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Top Reasons to go to the Arizona State Home Show 2020

Top Reasons to go to the Arizona State Home Show 2020

Sunbright Solar has built our reputation in Southern Arizona through connections — our success is due to our customers’ recommendations and referrals, and conversations had in the community and at events. 

  Related:  Take a look at what other Arizonans say about their experience with Sunbright Solar here:                          Facebook Reviews, Google Reviews, EnergySage Reviews, and SolarReviews!

We rely heavily on word-of-mouth, as well as events, to connect with home-owners and business-owners looking at going solar. And that’s also why we are excited to start the new year, and the new decade, with the Arizona State Home Show 2020!  It’s a fun one, and a great way to ring in 2020.   

So without further ado, here are your…….

 

TOP REASONS TO GO TO THE ARIZONA STATE HOME SHOW 2020!

1. Perfect Start to 2020 – Fresh Ideas + Fun!
2. Fresh heritage produce from Mission Gardens…FREE!
3. Hourly CASH GRABS!!!
4. Hourly Gift Card GIVEAWAYS!
5. Free Refreshments for Early Birds!
6. You Can’t Resist Those Vintage Cars….
7. Baking & Cooking Classes!
8. And finally…we’re there! Come talk to Sunbright Solar….whether you want to brag about your current solar panel system, or are looking to go solar… we’re there for you! Sunbright Solar will be at Booth # 408. 

The Arizona Home Show is at the TCC January 3rd through 5th! Parking is free for everyone. We’ll see you there!

Sunbright Solar will be at Booth # 408. 

 

 

Additional Links:

Arizona State Home Show 2020 Features

https://www.tucsonsbirthplace.org/tucsons-birthplace/mission-garden-project/

A Roomba to clean solar panels? Why not!

A Roomba to clean solar panels? Why not!

Years ago, we saw the first autonomous robotic vacuum cleaners hit the market with plenty of buzz.  While early models tended to be more of a toy than something that could clean anything particularly well, they have definitely come a long way.  Recent versions use smart phone apps, can be controlled by Alexa and other smart home technology, have fully integrated mapping systems and cameras, and can clean more surfaces than ever before. So it kind of makes sense that their next foray has entered the solar market!

While the utility scale market has seen the integration of drones and special cleaning machines, it seems the residential market was left holding the squeegee. Until now. Historically, residential solar systems have never really had cleaning services or “maintenance” work performed. While solar panel cleaning services do exist, they typically have had a higher cost than benefit, and the usual industry advice was to let the rains clean them, or to take what you can from a quick clean with the garden hose.

That might all be changing. This new Roomba ESK machine can clean solar panels mounted on steep inclines 30+ degrees, has an app that lets the user know when it’s low on batteries, and cleaning solution that can be modularly replaced, so it can get back to work within minutes. Sensors identify heavy soiling so it can spend a little extra time and effort where it’s needed the most, and it works in wet conditions so a technician can do some pre-cleaning before sending in the machine to mop up.

This little device might just be the answer to creating a whole new segment for all the residential solar systems in hard to reach two-story homes that are just begging for a bath!

 

 

 

What’s Your True Cost of Electricity? 3 Steps to Find Out

What’s Your True Cost of Electricity? 3 Steps to Find Out

To really understand how you can benefit from solar, it helps to start with knowing how much power you use, and how much you pay for it. Surprisingly, that math isn’t always as simple as we think.

Utility companies have different rates, rate structures, and connection fees. When you add those to tiered rate structures, giant seasonal changes, the new time-of-use (TOU) plans that charge different rates for on and off-peak times, taxes associated with usage, and the sheer volume of information on our electric bills — making sense of it can be an exhausting endeavor!

This article will help you understand the formula for saving with solar. The basic formula looks at your connection fee and fixed costs. Before you jump in though, you should keep these points in mind:

1. Connection Fees

The electric company charges a connection fee to be connected to the grid, even if no electricity is used. Different utilities have different connection charges, and of course, you can’t forget taxes! 

For calculation purposes, if the charge is a set fee, the cost should be assigned to the connection charge; if it’s based on the power usage, then the cost should be lumped in with the cost of electricity.

2. Taxes

It’s also important to understand that we pay taxes and surcharges through our utility bill. Some of the charges are usage-based, so if the usage is eliminated by using solar power, then that cost should be included in the cost of electricity, as opposed to the fixed cost of the connection fee. Location is also a factor in taxes. Those who live in the city limits pay a higher tax rate than those who live in rural areas, and pay only county taxes.

3. Tiered and Time-of-Use Rate Structures

Almost all utility bills have a tiered cost structure. For your water or gas bill, the usual setup is the more we use, the more we pay per unit. Time-of-use is a little more specific to electric providers (you can see a good example in TEP’s fee structure, here). The water company doesn’t care when you shower or wash the dishes; they just care how many gallons of water you use. Electric providers are different. They have more strain on their electric grid at different times of the day and year.

Typically, in the summer months in the later afternoons, utilities see the most demand for electricity. The vast majority of homes and businesses are up and running since here in Arizona we’re especially likely to be cranking the air conditioners up in the afternoon. Because of this, utilities have started to offer time-of-use rate plans. With a TOU rate plan, they lower the cost of power during off peak times, and then increase the cost of electricity during peak demand times, typically Monday-Friday, 6 to 9pm (and 3pm to 7pm in the summer).

For some people, this can have a positive impact on their overall bill, and for some it can contribute to a higher overall cost of electricity. It just depends on how and when we use power. As we move to the future of utility rate structures, we can expect this to be more common. That is why solar, smart home technology, internet-of-things (IoT) devices like smart thermostats and batteries, and some behavioral changes will all be key to help control costs. Simple changes like running dishwashers, clothes washers and dryers, and pool pumps during off-peak times can save consumers a large chunk of money— and that’s just the start!

4. Demand Plans

As if taxes, tiers, and time of use weren’t enough, demand rate plans are popping up, too. With new smart meters, utilities have greater insight into how power is being used and billed. As a result, they have now made new demand rate plans available. With a demand plan, you have a separate charge that measures the amount of power spikes (in watts) and assigns a charge based on the level. While new charges are generally to be avoided, this one can actually be helpful. This is because while there is an added charge on the bill, it also reduces the cost of the kwH rate, (kilowatt hour) you are charged. Those who cool their house with a swamp cooler don’t have the typical spike in power that AC units have, so demand charges are quite minimal, and this type of plan is more cost effective.

Also, battery systems have the benefit of being able to virtually eliminate demand by using the battery to supply the spike needed when an appliance turns on. So solar systems that have incorporated a battery are more financially favorable with a demand rate plan.

5. Agendas & Politics

Speaking of the true cost of power: it’s important to note there is a difference between the true cost of power, and the true cost of power to the consumers. The utilities industry is one of the most heavily subsidized industries in the world, on many levels. If the subsidies were removed, the true cost of power and the kilowatt hour would be much higher.

When we take into account that pollution caused by some forms generating electricity has hugely consequential public health impacts and costs associated with it — well, then the final, true cost is clearly higher as well. We also need to be aware that these utilities exist for profit, and have financial and political agendas. They often post information and data that is more slanted to suit their agenda. So taking information from them often calls for a few grains of salt for the smart consumer, as well.

So, let’s get back to the topic: How much are your current electric costs; and would solar panels be a smart payoff for you? Figuring this out is straightforward:

First, we find the connection charge and the fixed costs. Typically, the connection charge costs Arizona residents about $15 – $25 a month. So, for our hypothetical bill-payers — let’s call them Bill and Belinda Billpayer — we can assume a connection fee of $20.

Second, we subtract that value from the dollar amount of the bill.  If Bill and Belinda pay $135 on average for their bill, and are charged $15 to connect, so we are left with $120 after subtracting the fee. This is easy to find since it is usually the first charge on the bill, and you’ll see terms like “Basic Service and Meter Charge,” or another ‘basic’ name.

For our third and final step, take the remaining bill amount, and divide it by the Total kwH Usage on your bill. You will then get a cost per kwH that you can use to compare against your expected rate when going solar.  For Bill and Belinda, when we divide by their kwH on their bill, 790 kwH, we see that they are paying 14.5 cents per kwH, and would be smart to check out solar! TEP and TRICO residents will likely find that their costs are between 11 to 16 cents per kwH.

And there you have it. This simple number is useful because it can serve as a benchmark (though watching your electric costs rise year-over-year may or may not be your thing!), and it can also help you gauge your financial benefits in going solar.

Looking for the next piece of the puzzle, your kwH costs once you’ve gone solar? Well, that’s why we’re here! Call Sunbright Solar today to get your free, expert solar evaluation. It could save you tens of thousands of dollars over time, so what’s stopping you? Call today! 520-222-9993

 

 

Solar Saves the World: 3 Ways Solar Power Reduces Pollution

Solar Saves the World: 3 Ways Solar Power Reduces Pollution

Solar power has an immediate, positive impact on your quality of life (think lower bills!), but don’t forget some of the far-reaching impacts choosing renewable energy can have on your home and community!

Owning your own solar panel system means cleaner air for Southern Arizona

One of the best ways to have an impact on the health of your community is to go solar with your home or business! Solar power adoption is key to cleaner air in your community. When more people and businesses go solar, as is the case in Southern Arizona, people in Tucson, Marana, Oro Valley, Green Valley, Sahuarita, and Vail are all benefitting directly from solar power.

Keep in mind that solar power helps reduce not only greenhouse emissions, but other pollutants that are dangerous for our health. This includes sulfur, nitrogen, and other small particulate material you wouldn’t want to breathe— yuck!

Solar power accounts for a HUGE reduction in the amount of both greenhouse gases and these other pollutants. It’s estimated to have saved the U.S. $890 million in reduced negative health impacts alone.

New homes have higher occurrences of Indoor Pollutants. Solar can help solve the problem

Today’s new homes are notable since they are much more efficient than older homes, but this efficiency can have unintended consequences. Modern homes are often so airtight, they can trap indoor pollution that can have negative health effects. These are called Volatile Organic Compounds (VOCs), and can be ten times worse than outdoor pollution.

Going solar and maintaining natural light through the home are two smart ways to reduce the incidence of this type of pollution. Take a look at this Panasonic publication for the top ways to build a healthier home, and read more here. Sunbright Solar is Southern Arizona’s Only Premium Installation Partner for Panasonic Solar panels.

Generating your own solar power puts you in charge, and makes sure your money isn’t wrongly invested into dirty energy

Many of our local power companies rely on old, polluting technologies for the majority of their power generation, even as they promote their limited renewable energy options.

Owning your own solar panel system means a bigger impact on the health of your community— not to mention you’re the one profiting from creating extra solar power, not the electric company.

Water pollution and waste is a common, lesser known negative impacts from using dirty energy

Water is essential for life, especially in the desert Southwest. Yet when we consider the impact of our energy choices, we may not realize how directly dirty forms of energy can impact our community water resources.

While manufacturing photovoltaic panels does consume water, solar panel installations are passive and draw from the power of the sun with no water use or impact whatsoever after they are installed.

Contrast that with the huge amounts of water a conventional power plant uses day in, day out. To power just one home for a day, a power plant running on coal uses 199 gallons of water, and a plant running on natural gas uses 114 gallon of water.

At the end of the day, our energy choices have real impact on many levels. Choosing solar has immediate benefits for each of us personally, and it’s also comforting to know that the long-reaching effects of going solar are just as positive.

Sources:

https://healthcareinamerica.us/solar-power-good-for-the-environment-and-human-health-6061a20f5117

https://www.sciencedaily.com/releases/2016/05/160518165257.htm

https://www.scientificamerican.com/article/renewable-energy-saves-water-and-creates-jobs/?redirect=1

How a Math Problem Highlights Arizona Solar’s Unique Needs

How a Math Problem Highlights Arizona Solar’s Unique Needs

How a Math Problem Illustrates Arizona Solar System’s Unique Needs

(Don’t worry, we do the math for you— and it works in your favor!)

Arizona residents and business owners don’t need anyone telling them that Arizona summers are extreme.

If you experienced the massive heat wave that hit the Western U.S. in the summer of 2017, it won’t come as a surprise that year was the warmest year on record for Tucson, Arizona.

In fact, the last four years have been the hottest on record for Tucson since record keeping began. So what does Arizona’s extreme weather have to do with a math problem?

It starts with understanding that solar PV (photovoltaic) systems performance, as an electrical system, is directly impacted by heat. So while all solar panels have an efficiency rating that measures their ability to convert sunlight to electricity, they also have a temperature coefficient that rates how well they perform in high heat.

In the equation (and real life!), the temperature coefficient is the multiplier for estimating how well the solar panel will produce under different temperatures.

You see solar panels are rated in watts similar to a light bulb or other electrical devices. However, the watt rating of solar panels are determined under Standard Test Conditions (STC). Therefore, a 300-watt panel is 300 W DC STC. This implies the panel is receiving 1000 watts of sun per square meter, and that the temperature is 25 degrees Celsius, or 77 degrees Fahrenheit.

Now, if we were to place that panel on a roof in Tucson in mid-July, the output probably wouldn’t really be 300 watts.The same can be said for other regions, but this is particularly important in Arizona because we deal with such high heat in the summers. It’s especially important to be aware of this so you can get optimal solar panel performance in Tucson and Southern Arizona.

So how much should a 300 watt panel produce when it’s over 100° Fahrenheit outside, and closer to 160 degrees Fahrenheit on the panels?

Let’s say the panel is 120 degrees Fahrenheit, or 43 degrees above test conditions levels of 77 degrees F. If the temperature coefficient is -.258, then we would do the following math equation:

In this example, the panel will produce about 257 watts, a significantly different number than just reading the wattage would indicate .

The temperature coefficient is an important piece of the puzzle when considering what solar panels to purchase. And like we said, you don’t have to do the math. Just remember that the lower the number for the temperature coefficient, the better!

Panasonic Solar photovoltaic panels have the world-record best temperature coefficient for solar panels, making them the ideal choice for Southern Arizona solar buyers who want the best return on investment for their system.

Want to know more about how making the right selections for your home or business solar installation can help you get the best return for your money? Call Sunbright Solar at 520-222-9993 for a free expert consultation.

Source: Dan Schippers, March 2019

2 factors help you get the best Solar ROI in Arizona

2 factors help you get the best Solar ROI in Arizona

When it comes to solar power systems, it’s easy to get overwhelmed by information. But if you gloss over some details, you’ll be selling yourself short. Solar panels’ efficiency ratings and temperature coefficients both impact overall efficiency, and are one of those areas where knowledge is power.

Getting familiar with these distinct factors can help you get the most bang for your buck when going solar!

Let’s start with the most common number you will see, the efficiency rating. This is the ability of the panel to convert sunlight into electricity. The rating is determined under Standard Test Conditions (STC) that measure the amount of energy the PV panel can convert to DC power when it is ‘flashed’ with precisely 1000 watts of light per square meter, under conditions consistently kept at 77° F. Sunbright Sidenote: Does 77 degrees sound nothing like the Arizona summers you’re familiar with? You’re right to be wary! Keep reading to understand how the temperature coefficient is important for Arizona solar panel installations.

Top-performing Panasonic solar panels have significant advantages

The range of efficiency ratings for typical residential and smaller commercial solar power installs is about 14-18%, with high-end panels at around 19-20%. Sunbright Sidenote: Panasonic’s HIT Solar Panels are at the very high end of the range, coming in at 18.5% to 20.3%. Sunbright Solar is Tucson’s only Panasonic Solar Premium Installer.

Stay tuned for our upcoming blog on how this status helps Sunbright provide the best benefits and the best price for your solar installation!

Other factors also directly impact your solar power system’s efficiency, and therefore your solar return-on-investment (ROI).

Let’s focus on other big factor impacting Arizonans the most, the temperature coefficient. All electrical systems, including solar power systems, share that they don’t perform as efficiently in high heat. While it may sound negative when first hearing it, this is actually a bonus for smart solar customers!

Tucson and Southern Arizona have abundant sunshine, and if you plan for the harsh summer temperatures, you can build a solar panel system with the best ROI, that pays for itself the fastest. Sunbright Sidenote: Panasonic’s HIT Solar Panels hold the world record for the lowest temperature coefficient (lowest is best!).

Bottom Line: Solar panels’ efficiency ratings and temperature coefficients have a large impact on your solar panel system’s overall return-on-investment. In Southern Arizona’s extreme summer temperatures, the temperature coefficient is possibly the most important specification to consider when deciding which solar panels will be the best investment.