New Solar Panel Technologies

New Solar Panel Technologies

When people hear about the term solar energy than their first thought about solar panels. But there are now many thrilling new solar panel technologies either in the pipeline or already on the market. These technologies will revolutionize the way we think about not just solar, but energy generation in general. Solar no longer needs hefty parcels of land or roof space, nor does it require looking boring.

Floating Solar

Silicon panels are nowadays becoming low priced and more efficient day-by-day. According to experts if photovoltaic panels are positioned on reservoirs and other water bodies. They offer even considerable capacity as well as an abundance of other benefits. Photovoltaic solar power systems are made for floating on reservoirs, dams, and the rest of other water bodies. Some years before local officers decided to put a solar panel array  to power the water treatment plant but they were not able to decide to  where place it.

Floating solar is a small but very growing section in the solar power world. About 1,100 megawatts’ worth of projects are floating in waters globally, or less than 1 percent of the total world’s solar installations. Most of the movable solar arrays are in eastern Asia, where countries have ambitious targets for solar power but finite land to install panels. The world’s first floating solar array introduced in Aichi, Japan, in 2007.

Building Integrated Photovoltaic: – seamlessly mixture into building architecture in the form of roofs, canopies, facades, and skylight systems. Unlike traditional solar PV panels, BIPV can be aesthetically engaging rather than a settlement to a building’s design.

Only aesthetics is not sufficient for solar buyers, economics matters too. The good news is that the BIPV solar panel systems potentially viable homeowners to protect on building wares and electric power prices. By subtracting BIPV for standard building substance, you can Deduction down on the surplus-value of solar panel mounting systems.

BIPV technology gives such following benefits:

  • Enhance power efficiency
  • High level thermal and sound insulation
  • Keep Clean and free energy output from the sun
  • wane, O&M value
  • Zero carbon footprint

The photovoltaic PV glasses installed as building materials act as an energy-generating device, allowing natural light inside homes and offices, just as conventional architectural glasses.

 Solar Skin

Solar skin is a novel PV technology to combine tradition designs into solar panel systems. This technology is very much equal to the ad show on bus windows. The maker of solar skins is testing the technology at the United States National Renewable Energy Laboratory to enhance its capacity. Solar thin-film skins preserve high efficiency due to its selective light filtration progress. The sunlight fall down on solar skins is purifying to reach the solar cells below it. As a result, at the same time displays the custom picture and gives solar power. These imprinted tradition pictures, and embedded into solar panels, can absolutely match your grassy lawns or rooftops of your homes. Solar skin panels are also profitable for businesses or government offices. They can be making specially to display business logos, business ads, a country’s flag, and so on.

Additional, solar skins make use of  rail-less racking systems, sit lower, have a sleek finish, and hide metal components, providing  the panels a super cool look

Solar fabric

 Solar radiations are available all over the planet, so why not produce your own power, wherever you need? Just think that besides generating solar energy at a fixed location, you could also do it while on the shift through your own clothing.

Researchers are creating solar fabrics with a vision of including solar power in each fiber. These solar filaments can be embedded into your t-shirts, winter coats, or any other clothing to help you keep warmer, power your phone, and provide energy for other requirements when you’re on the go.

There are many areas where constructors have checked up to modulate solar fabric and solar panels.

  • To build facades that gives both shade and energy
  • Awnings that lighten up streetlights, and
  • Curtains that remove energy consumption from the grid

Solar fabricated household clothing will help you to save on solar panel mounting and installation costs. FTL Solar has generated a lightweight adjustable fabric with integrated thin-film solar panels that is efficient of shading your deck while lighting your home. Fundamentally designed as easily deployable canopies for military applications, FTL’s solar products are now easily accessible now for solar parking lot shades, rooftop building installations, and small and large solar tent structures. The solar fabric also acts, as shading for your sunny deck.

PV noise barrier

Highway traffic noise in the world was always been a serious issue for everyone. To control this issue, 48 states already have built nearly 3,100 miles of traffic noise barriers. Noise barriers were always manufactured with the single target of designing cost-effective barriers that proficiency executes noise abatement functions. Given the widespread use of noise barriers in the US, the feasible of creating solar power from these is likely to be around 400 giga watt hours (GWh) annually. This is roughly about equal to the annual electricity usage of 37,000 homes. Photovoltaic (PV) systems. Noise barriers are physical interrupt planned to lower noise levels between noise origin and sensitive receptors, such as hospitals, schools, and residential areas.

This system uses solar cells to change light power directly into electricity. In light of global warming, renewable such as solar photovoltaics (PV) is vital to reduce greenhouse gas emissions. A very critical issue regarding execution of solar panels on a large scale is the finite available area. Therefore, it can be exciting to modulate, PV with alternative applications, as a way of not need “additional” space. One example is a photovoltaic noise barrier (PVNB), where a noise barrier situates along a highway or railway is used as a substructure for PV modules. Even though PVNB is not a novel notion, in this paper, it is studied the best shape of the barrier to optimize the acoustic and power properties.

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