Top Ten Solar Myths…Busted
You’ve probably seen solar photovoltaic (PV) panels popping up on rooftops all over Northeast Florida, and wondered whether or not solar really works. There are a number of popular misconceptions about solar power, and often when we speak to prospective clients, they have heard some myths. Coal companies, oil companies, and utilities are more than happy to have their customers keep believing in these myths, and solar companies around the country are working hard to dispel these distortions.
A1A Solar Contracting is the leading solar contractor in our region, with hundreds of happy customers who have experienced first-hand that solar is a fantastic financial decision.
1: My HOA won’t allow solar
Homeowners associations can be a bit scary, for they do wield a great deal of power when it comes to modifying the exterior of your home. They can dictate the length of your grass, the colors you are allowed to use, and what trees you have in your yard. Furthermore, they can place a lien on your home and impose significant fines for non-compliance. For this reason, one of the first questions homeowners always ask is “what about my HOA?”
Homeowners associations are not legally allowed to prevent you from placing solar on your roof, and they know it. In fact, if they take legal action, by federal law, the HOA will be on the hook for your legal fees. The associations are typically very easy to work with when it comes to getting your solar project approved. A1A Solar will handle this process for you, working on your behalf to obtain the HOA letter. We typically avoid placing panels on the front of a home located within a community that has homeowners association; we will do so at the customer’s request, but only if it makes a significant difference in the system’s production.
2: Solar requires a great deal of upkeep and maintenance
PV solar is astonishingly easy to maintain, since there are no moving parts. Solar arrays are built to withstand extreme heat and weather, including hurricanes and hail. The only upkeep required is to keep the panels free of debris and dirt. Typically the panels should be cleaned about once a year. Pollen tends to be the biggest factor in our area, which will accumulate in the spring and decrease panel efficiency.
Cleaning takes almost no time, using a soft-bristle RV brush and a garden hose. If you don’t feel like bothering with the cleaning, you can always call A1A Solar, and we can put you on our cleaning schedule for a small fee.
3: Installation presents a big hassle
Our average install takes only about three days, from start to finish, including the necessary electrical work. We handle all of your permitting with the municipality, the utility company, and the HOA. We schedule our installations in advance, and will work around your schedule to make the install go smoothly.
Installs are hassle free, and our crews are all composed of A1A employees because we do not subcontract any work. This means that you can expect excellent customer service and professionalism at every phase of your installation, from your consultation with a sales representative, to your interactions with our office staff and engineers, to the hard working men and women who will put the panels on your roof.
4: The monthly payments are too high
As soon as your array comes online following your meter-swap, you will notice a huge reduction on your electric bill. This means that while you are making a solar payment, you are only paying a fraction of your previous electric bill. The more panels you have, the greater the percentage of your electricity you will offset with solar.
A solar investment is essentially revenue-neutral during the first seven years, meaning your solar payment is roughly the same as what you are already spending on your electric bill. And as utility rates continue to climb, during the last few years of your finance period, you will likely be paying less with solar. Of course, after your system is paid for, you can look forward to decades worth of electricity for free. Our motto is “why pay for energy, when sunshine is free?”
FPL announced a rate hike that will go into effect on January 1, 2017. By going solar, homeowners can essentially freeze inflation in place, avoiding paying more for electricity in the future.
5: Solar doesn’t work when it’s cloudy
As long as the sun is shining, your solar array is generating power, whether or not it’s cloudy, rainy, or even snowing. UV rays penetrate cloud cover, and hit the panels as long as the sun is up. However, during extensive cloudy days, your system will not harvest as much energy as it will on clear days.
Our engineers use advanced software which includes weather-prediction data for specific areas, and our projections take historic weather patterns into account.
6: Solar is too expensive
When you compare the cost of what you will spend over the next 25 years on electricity with the cost of your PV array, you will see that solar represents a huge financial swing in your favor. The average homeowner will save between $40,000 and $50,000 over the life of a system, and this doesn’t include the significant additional monetary value solar brings to homes.
Prices have dropped over the last decade, efficiencies have increased, and utility rates have gone up. As an investment in your future, solar is far ahead of the stock market, money market accounts, or savings. A typical first year annual percentage yield (APY) is around 7%.
With the 30% Solar Investment Tax Credit, the federal government essentially pays for almost one-third of the cost of your system.
The most important thing to remember is that you are already spending the money on electricity; it’s not an option. Solar allows you to redirect the money you will spend with your utility company and invest it in your home, rather than squandering it every month with nothing to show for it.
7: Solar doesn’t work at night
While it’s true that sunshine is the most important component of a solar array, we sell “grid-tied” systems. This means that during the daytime, after your home’s electric needs are met, you are making more power than you actually use. The utility company will then sell that excess electricity to your neighbors, crediting you for it. At night, when you are no longer making power, you will draw back from the grid.
This process is called net-metering, and being connected to the grid means that no battery systems are necessary, because the extra electricity does not need to be stored.
8: Solar means I will be off the grid
Because most of the systems we sell are “grid-tied,” if the grid goes down, your array goes down with it. This is a safety measure to ensure that if utility workers are out restoring power and working on lines, the excess power your array would generate does not shoot back to the grid and electrocute a lineman. In the event of a power outage, you will not have electricity, and there is an additional safety measure required by the utilities in the form of a manual automatic disconnect switch that we install near your electric meter to make sure that our workers are safe.
If you’d like to have the ability to maintain electricity even when the grid goes down, we offer solutions. We sell battery-back-up systems which store the excess power your array makes during the daytime, and which you can pull from at night. And if there is a power-outage, all of the extra power flows to your battery rather than the grid. During the night, you can draw from your battery, and power most of your home’s needs, with the exception of central air or heat.
We also offer generators which we can install and wire to work seamlessly in conjunction with your PV array and battery; generators are a more affordable option, and make sense for homeowners concerned about short outages during hurricanes, rather than a long-term outage that happens because of a cataclysmic event like war.
9: I should wait for better technology and price drops
Prices have bottomed out, after significant reductions over the last decade. Since 2009, prices have come down 70% according to National Geographic, spurred by the federal tax credit and an influx of panels manufactured overseas. (A1A uses panels made in the United States.)
Soft costs have remained stable, and steadily increased along with inflation: the cost of trucks, install crews, electricians, and overall operating expenses will never go down. While panel efficiencies continue to increase incrementally, the overall price-per watt is highly unlikely to go down significantly in the future. Part of the reason for this is that large corporations and utility companies are building huge large-scale arrays all around the world, reducing supply and increasing the demand for panels.
The technology used in solar panels is mature, and the technology itself has changed little since the 1960s. The materials used have evolved, and the efficiency of panels has gone up, but when comparing those increases with cost of waiting to install solar, the economics of going solar now far outweigh any benefit to be reaped by delaying. Solar works like an investment account, and the sooner you start to save, the more money you will save in the long run.
10: More people would have solar if it made sense
A common remark we hear from clients is “why doesn’t everyone have solar? It seems like a no- brainer.”
Solar is now exploding in North Florida, but we are still lagging behind the rest of the country when it comes to solar production. Despite the fact that Florida is number 4 for solar potential nationwide, we come in at 14 for overall harvest.
There are several reasons for this disparity, but the good news is that we’re gaining ground quickly, and as solar builds momentum, we’re seeing more and more of our neighbors with it.
One reason that more people don’t have solar is that for many years, the payback period was considerably longer than it is today. Now, we have many more financing options which make the payments completely affordable, and allow homeowners to go solar without any out of pocket expenses up front.
Another reason that more people don’t have solar… the myths just addressed in this article! Please help us spread the word that solar is good for the environment and also a great investment.
- A O Smith Residential Electric Water Heater Product Specification Sheet
- A O Smith Residential Electric Water Heater Warranty
- Enphase Energy IQ 6 and IQ 6+ Microinverters Data Sheet
- Enphase M250 Microinverter
- Generac 16/20/22kW Guardian Series Residential Standby Generators Data Sheet
- Generac Power Systems Warranty
- Ironridge Flush Mount Datasheet
- Jinkosolar Eagle PERC 60 Module
- LG Solar Module Warranty
- LG NeON2 Module Data Sheet
- Mission Solar PERC 60 Module Data Sheet
- SolarEdge Single Phase Inverters Specification Sheet
- sonnenBatterie eco – Gen 2 Data Sheet
- SmartFlower Data Sheet
- SmartFlower Warranty
- JA Solar JAP72S01 310-330 1500V Cypress Series Module
Property owners’ rights to employ renewable energy technologies are protected by Florida law, which supersedes any homeowners’ association or deed restrictions.
See how solar may considerably increase the value of your home.
Learn how solar technology helps the environment, both your own and the world’s.
- EPA Carbon Footprint Calculator
- Energy Star Program website
- Website for LEED (Leadership in Energy and Environmental Design)
- US Green Building Council website
General Info Resources
Here’s more helpful information on today’s solar technology.
Solar 101 For Homeowners
Solar 101 For Homeowners
How does solar work?
Shopping for solar can be a daunting process, and the terms that get thrown around can seem intimidating at first. The goal of this guide is to break the process down into layman’s terms. Your best bet is to schedule a personal evaluation with one of our highly trained consultants, but this guide is a good place to start.
Sunlight hits the solar panels, and the photons generate DC current. Inverters convert the current from DC to AC, which is what you use in your home. During peak sun hours, your system typically generates more electricity than what you are using in your home. You will sell this excess back to the grid, and the utility company will credit you for it. Most utility companies in the area net-meter (JEA is the exception), which means they pay you what they charge you for the excess power. At night, your panels are no longer generating electricity, so you will draw from the grid.
During the spring and early fall, a system designed for a full off-set will produce enough electricity to generate credits on your electric bill. The concept is similar to “roll-over minutes.” During the winter and summer, you’ll consume the credits you accrued during the spring and fall.
- Solar panels. We offer a variety of panels, and make recommendations based upon your goals. We offer SunPower, LG, Mission Solar, Canadian Solar, and other brands.
- Inverters. Our standard inverter is the Enphase IQ7Plus microinverter. We do install other inverters depending on the system, but the vast majority of our installs utilize Enphase microinverters.
- Racking system. The racking system attaches your panels to the roof. We engineer for 140 mph winds
- Electrical work. Some systems will require an electric panel upgrade, dependent upon system size and your utility company. A1A Solar is an electrical contractor, and all work is performed by employees.
Benefits of going solar
- Saving Money! The average homeowner will save $30,000-$50,000 over the life of their system. This is money you keep in your pocket, rather than hand over to your utility company.
- Increased property value! Homes with solar sell four times faster, and for more money than homes without solar.
- Energy independence! With solar, you are no longer at their mercy of the utility company, which may increase rates at their sole direction. Add batteries to the system, for real independence.
- Saving the planet! By going solar, you embrace the cleanest energy available in our area. No fossil fuels burned, zero emissions.
Solar energy is not new
Solar energy is not new
Solar energy has grown in popularity in recent years. Yet despite its popularity, we are not new to using solar energy. In fact, people have been using the power of the sun for generations, whether hanging clothes outside for the sun to dry and sanitize them or planting a garden to use the sun’s rays to grow food. But, solar energy has been used in other ways long before modern solar panels were invented.
As early as 7th century B.C. humans used sunlight to light fires with magnifying glass materials. In 3rd century B.C., the Greeks and Romans used mirrors to harness solar power to light torches for religious ceremonies. In the late 1700s and 1800s, sunlight was sometimes used to power ovens for long voyages.
While we have used solar for generations, the power of the sun was mostly ignored in recent centuries with other forms of energy: coal, oil, nuclear, predominating. But the future is in clean energy so A1A Solar was founded in 2010 to provide highly qualified services in the design and installation of solar power plants for homes and businesses.
WHY DO WE DO WHAT WE DO?
The “what” is easy: A1A Solar makes happy customers by delivering solar plus storage solutions to our clients.
The “why?” Is more complicated. Owner Pete Wilking founded this company after serving as a Naval officer. He worked for another solar company in Jacksonville in operations and sales, before deciding he could do it better himself.
Filling a need
Pete believes first and foremost in a business model that makes customers happy. By delivering quality workmanship, the best materials, and excellent customer service, Pete believed that he could establish a company in Jacksonville that met a need. For over ten years, A1A Solar has steadily built a stellar reputation for quality and service.
We believe in the future of renewable energy, and that solar plus storage is an important step toward preserving the planet. The more companies and individuals takesteps to reduce their carbon imprint, the less fossil fuel is burned. Our local utility companies all use a mix of coal and natural gas. Florida Power and Light also uses nuclear energy. The less fossil fuel is burned, the better our environment will be.
The concept of stewardship is integral to the “why.” At A1A Solar, we believe in leaving the world a better place. Our ability to impact the world entire is limited, but we’re working to save it one rooftop at a time.
The ideas of liberty and freedom are wrapped into solar. In Florida, homeowners have no choice in utility companies. This means that depending on where you live, you will pay what the utility company tells you to pay. If the company pushes a rate hike on you, you have no recourse, no freedom to choose another company. The utilities act as monopolies.
The only way to have control over your electric bill is to go solar. We believe that this is a fundamental choice, and an innately American choice to make. We are a nation founded upon the ideals of personal liberty, and self-reliance. Going solar is as American as apple pie, sweet tea, and hot-dogs.
We enjoy providing back-up power for customers who worry what will happen when the grid goes down. We believe that security is important to happiness, and that having solar plus storage is a great way to make people happy.
A1A Solar is very much a part of the Northeast Florida community, creating good jobs for over twenty employees, donating to local charities, and actively engaging with other businesses through the Chamber of Commerce and many other local organizations.
As a small business, we have changed the lives of many for the better, and this, too, is a reason we exist as a company.
Hurricane Fast Facts
Hurricane Fast Facts
Hurricane season begins on June 1st and ends on November 30th. Summer’s hotter climate leads to warmer water which in turn forms hurricanes. Hurricane season , after cooler weather has started to roll in.
How Hurricanes Form
Hurricanes develop during interactions between warm air and warm water and can become the most violent storms on Earth. Also called typhoons or cyclones, the scientific term for all these storms is tropical cyclone. Only tropical cyclones that form over the Atlantic Ocean or eastern Pacific Ocean are called “hurricanes.” When the winds in the rotating storm reach 39 mph, the storm is called a “tropical storm.” And when the wind speeds reach 74 mph, the storm is officially a “tropical cyclone,” or hurricane.
Hurricanes are measured according to a scale known as the Saffir-Simpson Hurricane Scale. This scale gives hurricanes a classification based on the average wind speed of the hurricane:
- Category 1 hurricanes have a wind speed of 74-95 mph
Category 1 hurricanes may be the weakest on the scale, but there is still a need for extreme caution. The winds are powerful enough to pound through a city and lightly pull apart buildings. This can form debris which is dangerous if it lands on people, pets or buildings. Power outages can also happen.
- Category 2 hurricanes have a wind speed of 96-110 mph
The stronger the storm means greater potential for damage and danger. Hurricanes of this strength will bring flying debris, break windows and even uproot trees. Homes and buildings can fall victim to roof or siding damage while power outages lasting up to two weeks may follow.
- Category 3 hurricanes have a wind speed of 111-129 mph
Category 3 hurricanes are beastly and strong enough to bulldoze past cities. Frame homes, mobile homes, apartment complexes and office buildings are at risk of major damage when a category 3 storm is on its way. You can prepare in advance by boarding up for protection. Destruction from flying debris is likely. Similar to category 2 storms, hurricanes of this strength can easily uproot trees and cause power outages lasting up to weeks after the storm.
- Category 4 hurricanes have a wind speed of 130-156 mph
It’s important to plan an evacuation before a category 4 storm because it is strong enough to uplift roofs and trees, destroy mobile homes, frame homes, apartment complexes and other buildings. Power outages are extremely likely and can last months.
- Category 5 hurricanes have a wind speed of over 157 mph!
As the highest level on the scale, category 5 hurricanes are, in simplest terms, devastating. They can level houses and destroy buildings of all sizes. Cities or islands on a category 5 hurricane’s path are likely to be uninhabitable for weeks to months due to the level of devastation.
How deadly are hurricanes?
How deadly a hurricane isn’t necessarily dependent on what category hurricane it is. Sometimes a Category 1 hurricane can be more deadly than a Category 3. It depends on how wide the storm is, how many storm surges it causes, and how much rainfall it gives off. Hurricanes cause most of their damage and death by means of flooding, high winds, high tides, and rip currents. If a lower-category hurricane is very wide, it might bring dangerous flooding to a huge swath of the country it hits, causing much more death than a smaller, higher-category storm.
Here are some common terms related to hurricanes.
- Eye — The eye of a hurricane is at the center of the storm and it’s also the storm’s most peaceful section due to the low air pressure and calm winds. Clouds are not present here either.
- Eye Wall — The hurricane eye wall is opposite of the storm’s eye because it’s the most dangerous part of the hurricane. This is where the heavy clouds and high-speed winds live.
- Rainband — The hurricane’s rainbands are spirals responsible for the storm’s heavy rainfall and flooding.
- Diameter — A hurricane’s diameter is measured from one side to the other.
- Storm Surge — A hurricane’s storm surge can have the most devastating impact on a city located along its path. They form when severe winds push toward the ocean’s shore, causing sea levels to rise significantly. This sends a catastrophic wave of water over any surrounding land. A storm surge is dangerous because they can produce waves reaching up to 20 feet. Storm surges can also extend for miles and miles, flooding cities
- Watch — A hurricane watch is slightly less severe than a hurricane warning because it means there is a chance hurricane conditions may occur within a certain area. You can expect to receive warning of a hurricane watch 48 hours in advance.
- Warning — A hurricane warning is put in place when certain areas are expected to experience hurricane conditions, such as winds of 74 mph or higher. Officials typically send out hurricane warnings 36 hours before winds strike.
Top States for Hurricanes
Florida, Texas, Louisiana, North Carolina and South Carolina. These are the top 5 states most likely to be on a hurricane’s path and it has everything to do with their proximity to all of the warm water found in the Gulf of Mexico or within the Atlantic Coast.
How To Prepare For A Hurricane?
Now that you know all about hurricanes, it’s time to prepare your family for the days leading up to the hurricane’s landfall. A great first step would to shop for non-perishables, organize a hurricane kit and board the exterior of your home.
Whether you are going to ride out a hurricane or evacuate, the damages as well as the power outages from a hurricane can last for weeks or more. A1A Solar has a range of power back up options including a combination of solar panels and Tesla Powerwall batteries which will help keep your home running smoothly even in long power outages.
We can help you stay powered up until sunny skies are out again…
Concerned About Power Outages?
Concerned About Power Outages?
As we head into hurricane season, power outages become a concern. Power outages can be caused by many circumstances. An outage, or “blackout,” occurs when something interrupts the flow of electricity to the end-user, and an outage can affect a few homes or an entire city —sometimes lasting for days.
Here are some of the things that can cause your power to go out:
Lightning looks for the quickest path to the ground. It generally searches for the tallest object to serve as a conductor. Utility poles, wires, transformers and other electrical equipment are easy targets for lightning strikes, causing severe damage and loss of power. Lightning also frequently strikes trees causing tree limbs or even large trees to fall onto utility lines.
Wind may cause power lines to swing together resulting in a fault or short circuit that interrupts service. Strong wind can blow tree limbs or entire trees into power lines causing them to fall to the ground. Severe winds can even break power lines and utility poles, bringing down extensive portions of the infrastructure that delivers power.
RAIN & FLOODING
Heavy rain and melting snow can cause flooding in some areas. Flooding can damage both overhead and underground electrical equipment. If high waters flood an electrical sub-stations (where electricity is distributed to various neighborhoods), the utility company will shut down the power to prevent damage to their equipment, and if the electricity to your home runs through that substation, you’ll be out of luck until the utility company can safely restore service.
Other Causes of Outages
- Vehicle Accidents — If an automobile accident to involve a pole, knocking it over or damaging the power line.
- Small Animals — Squirrels and other small animals have been known to chew through power lines, which can result in the electrocution of the animal and a quick surge of electrical power that damages the power line and causes an outage.
- Falling Trees & Branches — Falling trees and branches which land on power lines are a recurring cause of power outages. Trees can also trigger outages if they’re growing directly below a power line.
- Snow & Ice –– Fortunately in the Southeastern U.S. this is not that much of an issue
Whatever the reason for losing power, A1A Solar has a range of solutions to meet your needs from solar panels to back up batteries, we offer whole home power solutions. Plan ahead! Contact us today to discuss what is best for you.
Are You Prepared?
Are You Prepared?
When the Grid Goes Down… Are You Prepared?
The world these days is a scary place. Global pandemic, potential nuclear conflicts with Russia, China, Iran, and North Korea, wildfires in California and Australia, and talk of civil unrest in the wake of upcoming elections are in the news every day. On top of that, here in Northeast Florida, we are under threat every year from hurricanes that seem to intensify every year. What happens when the grid goes down?
Most Floridians have weathered hurricanes and endured a few days without electricity. It’s hot, sweaty, and smelly. The food in the refrigerator goes bad. The air hangs stale and damp and the fans don’t spin, the lights don’t shine, and the internet is off. No television, no radio, often no water. Gas stations can’t pump gasoline, stores can’t take credit cards and most of them are closed anyway. The roads are snarled with downed trees and power lines.
An outage lasting longer than a few days would be almost unbearable.
Residents would be forced to leave the area, leaving their homes and belongings susceptible to the inevitable looting that would follow, a veritable all you can steal buffet for the desperate and the deadly.
If you already have a solar system installed, the next step is to add battery storage. If you don’t have solar on your home yet, you can add a PV system and a battery together, or you may opt for a whole-house generator.
Battery storage technology has improved exponentially over recent years, resulting in lower prices and increased storage capacity. During the peak sun hours, your solar array typically produces more electricity than you consume. That excess power will flow to the battery first, and then once the battery is fully charged, further power flows back to the grid. At night, when your solar array is no longer producing power, you will draw from the battery first, and when it has fully discharged, pull from the grid.
When the grid goes down, if you have a battery backup system and solar, your home has power. During the daytime, your solar array meets the energy needs of the house, with the excess stored in the battery. At night, you draw from the battery, and the next morning when the sun comes up, the process starts all over again.
A1A Solar currently offers several battery options, and will customize a system for your individual needs and goals. Currently, the following are the most popular battery options:
Tesla Powerwall 2.0: The Tesla Powerwall 2.0 is sleek, smart, and strong. The Powerwall is designed to be stacked; Tesla recommends a minimum of two be installed. Two Tesla Powerwalls provide 27kWh of storage, 10,000 Watts of continuous power, 14,000 Watts of peak power. The battery is lithium-ion, and liquid cooled. This is an AC battery and will work with either string inverters or micro-inverters. The software, hardware, and monitoring are state of the art, and the interface is user-friendly. The Powerwall is compatible with SunPower panels and is inverter-agnostic. Following Tesla’s recommendations, A1A Solar installs a minimum of two Powerwalls, which for most homes, will allow the air conditioner to run during the daytime. With two Powerwalls, a protected load panel is usually not necessary. Two Powerwalls offer the most power and storage for the best price, when compared to other batteries currently on the market.
Generac PWRcell: Generac is a venerated brand, with 75% of standby power generation in the United States, based on their line of generators. Generac is challenging Tesla and other battery manufacturers with the introduction of the PWRcell. Generac bought out PIKA and has reengineered the battery based upon that platform. The PWRcell is a DC-coupled battery. This means that there is less loss of efficiency, as the battery utilizes an internal inverter with optimizers. It’s not advisable to retrofit a Generac PWRcell to and existing PV array for this reason. In the coming months, Generac intends to upgrade the software in the battery to allow a Generac generator to work in conjunction with the solar array and the battery. For new PV clients who want robust, extended off-grid capability, this will be a good option.
LG Chem: This battery comes in at a slightly lower price-point but is significantly limited in its power and performance. This battery is limited to three circuits and requires a critical load panel. The reduced power and storage when compared to the Tesla Powerwall eliminate this battery from our list.
Sonnen: If you want the Cadillac of whole-home battery systems, you’ll want sonnenBatterie, a German company, which helped to forge the market for lithium-ion batteries. The Sonnen is a robust system that can back up almost any home. You’ll still need to stack multiple Tesla Powerwalls for the largest of homes, but sonnenBatterie is a great fit for most homes. Unfortunately, they’re very expensive and have priced them out of the market, in most situations. The Sonnen ECO-16 is an AC coupled system with built in inverter, designed for interior use. 8kW of continuous power 10KW peak power. The third generation of Sonnen batterie includes an EC0 20, but it still has only an 8kW inverter.
Enphase Ensemble: Enphase manufactures the industry-standard micro-inverter. Their current offerings for battery-storage are focused on grid-up batteries. In Northeast Florida, these batteries do not make sense because they have limited storage and power. The new Enphase Encharge battery is a scalable system. The Encharge 10 contains three batteries, each able to store 3.36kWh, and twelve IQ-8 inverters. 3.84 W of continuous total power, 5.76 peak power. 10 kWh total storage.
A1A Solar answers your commercial solar questions
A1A Solar answers your commercial solar questions
You may have heard that many Fortune 500 companies are going solar. The benefits to clean energy are certainly numerous; however, taking your company solar may seem overwhelming. A1A Solar is ready to help you invest in your company and begin reaping the rewards of a commercial solar energy system. Here are some frequently asked questions to help you understand the process of going solar.
How do solar panels work?
Solar panels absorb sunlight with photovoltaic cells and use an inverter to change direct current power to alternating current power. This conversion creates electricity for commercial use.
How long do solar panels last?
Standard solar panel warranties last 25 years. A typical central inverter will last between 10 and 15 years, meaning you’ll have to replace it at some point during the lifetime of your solar panels.
What is commercial solar and why should I have it?
Commercial solar is a solar power system for companies. It’s different from residential solar in that residential applies to individual homes. The benefits of commercial solar occur on a much larger scale than residential solar.
The main reason companies invest in commercial solar is to save money in the long run. The annual energy cost for a business grows by about 3% each year. When you no longer have to pay that fee, you end up saving a great deal of money. It typically takes six to seven years to begin to see a return on your investment. In addition to the money your company saves on energy bills, with a solar energy system, you receive a 30% tax credit with accelerated depreciation.
Another important reason companies invest in commercial solar is to show their customers their commitment to helping the environment. Solar panels do not emit pollution into the atmosphere.
Is going solar feasible for small and medium companies?
Most definitely. More and more small- and medium-business owners are going solar as they realize the financial opportunities that come with it. Don’t let the size of your company be the deciding factor. There’s always an opportunity to save money for your business in the long run, no matter the size.
How do I know what size system to select for my company?
First, decide how much electricity your company uses. Having a 12-month usage history and an idea of when you use your energy can help you figure this out. Assess your budget for the solar panel system and the remaining electricity bill. One of our solar professionals can help you pick a system that fits your company’s needs.
What is net metering?
Net metering allows you to use generated electricity anytime you want, instead of right when your system generates it.
Solar panels vs. solar water heaters
Solar Panels vs. Solar Water Heaters
What is the difference between solar panels and solar water heaters?
While most people know what solar panels look like, they might not know their exact purpose. Solar panels convert sunlight into electricity through the photovoltaic effect. This process happens when panels absorb photons, which creates an electric current. When photons hit the crystalline photovoltaic cells, it generates DC energy. Below is a diagram that shows how the panels absorb sunlight and how it becomes energy.
DC and AC conversions meet the power needs of a home or company, creating a seamless connection between solar and utility. Net-zero is when the total amount of energy a building uses is roughly the same as the amount of energy its solar system creates. Being net-zero can help to reduce your energy bill up to 90%.
Solar water heaters use a different process to create energy. Solar panels heat water that then flows to a tank that stores it until you use it. In order to keep your solar water heater clean, you must flush it once a year.
The difference between solar panels and solar water heaters is simply the purpose of each. Solar panels create electricity and solar water heaters use the sun to heat up water, which is then pumped into your home.
Commercial Solar System
Commercial Solar System
Getting a commercial solar system set up in Northeast Florida
6 steps to ensure your company’s solar system installation is a success
Your company is ready to go solar. That’s great! However, you might feel overwhelmed by what to do to get started. Read on to learn how to get a solar energy system installed for your company.
1. Make sure your company owns the property. This step is essential. You won’t be able to add a solar energy system if you don’t own the property.
2. Select a solar energy company. Ensure the company you choose is certified and licensed, so you receive a quality installation.
3. Meet with representatives from the company. The solar system contractor will set a meeting to evaluate your company’s property and find the best spot to install the solar energy system. Then, the company will work with you to develop a plan for your system.
4. Dealing with bureaucracy. After the plan is complete, the solar energy company will contact your electricity provider to seek approval. Your solar energy system essentially adds to existing systems on the grid, so the electricity provider needs to be aware of how your plan works. Be prepared to alter your plan to suit the electricity provider’s requirements.
Your solar system contractor will also contact your local government representatives to get the required permits and inspections.
5. Begin the process. Once your electricity provider approves the plan, your solar energy company will begin implementing your system. It usually takes a few months to get your solar energy system online, so make sure you’re allocating enough time for this step.
6. Another inspection. Once the process is complete, the local government will send another inspector to make sure the system is up to code and meets plan specifications.
Getting your company set up with a solar energy system isn’t hard. Your solar energy company will handle most of the heavy work, including dealing with bureaucracy. The only truly difficult part is having to wait for your system to be complete so you can enjoy it. Once it’s done, your company will reap the benefits.