Solar-Powered Tree as a Solar Charging Station

Israeli eTree

Photo Credit: gajitz.com

A solar-powered tree is a type of solar-powered charging station that can capture solar energy and provide free electricity from the sun to public places.

In 2010, a group of students In Belgrade, Serbia developed the first solar-powered tree in the world - the Strawberry Tree. This is the first public solar charger for mobile devices. The innovative solar charging station has Wi-Fi, USB ports and 16 chargers for various types of mobile phones and other portable electronic devices. The Strawberry Tree won first place in the European Commission’s "Sustainable energy week 2011" competition in Brussels, in the category “Consuming”. 

Another example of a high-tech futuristic solar-powered tree is eTree created by the Israel-based company Sologic. This “tree” is a place to take a break while recharging your mobile gadgets and accessing the Internet via free Wi-Fi. Similar to a real tree, the eTree has brown trunk and branches. But, instead of having leaves, there are solar panels that are angled towards the sky. The eTree has USB ports and provides a small amount of lighting during the night. There are also benches located beside the solar-powered tree. The first eTree was installed at a nature reserve in Israel. 

Solar-powered palm is a variation of a solar-powered tree. This stunning solar design absorbs sunlight during the day through "leaves" covered with ultra-thin solar modules and converts to an exotic solar-powered lamp at night. The trees’ energy can also be used to charge mobile devices through its integrated USB connection. 

The first Smart Palm installed on Jumeirah beach in Dubai is one more example of solar-powered palm. Now, these Smart Palms, or "self-sustaining community tech hubs" are on every public beach in the city, as part of an ambitious plan to convert Dubai into a "Smart City". There are 50 solar-powered Smart Palms on public areas, and each of them provides Wi-Fi, USB socks for mobile phones and tablets, as well as updated information on the weather and local attractions. The solar-powered palm trees are illuminated at night using the system’s battery where solar energy is stored. 

And finally, I should mention solar-powered supertrees, although they are not solar charging stations.

                                 Supertrees in the Gardens of the Bay

                                     Photo Credit: woo siang boon

There are amazing gardens in Singapore - Singapore’s Gardens by the Bay with 18 manmade steel supertrees varying from 15 to 50 meters in height. 11 of them have solar photovoltaic systems to convert sunlight into electricity, so they can light up at night. The supertrees also function as vertical gardens, air venting towers, and rainwater collection devices. These incredible constructions are designed by Grant Associates. 

The above solar-powered trees are just several examples of the beautiful innovative design, which is also a growing solar trend in the world.

Solar-Powered Charging Stations for Mobile Phones, Cameras, and Electric Vehicles

Image credit: www.soldesignlab.com

Solar-powered charging stations are innovative solar-powered designs that can be used in public places when no electricity supply is available. You can see them alongside the streets, in the squares, and even as “umbrellas” attached to benches in public parks. On the market, there are also smart solar benches and they are an excellent addition to existing urban furniture.

Solar-powered charging stations are great to allow people to charge their small devices such as mobile phones, laptops, or cameras outdoors. Some of the solar-powered charging stations can power electric bikes, scooters, and cars, so recharging your car’s batteries is often cheaper at one of these stations. Solar-powered charging stations can provide also lighting, WI-Fi, give insight about the environment, and display information on a digital screen.

All solar-powered stations work similarly, although they might differ in terms of size, capacity, and the type of charging that is available. Each solar-powered station consists of an inflexible or flexible solar panel (or panels), battery system, charge controller, and inverter.

The benefits of solar-powered charging stations are numerous. First of all, they produce electricity without any emissions, making them one of the most environmentally-friendly technologies. Unlike coal, nuclear or gas-powered plants, solar energy does not produce emissions, nor toxic byproducts. And it is a renewable source of energy.

The implementation of solar technology in public places gives us free or cheap energy. Especially, for those living far from the electrical grid, solar charging stations for mobile phones can be the only way to stay connected. It is no surprise that in the developing countries more and more solar-powered charging stations are appearing. In countries where electricity is not accessible to all, public solar-powered charging stations for mobile phones are very popular. (Read this article)

Last but not least, with the solar-powered charging stations, we become energy independent and can spend more time outdoors. When we know that we can charge our mobile phones and other electric devices outside, in the streets and in the parks, it gives us more freedom and flexibility to spend time outdoors and in nature.

Sources: Inhabitat & Magesolar

Solar-Powered Backpack

A solar-powered backpack is one of the recent environment-friendly solar innovations which become more and more popular. It allows the hiker or traveler the opportunity to keep their electronic devices charged anywhere they go using solar energy. 

We live at the age when we are constantly connected to one device or another such as smartphones, MP3 players, tablets, laptops, so the importance of having a source of power with us has never been greater. Here comes a solar-powered backpack. It can harness enough solar energy to keep us connected with the world and it is ideal for people who like to take hiking trips or go camping.

The solar-powered backpack has a small solar panel attached to its outer surface so we can capture the sun’s rays. The interior space includes a storage battery and other components. The solar panel is lightweight, waterproof and can produce up to 10 watts of power. 

Other components of the solar-powered backpack include a flexible mono-crystalline or thin-film solar panels, charge controller, a variety of cell phone adapters and a USB plug for your MP3 player.

With the solar-powered backpack, you can also power a GPS, a travel lamp, a digital camera, a palm pilot, and other rechargeable electronic devices.

The solar-powered backpack has a lithium-ion battery pack inside to store this energy. NASA and the US Army have used copper indium gallium diselenide (CIGS) solar cells for its unbreakable strength and flexibility.

A solar-powered backpack known as REPPS (Rucksack Enhanced Portable Power System), was first used by the US army for communication equipment in 2010 in Afghanistan. The US Air Force had previously used solar panels on shipping containers, developed by Lockheed Martin. And the Marines developed suitcase units of foldable solar panels which can also be carried as a backpack.

A solar-powered backpack can also be used for international aid, disaster relief, and humanitarian relief efforts where power from the utility grid is not available. (read this article)

Several companies are manufacturing solar backpacks and they range in price from $75 to $500.

Solar Power and Net Metering

Grid-tied solar power system (with net metering) diagram

Net metering, or also known as net energy metering (NEM), is another big reason why the solar panels are a good investment for your home or business.

Net metering is possible when your home maintains a connection to the grid even after you install solar panels, and of course, when the net metering is available in your area. The grid-connected (grid-tied) solar power system with net metering consists of solar panels, a grid-tied solar inverter that converts DC (direct current) to AC (alternating current), and net meter. DC generated from your solar panels is converted into AC, which is the type of current that is used by the electrical appliances in your home.

Let's explain simply what is net metering and how it works.

When your solar panels produce excess power, it goes to the grid. The utility company compensates you for the excess grid supply with credits added to your electric bill. For the time, when your solar panels produce less power than your household is needed, you can draw electricity from the grid. A net meter (bi-directional meter) is installed to register both the excess solar energy that you export to the grid and the energy that you consume from the grid. This ensures that consumers are only charged for their “net” energy use (energy consumed minus energy sent to the grid). 

Monthly net metering allows consumers to use solar power generated during the day at night. Similarly, during the spring and summer, when the sun is shining, and your solar panels are producing more electricity than you need, that extra energy goes to the grid. Then in the winter, when the days are shorter, you can draw on those energy credits to help offset some of your energy needs.

The grid acts as an energy storage system for your excess power and saves it for later use. The grid connection ensures that you still have power regardless of daily or seasonal variations in solar panels production levels.

So, with grid-tied solar power system and net metering billing mechanism, you save money besides that you help the environment and reduce your carbon footprints.

Net metering originated in the United States, where solar panels and small wind turbines were connected to the electrical grid, and consumers wanted to be able to use the electricity generated at a different time or date from when it was generated. In 1979 an apartment complex and a solar test house in Massachusetts were the first two projects to use net metering. Minnesota is commonly cited as passing the first net metering law, in 1983, and allowed anyone generating less than 40 kWh to either roll over any credit to the next month, or be paid for the excess. 

Keep in mind, however, that net metering policies can vary significantly by country and by state or province. It is not available everywhere in the U.S., which means that there is a need for other nighttime power supply options such as solar battery storage.

Net metering was slow to be adopted in Europe, especially in the United Kingdom, because of confusion over how to address the value-added tax (VAT). Only one utility company in Great Britain offers net metering. In Canada, some provinces have net metering programs.

How to Harvest Solar Energy on Cloudy Days

Image credit: SunModo

Talking about solar energy without sunlight, it is interesting to see how solar energy can be harvest on cloudy days. 

Even on cloudy days, there’s still solar energy send down to earth from the sun. And although solar panels don’t produce as much electricity as they do on sunny days, they have been shown to produce 25% of what they produce on a sunny day, or 10% when it’s very cloudy. The exact amount will vary depending on the density of the clouds, and may also vary by the type of solar panel - some kinds of panels are better at receiving diffuse light. SunPower solar cells, for example, have been designed to capture a broader range of the solar spectrum. By capturing more red and blue wavelengths, their solar panels can generate more electricity even when it’s overcast.

We may assume that solar panels thrive in hot, sunny weather, but too much heat can also reduce solar panel output 10-15%. The very hot climate isn't the best condition for them. Most solar panels' power outputs start to degrade if the temperature of the panel goes over about 25°C. 

Solar power can work well in areas known for cloudy, cold weather. For example, New York, San Francisco, Milwaukee, Boston, and Seattle. These cites often have bad weather, from blizzards to rain and fog. However, each of these cities tops the list of those that see major savings due to solar power installations. And rain helps to keep the panels operating efficiently by washing away any dust, pollen, and dirt. Clean panels turn out the most electricity.

San Francisco is well known for its foggy days with cool weather but rooftop solar power systems in San Francisco do function well. The amount of direct sunlight is reduced by fog and clouds, but as already was said, solar panels function better at cooler temperatures, so the electricity output in San Francisco is still significant. Using a home solar power system there can save approximately $1,500 per year on utility bills.

Germany is the fourth-largest PV market in the world that's famous for its lack of sunlight. Germany accounts for about 25 percent of the world's solar power output and achieved its strongest growth in half a decade during 2018, according to a recent Greentech Media article. 

Going solar is about saving on your energy costs as well as helping our planet and the weather can’t be an obstacle.

And if we choose to rely on solar panels for our home electricity use, we can also use a solar battery system to save money by storing free energy for use when it’s cloudy or for night use. Solar batteries have been around for a while, but up until recently, the costs were very high, the equipment was bulky and they were difficult to use. Except for people who lived off the grid, they weren’t so good investment. But that has changed in recent years. The price of solar batteries has dropped and in many cases, they are now an excellent investment for homeowners in cloudy regions who want to reduce their electricity bills.

Sources: Cleantechnika & Powerhome