Using electricity is becoming a part of life. We cannot live even a day without it. Most developing countries are trying to control electricity. Developed countries are moving to the next level to produce electricity with nuclear power plants, but most developing countries are still trying to manage electricity with different resources like wind power energy, solar energy, and thermal power energy. Meteorologists are worried about the sudden change in weather. They think the sun will not always shine, and the wind will not always blow. So what should we do in this situation?
During power outage days, we use generators to produce electricity. We have different types of generators, such as standby generators, solar generators, portable generators, diesel generators, gasoline generators, and more. These generators are available in different sizes and power like 2000 w generator, 4500 w generator, 7500 w generator, 10000 w generator, and 20000 w generator according to your need. These generators can run many household appliances including ceiling fans, bulbs, laptops, TVs, smartphone chargers, microwave ovens, electric stoves, freezers, coffee makers, toasters, washing machines, and many other things you may need. It depends on the capacity of the generator. Evan, you can also run ACs on generators.
Where do we store power?
We need to find other ways to generate and store electricity for the future. We have many ways to store power such as:
Storing power in batteries:
We can store power in batteries for further use, and this is one of the best ways to do it. The simplest example you can see is your smartphone batteries. When you charge your phone, you can use it throughout the day. Some smartphone batteries and their capacity are so big that these phones can last for 2-3 days. These batteries use lithium, nickel, cobalt, and other technologies used to store electricity. It stores power until we need it.
Similarly, if we talk about solar energy. We use solar panels and place them on the roof to generate electricity. We can use this power directly, but we can also store it in the form of large batteries. This is such an environmentally friendly way of generating and storing electricity. Its price is not high, its capacity and performance are very good.
Thermal Energy Storage Works:
This system has four main components:
- Solar Thermal Collectors
- BTES (Borehole Thermal Energy Storage)
- Heat Pump
- Smart Controller
Solar Thermal Collectors:
These capture heat from the sun to heat buildings. They can be installed as a roof or on land.
BTES (Borehole Thermal Energy Storage):
Our unique formation of boreholes stores heats in the earth turning it into a battery. Waste heat from industry, compressors, absorption chillers, or excess district heating can also be stored.
A heat pump provides a heat boost if needed. We feed it warm water so it produces more heat using less electricity.
This unit maintains optimal efficiency by monitoring heat flows.
Thermal Energy Storage Cycle Starts:
The cycle begins in spring when the sun heats solar collectors. This heat is used to heat the building’s hot water. If more heat is needed the heat pump is fed with worm solar water. Enabling the heat pump to work at its highest possible efficiency. Any excess heat will be stored in the BTES beginning its charging.
As the summer arrives the rate of BTES charging increases, with the heat going to the building as and when it’s needed.
The arrival of autumn signals the start of the discharge phase, with the smart controller efficiently balancing heat distribution.
As it slowly discharges the BTES throughout the winter. The building is kept warm while running costs are kept to a minimum.
And then the cycle begins once more. BTES efficiency improves each year reaching peak efficiency after 5 years.