The Future of Solar Photovoltaic: Its Applications and More

Reducing carbon emissions is at the heart of the global accelerating shift from fossil fuels causing damage to the climate, towards renewable and clean forms of energy. The steady rise in solar PV generation is a vital part of the global level transformation of energy as part of the application of solar PV system. Renewable energy is crucial for reducing air pollution, improving well-being and health and providing affordable access to energy on a global level as part of the application of solar PV system.

Solar PV modules are made by connecting PV cells or solar cells together. These are made from semiconductor materials such as crystalline silicon. These solar modules convert solar light captured directly from the sun to electrical power. This electricity generated is used for lighting both commercial and residential establishments.

The Purpose of Solar PV Modules

Apart from the application of solar PV system, solar PV modules are used to boost the power output of photovoltaic cells by connecting them with each other. When the PV cells in solar modules absorb sunlight, the energy present in light photons is then transferred to the semiconductor.

These electrons are made to flow through this material in form of electric current. Usually, each solar PV module is rated within the range of 10W to 600W.

Applications in the Future

Let’s dive into the application of solar PV system. Some of the applications of solar PV in the future can be as follows:

• Solar PV Farms

Acres of solar PV panels help provide utility-scale power ranging from megawatts to more than a gigawatt of power. This large-scale system will use sun-tracking or fixed panels to power the regional or municipal grids as a future application of solar PV system.

• Remote Locations

It is not always cost-efficient, convenient and at times impossible to extend power lines to locations where electrical power is needed. PV solar installation is the best solution in this case for villages and rural homes, especially in developing nations like India. It helps run remote healthcare clinics, desalination plants, offshore oil platforms and lighthouses.

• Solar Power for Stand-alone Devices

In remote or urban areas, PV solar installation can effectively power stand-alone meters, tools and devices. It meets the need for electricity for parking meters, temporary signals, transmitters, phones, irrigation pumps, flow gauges and lights for roadways.

• Solar Power for Space

From the very beginning, Photovoltaic has been the primary source for the satellites orbiting earth. Highly efficient PV has successfully supplied power for ventures including the International space station and rovers on the surface of Mars and the Moon. Till date, it continues to be an integral part of planetary and space exploration.

• Needs Related to Commercial Buildings

For commercial buildings, PV panels mounted on the roof or the ground can easily supply electricity. Additionally, Photovoltaic material can also be integrated into the structure of a building in form of roof tiles or windows, serving a dual purpose. Parking structures and awnings can be covered with PV for the provision of shading and electrical power.

• Military Based Uses

Flexible thin film or lightweight PV can serve several military applications in which ruggedness and portability are both important characteristics.

• Transportation

Photovoltaics can provide auxiliary power for vehicles such as boats and cars. PV can be included in automobile sunroofs for onboard electrical power needs. PV which is lightweight in nature can also conform to the shape of the wings of the airplane, ultimately helping power aircrafts at higher altitudes

Recent Findings Shaping the Future of Solar PV

As per some of the recent findings, the future of PV looks like this:

• Solar PV can potentially cover a quarter of the global electricity needs and become one of the biggest sources of power generation after wind energy.
• The costs projected by solar PV are below the marginal costs of fossil fuels in global terms. It is all set to reduce further in the upcoming years.
• Solar photovoltaic is a fast-evolving industry, with innovations along the complete value chain, driving instantaneous cost reductions. Floating PV for example has an unhindered potential for massive growth.
• The rooftop PV system has rapidly spread thanks to the policies in support, inclusive of fiscal incentives and net metering,
• This type of transformation of energy also comes with benefits on a socio-economic level.

Expansion of solar energy from its relatively smaller present scale may produce changes in the future that we are unable to foresee today. Secondly, it is also imperative to consider that the future of solar PV heavily depends on the market conditions in the future and policies aimed at mitigating climate change on a global level.

Conclusion

One of the most common types of solar photovoltaic system in the market is polycrystalline solar panels. Polycrystalline modules made of photovoltaic cells comprise of several small crystals of silicon and are also highly cost-effective. Explore the wide range of solar panels on our website and pick the best fit solar PV modules as per your requirements.