The recent years have seen an alarming decrease in the reserves of fossil fuels all over the world, owing to over-exploitation and usage of resources. This has led people to consider alternative energy sources such as solar energy, tidal energy etc. to contribute towards an increase in capacity of Battery Storage. Now you might consider why the same is needed. But before we discuss that, let us know more about what it is.
What is Solar Battery Storage?
It refers to the capacity of devices to store energy harnessed by solar batteries (Solar Batterien)and then release the same when the need arises. This ability to store the energy harnessed and then release it makes them a highly viable alternative to the rapidly depleting fossil fuels as mentioned above. Additionally, with the rapid advancements in technology, the world will be leaning more towards the usage of such energy sources in the future.Let us discuss the need for Battery Storage in detail below.
Need for Battery Storage
Why do we need to store renewable energy in solar batteries (Solar Batterien)? Let us explore the same below:
- Helps prevent blackouts by stabilizing electricity grids
- Reduces the need for building additional power plants
- Provides much-needed backup during periods of power outage
- Decreases significant risk to the environment by reducing greenhouse gas emissions and focusing on cleaner energy sources
Now one of the most effective ways to practice Battery Storage in the case of solar energy happens to be solar batteries (Solar Batterien) Let’s learn more about these devices below.
What are Solar Panels?
Solar batteries (Solar Batterien) are essentially devices that assist in the conversion of sunlight into usable electricity. They are made of multiple solar cells, which are themselves, built from semiconductor materials, generally silicon.
How do Solar Panels Work?
Let’s learn about how these panels work below.
When rays of sunlight fall on these cells, the electrons present in the cells get excited, leading to the formation of an electric current, a process known as the photovoltaic effect.
Let us now talk about the types of solar panels below.
Types of Solar Panels
The following are the types of solar panels:
Monocrystalline (Monokristallin) Solar Panels
Monocrystalline (Monokristallin) solar panels refer to those panels that are made from single-crystal silicon, which gives them a uniformly black appearance.
They are made by cutting a single silicon crystal into several wafers.
Why are Monocrystalline (Monokristallin) Solar Panels valued?
Monocrystalline (Monokristallin) solar panels are valued for:
- Their high degree of efficiency in converting solar power to viable electricity
- Longevity, making them useful to be used for projects with a greater timeframe.
- Their ability to perform well in poorly lit conditions
- Their compact nature, that allows them to be used in spaces with tight constraints
Let us now discover where they are used below.
Where are Monocrystalline (Monokristallin) Solar Panels Used?
They are used in the following areas:
- These solar panels are most commonly used on residential rooftops, owing to their ability to function even on limited space, which allows homeowners to generate significant amounts of energy.
- Commercially, solar batteries (Solar Batterien) are used in car parks, to save on the electricity bills
- On solar farms with smaller surface areas owing to their ability to work in compact settings.
- In agricultural settings to help power irrigation equipment.
Let us now talk about Polycrystalline (Polykristillin) solar panels.
Polycrystalline(Polykristallin) Solar Panels
Polycrystalline (Polykristallin) refers to those solar panels that are made from silicon crystals that are fused, which makes them look blue and speckled from a distance.
Why are Polycrystalline (Polykristallin) Solar Panels valued?
These solar panels are valued for their:
- Cost-effectiveness: as compared to Monocrystalline (Monokristallin) panels since they are fused together.
- Sustainability. Due to the manner in which they are manufactured, they are often considered a lot more sustainable since they generate a lesser amount of environmental waste
- Durability: They are often considered to be more durable since they can survive in adverse weather conditions.
- Efficiency: They are a lot more efficient in generating electricity.
Let’s now learn about where they are used.
Where are Polycrystalline (Polykristallin) Solar Panels Used?
Polycrystalline (Polykristallin) solar panels are used in the following areas:
- They are used at stand-alone facilities such as remote homes, etc.
- To provide relief to disaster-struck areas in case of unwanted power outages
- On large-scale farms to generate great amounts of power
- To help cater to the needs of residential households.
Thus, as you can see, solar panels such as the ones mentioned above are quite useful for Solar Battery (Solar Batterien) Storage since they contribute better toward the proper harnessing of renewable energy.
To Conclude
Depending on your needs, you can choose either of the Monocrystalline (Monokristallin) or Polycrystalline (Polykristallin) solar panels.
So, we hope we have been able to resolve all your doubts and questions on solar Battery Storage and that you will now engage in responsible energy storage practices.