The generator's transparent window is a thin-film solar cell. This kind of battery is actually a kind of film, but this kind of film is extraordinary. The main material of the film is a transparent compound. The compound is filled with metal particles with a diameter of about 10 nanometers. Of course, the arrangement of these metal nanoparticles in the compound is not haphazard. They form a neat matrix among themselves. Although the film must absorb light hitting the window in order to store electricity, between the gaps in the metal nanoparticles, light can still pass through the glass and shine into the room. When this special film is applied to a glass window or a transparent roof, it will make people feel that the window glass turns into tinted glass with a light color. This kind of thin-film solar cell has a much stronger power storage capacity than similar products in the past, so if you stick it on a window, the window becomes an invisible window generator; if you stick it around the building, the building will become an invisible building generating electricity. machine; of course, it can also be attached to the roof of the car to charge the car battery... However, the storage energy of this battery is still relatively limited, and it can be used to maintain home lighting and small appliances. If you rely solely on it to drive a car, it's almost as effective as pushing the car by hand. Another valuable thing about this magical battery is that even if it is laid out over a large area, it can save a lot of money than installing traditional solar energy devices.
Prospects of the energy storage industry
The current largest offshore wind farm in the world is the London Array (London Array)
The current London Array is the largest offshore wind farm in the world There is no such thing as a field.
This wind farm built in 2013 is located 20 kilometers east of Kent Bay in the UK. It has 175 wind turbines with a power generation capacity of up to 630MW.
What are the categories of inductance coefficients in the inductance matrix of the flux linkage equation of synchronous generators?
The employment direction and prospects of energy storage science and engineering majors are analyzed as follows: good training Character, physical and mental health, high sense of social responsibility and professional ethics, good engineering practice ability and self-learning ability, strong adaptability and innovation awareness, systematic mastery of energy storage science and engineering knowledge, and the ability to engage in energy storage, new energy, and distribution Scientific research, engineering design, technology research and development and production technology management of national strategic emerging industries such as alternative energy, energy conservation and environmental protection.
And can play an important role in the development of China's energy storage industry.
Related content:
Energy storage science and engineering, relying on the disciplinary characteristics of energy and power engineering, new energy science and engineering and the advantages of the energy and power industry, is a national strategic emerging Industrial major, facing the strategic needs of the national energy revolution and the strategic goal of "peak carbon dioxide emissions and carbon neutrality". This major is an emerging special major approved by the Ministry of Education in 2020.
The first is to strengthen the independent innovation capabilities of scientific and technological integration, the second is to create new fields through integration, and the third is to apply practice in multiple industries.
Same asThe inductance coefficient in the inductance matrix of the step generator flux linkage equation is divided into ferrous metals, synthetic metals and semiconductors. According to relevant information, the inductance coefficient in the inductance matrix of the synchronous generator flux linkage equation is a physical quantity that measures the ability of the coil to generate electromagnetic induction. The greater the power supply to the coil, the stronger the magnetic field, and the greater the magnetic flux passing through the coil. Experiment It is proved that the magnetic flux passing through the coil is proportional to the current flowing through the coil. The ratio is called the self-inductance coefficient, also called inductance. The inductance coefficient is divided into ferrous metals, synthetic metals and semiconductors according to the coil material.