solar Technology

Renewable energy sources like solar panels are the wave of the future, and that won’t change any time soon. For that reason alone, utilities need to think of ways to be part of the trend, instead of working against it. This starts with efforts like developing utility-scale solar, increasing net metering options, and improving the grid to allow for better distributed energy generation. Utility companies can also invest in solar companies and solar technologies, setting themselves up to share in the success of this clean energy revolution, instead of just seeing those companies as competition.

Key Takeaways

Solar power is a key element of the greater renewable energy movement that’s helping to mitigate climate change. While solar companies work tirelessly to develop better solar technologies, utility companies can take steps to work with, and adapt to this new norm. Programs like net metering and time-of-use rates are helping solar power and the grid work better together, but more can be done to adapt to the needs of solar-powered homes. Solar power helps the grid in many different ways, such as smoothing out the demand curve, reducing grid stress, and lowering the cost of grid upgrades and maintenance. Grid operators need to find ways to keep up with modern solar technologies to better serve the electricity needs of the population. People want to go solar, and utility companies should be proactive to this trend, not reactive or combative. If you are interested in going solar to lower your utility bills and help the electricity grid, Solar Express can help you achieve those goals. Our experts will analyze your home’s energy needs, recommend the best solar energy system for you, and guide you through the entire installation process from start to finish.

HOMEOWNERS GUIDE:

HOW SOLAR PANELS WORK

Solar panels’ dominance on rooftops across America is only getting stronger, but the technology behind them can seem complex and confusing. To help you make a more informed decision, we put together this guide breaking down the science, benefits and practicalities of solar panels and how they work on your home.

What’s Solar Energy?

Solar energy is heat and light from the sun. It’s a clean, renewable energy source that can be converted into electricity using various technologies, with solar electric panels being among the most prevalent. By reducing dependence on grid electricity, rooftop solar energy can stabilize, and even slash, the typical homeowner’s energy costs.

How Do Solar Panels Work?

At the heart of solar panels is something called the photovoltaic (PV) effect. At a high level, here’s how it works:

* Inside the panels are special materials called semiconductors. When the sun’s rays hit the solar panel, they transfer their energy to atoms in the semiconductor.

* This solar energy knocks electrons — tiny negative particles of energy — loose from the atoms, setting them in motion. As sunshine keeps striking the solar panel, more and more electrons get knocked free, creating a flow of electricity.

* To make this flow of electricity move in a particular direction, the semiconductor material is treated with special chemicals to create an electric field with a positive and negative side. The loose electrons naturally want to move to the positive side.

* Metal plates on the solar panels collect and channel the freed electrons moving through the semiconductor. The electrons then flow out of the solar panel as direct current (DC) electricity, which a solar inverter then converts to the alternating current (AC) electricity required to power the average home.

What Makes Up a Solar System?

A typical home solar system contains the following components: Solar Panels, Racking Utility, Solar Meters Solar Inverter.

Solar Panels

Also known as photovoltaic (PV) panels or modules, solar panels are made of silicon cells covered in glass. We’re only talking about PV technology, not solar thermal systems that absorb sunlight to use in residential heating applications like hot water and swimming pools.

There are two types of PV panels — monocrystalline and polycrystalline. Monocrystalline is more efficient at converting sunlight into electricity, and it’s what we offer our customers at Solar Express.

Individual solar panels are called modules; these are lines of PV cells connected in a series to produce a higher voltage. When modules are wired together in a chain, they form a panel. A group of panels on your roof or ground-mounted in your yard is called an array.

Solar Panel Racking

The solar panel mounting system (also known as racking) is what attaches the panels to your roof. While your racking configuration depends on the type of roof you have, some of the more common profiles include:

* Shingle Roof Mounting. Installing on these roofs generally requires flashing attachments that mechanically fasten the array beneath the shingles.

* Flat-Top Roof Mounting. This type of roof utilizes a ballasted or hybrid mount system to secure the solar panels, and often doesn’t require penetration to install.

* Metal or Corrugated Roof Mounting. This roof type typically requires penetration to fasten the panels. Anchoring options include an “L-foot” bolt, or clamps that fasten to the metal ribs of the roof.

Some installers may even offer solar mounting options that attach directly to your roof, which are usually faster to install and more aesthetically pleasing.

Reputable installers will take great care in sealing the area around your racking equipment to prevent leaks and should also provide you with a warranty that covers leakage.

Utility & Solar Meters

You’re likely familiar with a traditional electric meter, which your utility uses to measure your energy usage for the month.

But when you go solar, your utility may need to either replace your traditional meter or add a second dual-direction meter that measures how much solar power you produce and send back to the grid.

This also helps the utility determine how much to credit you, if a net metering or similar program is offered in your region.

Solar Inverters The solar inverter is what converts DC electricity from your panels into AC electricity that your home can use. There are three main types of solar inverters:

* String inverter. The oldest and typically most inexpensive option, this type of inverter is installed at ground level. All the solar panels are connected to a string inverter and to each other, meaning if a single panel fails, it will likely cause the other connected panels to underperform.

* Microinverter. Offering the latest technology and ideal for more complex solar installations, microinverters are installed behind each solar panel or integrated into the solar panel directly. This means each panel operates independently, and if one fails, it will only have a minimized impact on the overall system.

* String inverter with DC optimizer. These are a hybrid between microinverters and string inverters. Each panel is connected to a DC optimizer that runs to a string inverter at ground level, allowing each panel to operate independently.

What Goes into the Cost of Solar Panels?

When determining the cost of solar panels, this encompasses two broad categories — hardware costs and soft costs.

* Hardware costs. This includes all the materials needed to construct the system, such as the module, inverter, racking and wiring.

* Soft costs. This includes the cost of installation labor, permitting, inspection & interconnection fees, supply chain costs, overhead and sales tax.

While solar hardware costs have fallen in recent years, soft costs can make up as much as 65% of the total system cost — primarily due to costs associated with permitting and inspection at both the government and utility levels.

JOIN THE ENERGY REVOLUTION:

CREATE YOUR OWN POWER

Join the Energy Revolution and Create Your Own Power

By producing and storing your own clean power, you can become an active player in the energy transformation.

Energy systems are shifting. For decades, our nation has been powered by large, centralized power plants that produce high-voltage electricity and deliver it to the masses via the electric power grid.

Since the mid-20th century, utility companies have connected their power plants to large transmission systems — allowing them to deliver electricity to customers thousands of miles away, through millions of miles of distribution lines.

But this centralized system is aging, and the grid is becoming increasingly stressed. The crisis in February of 2021 (aka-Texas Blackout) was a prime example of how dangerous a grid failure can be, illustrating that centralized power generation isn't the way to build a resilient electric system as we forge a sustainable future.

A Changing Energy Landscape as We Move Toward Decarbonization

Decarbonization: The process of reducing carbon dioxide emissions in our earth’s atmosphere.

Decarbonization is a much-needed transition to slow the world's advancement toward a dangerous temperature threshold. If we continue burning fossil fuels at the current rate, scientists expect our global temperatures to rise 2°C by 2036, crossing a threshold that will harm all sectors of civilization: food, water, land, health, energy, national security, and economic prosperity.

To stay below this critical threshold, there is a global push toward decarbonizing our planet by accelerating the transition to renewable energy. The traditional, centralized production of coal and oil is no longer the future of energy. The quickest path to decarbonization is by creating a decentralized energy system that involves local power generation via solar, battery backup, electric vehicles and more. Not only does producing clean power on a smaller scale (closer to the point of use) help us hit renewable targets, but it also reduces distribution losses and improves power reliability.

How Solar Express is Leading the Energy Transition

We can't drop dirty fossil fuels overnight. Decarbonization is an energy transition that involves a paradigm shift — one that we're proud to be a part of. At Solar Express, we're leading a transformation in the way people use and source energy. This shift, driven by groundbreaking innovation and technological change, empowers homeowners to create and store their own clean energy.

Through solar + battery storage, residents can not only protect themselves and their loved ones against grid failure, but they also can pave the path toward decarbonization and climate resiliency. Solar and battery storage doesn't just benefit homeowners; it benefits society.

Decentralized Energy Systems Improve Safety and Well-Being

Abrupt shifts in the balance between supply and demand can overburden the electric grid without warning, leaving residents in a frustrating and potentially dangerous situation. Home storage systems can help adjust energy delivery to satisfy demand. During a severe weather event or a hot summer night, residents with solar plus storage can tap into the energy from their backup batteries rather than relying on the electric grid for power. This alleviates strain on the grid and frees up energy for other customers.

Home solar + storage systems can also reduce the burden on first responders. Think back to the deep freezes, where medically vulnerable residents were left without power to keep necessary medications refrigerated and medical devices plugged in. In these cases, battery backup power can help prevent a medical emergency by enabling electronic equipment to remain on, while keeping food fresh and safe to protect the most vulnerable.

The Age of the "Prosumer"

Today's electricity consumer is different than in years past. We've evolved into "prosumers," both consuming and producing energy, which makes us more active players in the energy transition.* With home solar systems, we can use the energy we produce on-site and then sell excess energy back to the grid where available, illustrating how the energy system is no longer a linear model.

With energy storage systems, homeowners are empowered to generate and store the backup power for their own energy needs. Digital technologies like energy meters and smart thermostats offer consumers a better understanding of their usage patterns while allowing them more control over how they use electricity. As these technologies advance, they're becoming more affordable to the average homeowner.

At Solar Express, we're developing smarter ways to help customers enjoy the benefits of a truly independent home by integrating the use of solar, battery storage and energy management technologies. It's becoming more important to produce energy at home instead of relying on a source far away that's subject to failure.

Join the Movement Toward a Brighter Future

As we face more climate chaos, there's a growing need for resiliency. Smarter, clean technologies that offer new ways to produce and manage energy at home are becoming more widespread. As the market shifts to an increasingly decentralized model, homeowners are invited to join the movement.

By embracing solar energy, battery backup and smart technology, you can become an active player in the energy revolution — and enjoy the freedom to live life uninterrupted.

TOP 10 SOLAR

MYTHS - DEBUNKED

The demand for renewable forms of energy is on the rise in order to lessen the effects of global warming our environment faces due to increased pollution. We are surrounded by a plethora of renewable energies, especially solar energy, which has the potential to be used year round.

Although this is true, there is still skepticism surrounding the benefits gained from solar energy. It is time to remove that skepticism of solar energy and improve the future outlook for it.

Myth 1: Solar panels do not work in cold snowy weather or when it is cloudy.

Fact: Solar panels work in sunny, cold, and even cloudy environments. The technologies of solar panels allow them to work effectively and efficiently and are even more effective in cooler temperatures than warmer ones. In addition, cloudy weather does not inhibit the efficiency of solar panels; they can be a viable source of electricity as they can still produce enough power. Even cold, sunny winter days generate a comparable level of electricity to what you would get from hot summer days. Examples of countries where such systems are efficient are Germany (world leader of solar panels), the UK, China and Italy.

Myth 2: Solar energy can still power my home when the power goes out.

Fact: Of course if you are living on the grid when the power goes out, the grid system also goes out as it is dangerous to run electricity to wires that electricity workers are trying to fix. As a result, your inverter knows that the grid has been shut off and shuts off the electricity generation that is driven from solar panels.

Myth 3: Solar energy is too costly and is not economically viable.

Fact: Actually, if we look at figures from 2009 to 2015, investments in solar panels have generally been on the rise as they are becoming more affordable. Their average costs have fallen by about 30% percent. Globally, it is actually cheaper to produce electricity from solar energy than it is from coal. Solar energy is one of the most cost-effective ways to power your home. With the demand for renewable energy on the rise, it’s time to consider solar as a viable option. Get up to 3 domestic solar panel quotes and see the savings for yourself.

Myth 4: Installing solar is quite complicated and requires a lot of maintenance.

Fact: Actually, solar panel installation is relatively straightforward as long as you are using a reliable manufacturer. Ideally, if your system is connected to your utility grid, which is common among electricity systems, then it makes solar panels easier to maintain. The solar panels would just need to be cleaned with water to remove any accumulated dust or debris or snow that has been trapped on them. Solar panels are constructed in a way that allows them to withstand harsh weather, including hail, sleet, etc. If you have a battery based system, it will need more cleaning than one without, but systems without batteries are more common and are cheaper than those that have battery systems.

Myth 5: Solar panels will cause damage to your roof.

Fact: Solar panels actually benefit the portion of the roof they cover by protecting and preserving it. In the unlikely event that the roof the panels are sitting on is damaged and needs to be repaired, the panel can be easily removed since they aren’t directly attached to the roof; they are just mounted on top of it. Usually, if there are any gaps between the rooftop and the panels, sealant is used to fill in the gaps. In addition, the mounts are protected using a metal “flashing” or coverings for an extra barrier for protection. Always remember to make sure your roof is damage-free before mounting a new roof top.

Myth 6: Excess energy can be stored in battery systems.

Fact: If you are living on the grid, your system is connected to the electricity grid, thus you would benefit from a net metering system. Additionally, if you are connected to the grid, you are still able to keep your current local utility company, so if you produce more electricity on some days, you end up having more electricity credited to your own account. Therefore, if you need more electricity at night when the system isn’t running, you end up using the extra electricity produced to power your home directly from the grid. This is done automatically so you won’t notice any changes when the switch occurs whilst still have a low electricity bill.

Myth 7: Reselling your home will be harder with solar panels.

Fact: Actually, solar panels would enhance the property value of your home. Many studies have found that homes with solar panels actually sell faster than homes without solar panels. Although the cost of solar panels ranges, you end up saving on a long term basis as they enhance your home’s value by as much as $15,000 on average, but this is completely dependent on how much it will be worth.

Myth 8: Solar panel prices are based on the size of your home.

Fact: Solar panels are designed to fit the specific needs of each homeowner. When determining the cost of installing solar panels, special attention is paid to the orientation and slope of your home’s roof. In addition, the surrounding area of the roof is considered when building to make sure it is positioned in an area that has easy access to sunlight and is not obstructed by surrounding trees or buildings.

Myth 9: If we can use clean coal, why invest in solar energy?

Fact:Solar power is a cleaner form of energy than “clean coal” because coal isn’t really clean. Coal is one of the dirtiest fossil fuels. Coal mining is responsible for a number of health problems due to the blasting of mountaintops and leaving a pond of black slurry in its path. The more coal we burn, the more damage we do to the environment as it increases the levels of mercury and smog and additionally increases carbon pollution, leading to more damaging effects in the environment.

Myth 10: Solar panels are bad for the environment after their lifetime is used up.

Fact: Actually, solar panels are built to reach a maximum lifetime use of 25 years, after which they can be recycled. This all depends on the manufacturer you use to install your solar panels, but knowing whether they will be recycled is a bit tricky as most solar panels are still working optimally. Additionally, some manufacturers will even recycle them for you free of charge.

WHAT IS SOLAR OFFSET?

One of the biggest reasons most people install solar panels on their homes is to save money. Solar offset measures the amount of energy you produce, compared to the amount of energy you consume. You might assume that offsetting 100% of your energy needs with solar power is the way to maximize your savings, but it’s more complicated than that.

When you use electricity from your solar energy system instead of the electric grid, you cut down on your monthly electricity bill from the utility. However, there are times when you produce more electricity than you need. There are other times when the amount of energy your solar panels create is less than the amount of energy you currently need to use. When measured over a year, these competing amounts of electricity from both your solar panels and the grid introduces a concept called solar offset.

This article will explain what solar offset means, how to calculate it for yourself, what the ideal solar offset is, and how to use the concept to lower your monthly energy expenses.

Solar Offset Definition

Solar offset is a measurement of the yearly difference between the amount of electricity generated by your solar panels, and the amount of electricity your home uses. It’s typically expressed as a percentage.

In a perfect scenario, your home would use the same amount of electricity as your solar panels generate, but realistically, it’s never going to be exactly 100%. However, you can still design a system that gets as close to 100% as possible, based on your historic energy consumption habits.

Consider this more likely scenario:

* For some months (usually in the winter), your home uses more electricity than your solar panels generate. This means you have to draw power from the electric grid.

* In other months (usually in the summer), you generate excess solar energy that your home can’t use. You can either send that electricity back to the electric grid or store it in solar batteries.

Thus, solar offset is a way to measure this imbalance so you can have a better idea of what your electricity production and consumption might be.

How to Calculate Solar Energy Offset

The basic equation is simple:

Amount of Yearly Solar Electricity Generated in Kilowatt-Hours (kWh) / Amount of Yearly Electricity Consumed in Kilowatt-Hours (kWh) = Solar Energy Offset.

Once you do this calculation, you can convert the answer into a percentage by multiplying it by 100. For example: 1 = 100%, .5 = 50%, and 1.5 = 150%.

Stated another way, the “perfect” solar energy offset is 1, or 100%. As in, your home used the same amount of electricity over a year as your solar panels generated.

Here is an example:

* Your solar panels generated 9,420 kilowatt-hours (kWh) of electricity in a year.

* Your home used 8,640 kWh in a year.

* 9,420 kWh / 8,640 kWh = A solar offset of 1.090, or 109%.

It’s easy to do those calculations with historical information. If you already have solar panels installed, you know how much electricity usage your home used and how much electricity your solar panels generated. The tricky part comes when you don’t have solar panels on your roof and want to predict how many solar panels you need to install to achieve a desired solar offset.

How Much Solar Power Offset Do I Need?

Homeowners often want to install enough solar panels to lower their utility bills as much as possible. You might think that by designing a solar power system with a solar power offset of 100%, you could eliminate your electric bill from the utility (aside from charges like fixed fees that you will always pay to remain connected to the grid).

However, because of the way that net metering works in many areas, offset solar of 100% could still mean that you owe the utility for some of the power that you used. Because solar offset measures the balance of production and consumption over a year, it doesn’t take into account the amount you pay for power from the utility or the amount of credit you get for net metering.

To simplify this explanation, imagine that you need 20 units of electricity each month, and there are only 2 seasons: winter and summer.

In the summer months, sunny days mean that your solar panels generate 30 units of electricity. Since you only need 20 units, you can give the extra 10 units back to the grid and get credit for them. However, the grid might only credit you at a 50% rate, so the 10 units you give back earn you only 5 credits.

In the winter months, the darker days mean that your solar panels only generate 10 units of electricity. You have 5 credits per month from the summer, and you generate 10 units (for a total of 15 units) but you still need 20 units. Therefore, you still have to buy 5 units from the utility.

Your solar offset is 100% because you consumed 240 units (12 months x 20 units) and you produced 240 units ((6 months x 10 units) + (6 months x 30 units)). However, you still had to buy 30 units from the utility (6 months x 5 units) to meet your needs.

As a result, we sometimes recommend a solar offset that is more than 100% to maximize savings. In some cases, we may recommend a solar offset that is less than 100% because this will allow you to save more money overall. It all depends on the cost of solar, the net metering policy of your local utility company, and other factors.

Factors That Impact Solar Panel Offset

When estimating solar panel offset, it can be difficult to predict an exact percentage, because you are using historical data and assumptions about the future. These estimates can be impacted by a variety of factors:

* Roof Size: The size of your roof can limit the number of panels that can be installed.

* Solar Seasonality: The amount of sunlight your roof receives during the year can limit how much electricity your panels can generate.

* Utility Regulations: Utilities can restrict the amount of offset a system is designed to provide.

* Battery Storage: If you can save your excess solar generation from the daytime, you can use that electricity at night when your solar panels aren’t producing power, which changes how you use net metering.

It can also be difficult to achieve a desired solar offset, depending on how much energy you use and how much you can potentially produce. Let’s examine these factors in closer detail:

Roof Size and Type

If you have a home with a flat roof, you likely have less space for solar panels than a home with a pitched roof that has more surface area for installing more solar panels at the optimum angle. If your roof doesn't have enough space for the solar panels you’d need to reach your desired solar offset, you may need to pursue other options like solar batteries in hopes of storing your excess power generation.

Amount of Sunlight and Seasonality

Your solar panels won't provide energy for you at night or on a cloudy day. As the seasons change, the amount of sunlight your panels receive will change as well. As a result, the weather can either limit or boost the amount of electricity your solar panels can produce. That change depends on where you live and can have an impact on your yearly solar offset.

Utility Company Regulations

The maximum offset of your solar energy system could be restricted by your local utility company. Each utility company has a different set of rules for what will work safely on their network. Unfortunately, you don’t have many options if your utility provider doesn’t let you achieve your desired solar offset.

Power Storage Options

Unless you turn off your entire home, you will still use energy at night, and solar panels don't create electricity in the dark. You can use net metering credits to cover that energy usage, but as we discussed, the net metering policy of your local utility company could mean that the credits don’t cover all of your expected needs. Another option is storing your excess power because you get almost a 1-to-1 rate of power in to power out. (There is some loss from the system, but it’s minimal.) The amount of power storage you need depends on your solar offset: The lower the offset, the more energy storage you’ll need to cover the difference.

Energy Consumption Habits

Your household electricity usage changes based on things like climate, weather, use of appliances and lights, and the time of day. While you can’t control how much electricity your panels generate, you can control how much you use, so limiting your energy consumption can make it easier for your electricity production to cover your needs.

Solar Offset Is an Important Design Decision

It’s essential to consider solar offset when planning and designing your solar installation. Depending on things like your net metering rate and future energy needs, you may maximize your overall savings by having a solar offset that’s more than 100%, and sometimes you might even be better off with a solar offset of less than 100%.

You want your solar panels to take care of a majority of your home’s energy usage, but even with 100% solar offset, you might still have to buy electricity from the utility company. Depending upon certain factors, you might be able to install a system that fully meets your energy needs. You also might need add-ons like energy storage to power your home at night when solar panels don’t create electricity to maximize your savings.

Achieving the correct offset for solar requires a careful combination of solar system size, net metering considerations, battery storage, and other factors. It also requires homeowners to control their usage carefully through energy-efficient habits and behaviors, smart appliances, efficient lighting, and other means.

If you're ready to install solar panels to help offset your energy costs and switch to clean, renewable energy, you can get started by contacting Solar Express (to see how much you can save by going solar).

SOLAR LEASING

SOLAR PURCHASING

Once you’ve decided to install a home solar panel system on your roof, it’s time to decide how you want to pay for it. You have three options to enjoy solar energy and lower your electricity costs: solar leasing, buy your panels, or sign a Power Purchase Agreement (PPA).

Each method provides you with different benefits and drawbacks for your solar power system, especially in terms of financial goals, responsibilities, and ownership. To truly determine which one is right for your home and budget, you need to understand the difference between solar leasing and buying solar panels.

What Is Solar Leasing?

A solar lease is a financial arrangement where the company that installs your solar panel system retains ownership, and you pay a fixed monthly amount to use the system and receive any electricity it produces.

You'll make a monthly payment for the duration of your lease, and the solar installer is fully responsible for installation and maintenance. With this arrangement, you typically don’t pay any upfront costs for the residential solar installation, only the subsequent monthly "rent."

What Is a Solar PPA?

A Solar Power Purchase Agreement, or PPA, is a financial arrangement where you pay your solar company a fixed price per kilowatt-hour (kWh) for the power generated by the solar panels on your roof.

A solar PPA is nearly identical to a solar lease, but with this arrangement, the contract you sign sets a fixed price per kWh, usually lower than what the local utility company charges. With a PPA, the solar leasing companies are fully responsible for the installation and maintenance costs, and you typically don’t pay any upfront fees.

What Are the Differences Between a Solar Lease and a Solar PPA?

A solar lease and solar PPA are fundamentally the same product. You enter into a contract with a solar company to have them install a solar energy system on your roof, and you get to use the solar power that the system generates in your home, while they retain ownership.

The difference between a solar PPA vs lease largely depends on how you pay the solar company for that power:

* Solar Lease - You pay a fixed monthly "rent" to the company for the duration of the lease, regardless of how much electricity you use.

* Solar PPA - You pay a fixed rate for the amount of electricity you use, which can vary from month to month.

Should I Buy or Lease Solar Panels?

The decision over whether to purchase or lease solar often comes down to your current financial situation and long-term housing plans. Buying vs leasing solar panels are both ideal options in different situations, so you should thoroughly examine the pros and cons of leasing vs buying solar panels to determine which is right for your needs.

Solar leasing might be perfect for homeowners who can budget for a flat monthly fee, but they don’t have the money on hand to buy the system outright, or can’t secure the loan. For other homeowners, buying a solar energy system outright or through a solar loan may be more suitable, especially if you’re looking to enhance the long-term value of your home for a future sale.

The Advantages of Buying Solar

Whether you're buying your solar panels upfront or financing your system over several years, there are many reasons to choose ownership:

* Higher Long-Term Savings

A big reason for buying solar vs leasing is that buying your solar panels outright ensures significant long-term savings. Your solar panel system typically generates electricity for 25+ years, which helps lower your energy usage and reduce your electrical energy bills.

If you pay cash, you pay for the solar panel system immediately, and there are no future recurring monthly payments to make. If you finance, you have monthly payments, but you should still save money each month, and once you pay off the loan, all of the additional savings go right into your pocket.

Whether you buy the panels or get a loan, you will typically reach a point in 7 to 10 years where the amount of money you have saved equals the amount of money you paid for the panels. This is known as the solar payback period. Once you clear this period, you should start to see even greater savings on your monthly energy costs than ever before.

If you choose to lease or sign a PPA, your total savings will likely be more modest, as you will still pay the solar installer every month of your lease period, with no breaks or end date. Additionally, many leases and PPAs contain an escalator clause that can annually increase your monthly payments over the life of the agreement, which is usually 20 years, and sometimes longer.

* Easier to Sell Your Home

When you own a solar panel system outright, it’s completely yours. That makes it easier to sell your home - often for more money than if you didn’t have solar panels. That’s a reason many homeowners prefer buying vs leasing a solar system.

While you can still sell your home if you sign a solar lease or PPA, your contract with the solar company can make the process more difficult. Since the solar installer technically owns the panels on your home, they have to be involved in any conversations over the transfer of ownership. You have two primary options for negotiating the terms of your deal:

* Pay off the remainder of your lease/PPA so you own the panels outright

* Convince the potential new owner of your home to take over the lease/PPA agreement

You should discuss the full details of both options with your solar company if you choose a lease or PPA, as the financing of your solar power will play a large part in the process you follow when selling your home.

* Tax Credits and Incentives

When purchasing a solar panel system, you can take advantage of federal tax credits and state tax credits, which can significantly lower the cost of solar panel installation. Moreover, you can take advantage of local incentives such as net metering programs that can help you save even more on electricity. If you lease, the solar installer gets the Federal Solar Tax Credit and any related state incentives because they own the panels. You have to get approval from the solar company to enroll in net metering, and because they own the panels, they reap most of those benefits, not you.

The Disadvantages of Buying Solar

* Maintenance Requirements

When you buy a solar panel system, any monitoring and maintenance are your responsibility. You must keep an eye on your system to ensure it functions well, and if there is an issue, you have to pay to have it fixed. That said, some companies, like Solar Express, offer real-time system monitoring and maintenance plans to help with that process and save money on any solar maintenance needs.

* Higher Upfront Investment

If you want to purchase a solar panel system, you need the necessary funds in your bank account, and even with the federal solar tax credit, the costs can be sizable. If you don’t have the full amount to pay cash, you still have the option of securing a solar loan. Even then, you typically need to be in good financial health to qualify for a solar loan, and unfortunately, that is not the case for everyone.

* More Insurance Coverage Needed

To protect your solar energy system, you may have to increase your property coverage. That can mean higher premiums, which can increase your budget if you aren’t prepared.

The Advantages of Solar Leasing

* No Upfront Cost

One of the big advantages of leasing solar panels vs owning is that the solar installer bears the full cost of installation. Once you accept their terms and conditions, they will install the solar panel system on your roof at little to no upfront cost.

* No Tax Liability Needed

To get value out of the federal solar tax credit, you need to owe federal income tax, so that the amount you owe can be reduced through the credit. If you don’t have enough tax liability to take advantage of the tax credit, leasing solar panels may make more sense, since the solar company can capture the value of that credit, and pass along some of that savings as reduced monthly payments.

* No Maintenance Cost

Since the solar company retains ownership of the entire solar system after installation, they are fully responsible for ongoing monitoring and maintenance costs.

* Lower and Greener Energy Bill

Leasing solar helps you save on your utility bill. When you use clean energy from your solar power system, you draw less power from the electricity grid, which means you're using fewer fossil fuels.

The Disadvantages of Solar Leasing

* Reduced Savings Potential

A big disadvantage of leasing solar panels is the long-term savings opportunity. Since you pay the solar company every month for the length of your lease, you will save money on your energy bills, but it’s typically not as much in the long-term compared to owning the panels yourself.

* Tax Credits and Other Incentives

The solar company enjoys the tax credits and other incentives for installing solar, not you. They may pass along some of that value as lower monthly costs, but they’re still going to keep some of it for themselves.

* No Increase to Your Property Value

Since the solar installer owns the solar panels, your home doesn't get any additional value out of having them on your roof.

* Can Scare Off Potential Home Buyers

Once you enter into an agreement with a leasing company, you will have to involve them in the decision-making process if you decide to sell your house before the lease is up. In most cases, you will have to buy the lease out to make it easier to sell your home, or the person interested in buying the home will have to assume the lease. Some potential buyers will be reluctant to assume the lease, which can increase the amount of time it takes to sell your home.

The Advantages of a Solar PPA

* Little to No Upfront Cost

Once you reach an agreement with the PPA company, they start the installation process without you paying upfront costs. You get to start using renewable energy right away and start saving immediately as well.

* No Need For Tax Liability

Much like a solar lease, a solar PPA may make sense if you can’t get value out of the federal solar tax credit through a reduction in income tax. (For example, if you’re retired and have no income, or are on an annuity.) The company that manages your PPA can get tax credits for your system and can use some of the value of that incentive to reduce your monthly payments.

* Zero Maintenance Costs

The responsibility of maintenance and repair of the solar panel system remains with the installer. They monitor the system and fix any issues, so you can continue to use solar power in your home without worrying about ongoing maintenance

* Reduced and Cleaner Electricity Bill

You will lower your energy bill with a solar PPA. The electricity created by the solar panels means you’re paying less to the utility company to use their electricity. And because solar panels create green energy, you’re using fewer fossil fuels from the electricity grid.

The Disadvantages of a Solar PPA

* Lower Long-Term Savings

You pay for the energy you use from the solar panels for the length of your PPA. While you will save money compared to not having solar panels, the amount you save typically isn’t as much as if the panels were yours, especially once you have passed the solar payback period.

* Long-Term Agreement

Solar PPAs often span the entire length of the lifespan of solar panels, which averages 25 years. During that time, it can be difficult and/or expensive to end your PPA agreement if your plans change. Selling Your House Is More Difficult A solar PPA can make the process of selling your home longer and more complex. This is because you can't just pass over that agreement when selling your house without including the solar company in the decision-making process. Thus, potential buyers may not make an offer on your home if they are unhappy with the terms and conditions set by the solar installer.

* No Tax Credits and Incentives

The solar company gets the tax credits that typically go to the homeowner. Even if they use those tax credits to lower your payments and pass along some of the savings, they’re still going to keep some of it for themselves. This monetary benefit is one of the biggest reasons people go solar, as it can help lower the cost of going solar significantly.

Lease vs Buy? That is the Question Is it better to lease or buy solar panels? When it comes to the decision of leasing vs. buying solar power, you should consider three things: budget, timing, and ownership.

Budget: If you don't have enough money and/or you can’t get a solar loan, then leasing a solar system is a viable option, as you pay little to no upfront cost.

Timing: With any investment you make, you typically expect to achieve something at the end of that process. If your focus is on maximizing the financial benefits of installing solar energy systems and improving your home's value, purchasing a solar panel system is the best option. If you're mostly interested in the environmental benefits and the difference in savings isn't a draw for you, then consider leasing, especially if you have no plans to move.

Ownership: When you lease, the solar installer retains ownership of the system. If you wish to have total control of what happens to the solar panel system, then you must purchase it.

If you’re still not sure whether buying or leasing is right for you, talk to the solar experts at Solar Express to help you evaluate your options and make the right decision.

Leasing Solar Panels vs Buying Solar Panels

The choice between buying vs leasing solar power is something that you have to answer for yourself, based on your own home and budget, and it helps to understand all of your options before making that decision.

Both a solar lease and a solar PPA enter you into a solar contract you must abide by for the duration of the agreement. With a solar lease, you pay a fixed amount every month for the entire lease period, and a solar PPA has you paying a fixed rate per kWh for the electricity you use. In both cases, the solar installer retains ownership of the system and is responsible for monitoring and maintenance.

If you wish to enjoy the full benefits of your solar panel system, including increased savings, higher property values, and greater control, you should consider buying your solar panels outright. You can either buy it in full upfront with a cash purchase or finance it through solar loans.

If you’re thinking about going solar and want to maximize your benefits, then contact Solar Express today. Our experienced solar professionals can walk you through your options, explain the entire process, and take care of all the details on your behalf.

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