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From examining your current eletrical usage and costs to assisting with the correct financing plan, you will receive a custom designed solar energy plan which suits you and your family.
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- Fully licensed & insured installers
- Custom tailored solutions
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- Easy financing options
- 20 year warranty
- Transparent contracts
- State and federal incentives
- Roof repair if damaged during installation
- Customer service is our top priority
About Solar Energy
Solar power is energy from the sun that is transformed into thermal or electrical energy.
Solar energy is the cleanest and most abundant renewable resource source available, and the United States has some of the richest solar resources worldwide. Modern innovation can harness this energy for a variety of usages, consisting of producing electricity, supplying light or a comfortable interior environment, and heating water for domestic, commercial, or industrial usage.
Solar power makes it possible for property owner to use the sun to power everyday life: running your air conditioning system, washing clothing, enjoying TV, cooking supper. All while minimizing your carbon footprint, and without burning nonrenewable fuel sources or putting a stress on the electrical grid. And while the environmental advantages of solar power are significant, many residents find that the benefit, special functions, and cost savings of owning a solar power system are a lot more enticing.
Top 10 Benefits of Solar Energy
#1 Significantly minimize or perhaps remove your electrical expenses
Whether you're a property owner, service, or nonprofit, electrical energy costs can comprise a large part of your month-to-month expenditures. With a photovoltaic panel system, you'll generate free power for your system's whole 25+ year lifecycle. Even if you don't produce One Hundred Percent of the energy you take in, solar will lower your energy bills and you'll still save a great deal of money.
#2 Earn a great return on your financial investment
Photovoltaic panels aren't an expense-- they're one of the best methods to invest, with returns matching those of more traditional investments like stocks and bonds. Thanks to substantial electrical power costs cost savings, the typical American property owner pays off their photovoltaic panel system in 7 to eight years and sees an ROI of 20 percent or more.
#3 Secure against increasing energy costs
One of the most clear cut advantages of photovoltaic panels is the ability to hedge utility prices. In the past 10 years, residential electricity rates have gone up by approximately 3 percent yearly. By investing in a solar energy system now, you can fix your electrical power rate and protect against unpredictable increases in electricity expenses. If you're a company or house owner with rising and falling money circulation, going solar also assists you better projection and handle your costs.
#4 Increase your home value
Numerous research studies have discovered that homes equipped with solar energy systems have higher home worths and sell more rapidly than non-solar houses. Appraisers are progressively taking solar installations into factor to consider as they value homes at the time of a sale, and as homebuyers become more educated about solar, need for homes geared up with photovoltaic panel systems will continue to grow.
#5 Increase U.S. energy independence
The sun is a near-infinite source of energy and a key part of achieving energy independence in the United States. By increasing our capacity to create electricity from the sun, we can also insulate our nation from price variations in international energy markets.
#6 Develop jobs and help your local economy
Inning accordance with The Solar Foundation, the solar industry added tasks at a rate nearly 12 times faster than the overall U.S. economy in 2015, representing 1.2 percent of all tasks in the country. This growth is expected to continue. Because solar-related jobs tend to be higher paying and can not be contracted out, they are a substantial factor to the United States economy.
#7 Secure the environment
Solar is an excellent way to reduce your carbon footprint. Structures are accountable for 38 percent of all carbon emissions in the United States, and going solar can substantially decrease that number. A common domestic solar panel system will get rid of three to 4 loads of carbon emissions each year-- the equivalent of planting over 100 trees every year.
#8 Show your dedication to sustainability
Sustainability and corporate social obligation are essential elements of an organization's culture and worths. They also produce bottom line outcomes. Increasingly, consumers and neighborhoods are acknowledging and rewarding companies that opt to operate properly. Organisations are discovering that "green" qualifications are an effective driver of customer acquiring decisions, developing goodwill and improving organisation results.
#9 Start Saving from Day 1
Solar purchase power contracts (PPAs) and solar leasing has made it possible for property owners to go solar for little or no cash down.
Many homeowners decide to fund their photovoltaic panels with one of the "pay-as-you-go" financing options. This indicates that a third-party business-- the solar company-- owns the solar system and takes care of setup, maintenance, tracking and repairs. You simply pay the solar company for electrical energy-- less than you would've paid the energy business.
Since June 2013, 75% of all American homes have access to pay-as-you-go solar.
#10. Solar is a Secure Investment
The energy companies are infamous for their fluctuating and undependable electrical power costs. There is clearly an upward pattern.
With photovoltaic panels and basic mathematics, we can compute what does it cost? electricity will be produced, and most notably, at what cost, for at least the next Twenty Years (repaired energy costs).
What are the various payment options?
We have many flexible purchasing agreements for customers who would like to install a new home solar system. There are three different payment options, making them a viable choice for customers of all budgets. The payment options include Lease, PPA, and Purchase.
- Low, fixed payments each month
- System insurance for 20 years, including maintenance
- Flexible end-of-term options, including system upgrade, lease extension, and free panel removal
Power Purchase Agreement (PPA)
- We own the solar panel system
- $0 down for installation
- Customers only pay for the solar energy that they use
- Customer pays for the system upfront and owns the system
- System monitoring and maintenance for 20 years
- Receive 30% federal tax credit
- See a return on investment within 7-10 years
What happens when the contract for my lease is finished?
We provide our customers with a few different options for when their lease contract is up. Customers can upgrade their equipment to the newest solar technology available, extend the agreement, or have the panels removed at no cost.
What is the warranty?
The Lease and PPA include a 20-year warranty during the lifetime of the system. This warranty exceeds that of most other solar installers’ warranties.
Frequently Asked Questions
What Is The Best Energy Storage Solution?
I Am Trying To Plan My Way Through Building An Outdoor Business That Operates Mainly At Night. I Would Really Like To Use Solar Panels During The Day To Charge Some Sort Of Battery In Order To Power The Entire Site For The Night. Is There Some Sort Of Commercial Grade Battery That Can Be Charged During The Day? Or Is There A Better Energy Storage Solution?
Batteries are about the best there is, but they are expensive, bulky, leaky, and need a lot of maintenance.
In this case, marine deep discharge lead acid batteries are probably the best choice. A 100 amp-hour uint costs about $300 and will store about 1 kW-hour of energy.
Depending on your power load, you could need anywhere from 1 to 100 batteries. You also need a good charge controller between the solar panels and the batteries, and a good inverter to generate the AC voltage and power for nighttime use.
Supply some more data, and I may be able to be more definitive.
A real killer is rain and overcast days, where you don't get any recharge or a minimal amount. If you need to cover that possibility, you need to double or triple the number of batteries.
Another killer is northern locations, where you may get only 6 hours of sunlight per day.
How The Solar Energy Convert It To Electricity Require By The Human?
Generating electricity with the power of the sun’s rays (“solar power”, “photovoltaic power”, or “PV” for short) is possible due to the photovoltaic effect. “Photo” comes from the Greek for “light”; “voltaic” refers to the production of electricity and is a variant of Italian physicist Alessandro Volta’s name.
To illustrate how PV works, let’s follow the flow of energy through a small grid-tied residential system:
The first step in the process occurs when rays of light from the sun strike the cells within PV modules (modules are commonly called “panels”). As the light energy hits the photovoltaic cells, electrons are excited and begin to flow. Multiple cells are connected in one module, and several modules are connected together to form an array, all harnessing and summing the flow of this electric power.
The current produced in the PV modules is Direct Current (DC). However, most of the lights, appliances, and other electrical equipment in our homes operate on Alternating Current (AC). Next in the chain of energy flow is a device called an inverter, which gathers the DC produced by the array and converts it to AC which can be used in the home. The inverter regulates the AC power it outputs, so it can be safely used by even sensitive electronic devices such as televisions, computers, and audio equipment.
The AC output of the inverter is connected to the home’s main service panel, where it intermingles with the AC power supplied by the local electric utility. Net Metering refers to the physical (and financial) ability of a home’s electric meter to “run in both directions”. We are accustomed to power only flowing from the utility to the loads in our house. However, with the house now acting like a mini utility producing its own electricity, there will likely be times when electricity actually flows out of the house and to the utility.
Can &Quot;Carbon Taxing&Quot; Actually Result In More Co2?
According To The Us Eia (A Division Of The Dept. Of Energy) 90% Of All Future Co2 Emissions Will Come From Developing Asia. Even If Anthropogenic Co2 Contributes Significantly To Global Warming (Many Scientists Think That It Does Not – Http://Www.Petitionproject.Org/ ), What Good Will Come From Wrecking The American Economy Forever. Supply Vs Demand Will Undo Any Short Term Good Which Comes From America'S Reduction In The Use Of Fossil Fuels. Take Coal For Example. If Coal Usage In The Us Falls As A Result Of Carbon Taxing Schemes, The Demand For Coal Will Fall And Therefore The Price Will Fall In The Short Run. As The Price Drops In The Us, Foreign Demand Will Increase. Yes Virginia, Coal Is An Easily Exported Commodity. Therefore, China, India, Taiwan, South Korea, Europe Etc.. Will Have Less Incentive To Pursue Other Energy Options Such As Nuclear, Solar, Wind Etc.. Those Economies Will Quickly Consume All Of The Incremental Coal Which Is Not Being Burned In The Us As A Result Of Carbon Taxing. Fyi For The Uninformed, Currently India And China Alone Combined Consume 50% More Coal Than Do All Of North America And Europe &Quot;Combined&Quot;. If This Issue Was Left To The “Market Place” For Resolution, It Is Really Very Likely That Less Coal Would Be Burned In The Future If The Price Of Coal Was Simply Allowed To Rise As A Result Of Increased Demand. Knowing That Coal Prices Could Ultimately Double Is Exactly The Incentive Needed By India And China To Increase Their Investments In Nuclear, Solar, Wind, Hydro Etc.. The Hysteria Over Coal In The Us (The Country With The World'S Largest Coal Reserves) Will Surely Result Only In China And India Modifying Their Energy Plans To Include More Coal And Less &Quot;Other&Quot;. Ps, Based On Their Energy Plans It Is Apparent That The Governments Of India And China Believe That Agw Is Utter Nonsense. The Driver For Their Energy Policies Is Driven 100% By Economic Reasoning So They Have Absolutely No Incentive To Modify Their Energy Policies And Retard The Growth Of Their Economies To Reduce The Use Of Fossil Fuels Simply Because Leftist Western Enviro-Tards Mistakenly Believe That They Should.
According To The U.S. Energy Information Administration’S Economic Forecasting Model, A 70% Cut In Carbon Dioxide Emissions Will Cause Gasoline Prices To Rise 77% Over Baseline Projections, Will Cause Electricity Prices To More Than Double Over Baseline Projections, Will Kill More Than 3 Million Jobs Versus Baseline Projections, And Will Reduce Average Household Income By More Than $4,000 Each And Every Year.
Sounds like you don't know much about how cap and trade or a carbon tax work.
Anyone Watching Bush'S Speech?
He Is Promoting Drilling And Establishing New Refineries, But Fails To Note They Will Be In An Alaskan Wildlife Preserve. As An Energy Alternative,Nuclear Power Versus Wind Or Solar. And Now States Farmers Should Be Growing Power, So We Don'T Purchase From Abroad- Nevermind The Fact That Food Prices Are Going Up. We Can Survive Without Gas- Not Food. Anyone Else Find This Disgusting?
We can survive without gas? You must live in the South to make a statement like that. There are a whole, whole lot of us that live to the north of the Mason Dixon line that would freeze to death in the winter without gas to heat our homes.
However, I agree with you. Growing our energy, as it now stands, is insane. Its takes more energy from petroleum to grow crops to produce ethenol than the energy the ethenol actually provides. Ethenol is a huge smokescreen, and is not the energy of the future.
Nuclear does need to be the power for the future, Im afraid, at least until fuel cells can be practically developed.
5 Ways Environmentalists Would Cut Down Air Pollution And Green House Gasses.?
I Need To Know This For An Essay I'M Doing The Better The Answer The More Of A Possibility I Choose You
What was found was that a 50-per-cent reduction in greenhouse-gas emissions could be achieved over the next 30 years with technologies that are already available. Here's some of what we can do:
The fuel efficiency of cars and trucks increases by a factor of two or three over current levels; the vehicles that can achieve this are already coming on the market. Gasoline/electric hybrid vehicles, along with appropriately fuelled hydrogen fuel cells and ethanol made from agricultural wastes all contribute to a drop of more than 60 per cent in emissions from transportation, even while total travel continues to increase.
The central power plant, truly a dinosaur of the 20th century, is replaced by the kind of small-scale, combined heat and power plant from which Denmark already gets most of its electricity, at two- to three-times the efficiency of power stations.
A comprehensive, nation-wide program retrofits 80 per cent of the nation's housing stock with measures such as increased insulation, new and energy-efficient windows, and compact fluorescent lights. More than a million person-years of skilled employment are required by the program. Meanwhile, new homes are built to the government's own R-2000 standard and solar energy begins to supply some domestic hot water.
Commercial buildings make similar gains, with new buildings replicating the demonstrated success of recent retail and office building green projects in which the buildings' energy requirements have been cut in half with no significant increases in construction cost.
It is simply not credible to argue that we can't reduce greenhouse-gas emissions by 50 per cent or more, and to do it in a relatively short time -- by the year 2030. These measures will result in less fossil-fuel use, but also a fossil-fuel industry that makes a transition to adding much higher-value products and services. In the bargain, we get reduced air pollution, improved public health, enormous wealth generation and job creation, and even enhanced national security.
There still remains the question of whether this could be done economically, to which the first response must be -- compared with what? Coping with climate change? Faced with a choice between investing in an efficient and sustainable energy system versus paying ever-increasing costs from floods, droughts, storms, air pollution, infrastructure damage, primary productivity loss, and environmental refugees.
Where will the smart money go?