Solar energy application methods and fields

Solar energy application methods and fields

There are many ways to convert and apply solar energy. Its application fields are very wide. It is closely related to the national industrial and agricultural construction. It is the leader of the energy revolution, the foundation of sustainable social development, and an important way for people to improve the quality of life and the environment.

Solar energy conversion and application methods
(1) Light-to-heat conversion. The water pipe coated with heat-absorbing material absorbs the radiant heat of the sun to heat the water and transport it to the incubator for storage for life and bathing. If the sunlight is focused through a lens, the concentrated heat can quickly heat the object to a high temperature, and even melt and weld metal.
(2) Photoelectric conversion. The use of semiconductor material doping to form P-type semiconductor and N-type semiconductor, the two combined into a photovoltaic cell with a PN junction, can output direct current.
(3) Photochemical conversion. Including photosynthesis, photoelectrochemistry and photolysis. For example, the photoelectrolysis cell produces hydrogen to charge the hydrogen fuel cell.

Solar heating system and its application
(1) Solar water heating system. Solar heating system is the most widely used method. In the past, most domestic water heaters used gas or electricity, but now solar water heaters are gradually being used. Its output and market have been growing rapidly. In 2009, it reached 42 million square meters, accounting for 54% of the world’s total, and its social ownership reached 145 million square meters. It can save 21.75 million tons of standard coal annually. Saving 1 ton of coal can reduce 26.20kg of carbon dioxide, 8.5kg of sulfur dioxide, and 7.4kg of nitrogen oxides. In addition to bathing, solar water heaters can also be used for air conditioning and heating. The application system is shown in Figure 1. It can also be used in the light chemical industry. In 2010, the 500t hot water project of Changshu Jinhong Printing and Dyeing Plant was put into operation. It used 44,800 solar collector tubes, the heat collection area was 7,500m2, and the daily supply of hot water at 60℃ was 500t, which met the production needs and saved 200 dollars a year. Ten thousand yuan. Schematic diagram of vacuum rotary guide (solar) raid, cold crack air conditioner, and domestic hot water system

Solar energy application methods and fields
Figure 1 Solar heating application system

(2) Solar thermal power station. Solar concentrating thermal power generation is shown in Figure 3. It uses a parabolic mirror to focus the light on the heat absorption tube filled with synthetic oil, and then sends the synthetic oil heated to about 400C to the heat exchanger to heat the circulating water, generate water vapor, and drive the steam turbine to rotate to make the generator run to generate electricity .

Solar energy application methods and fields
Figure 2 Solar concentrating thermal power generation
Solar energy application methods and fields
Figure 3 Types of solar photovoltaic power plants

There are two types of solar photovoltaic power stations: off-grid and grid-connected, as shown in Figure 2.
(1) Off-grid power station. Figure 3(a) shows a power station that does not have a relationship with the public grid, is self-generated and used, and is independent and self-contained. The system is composed of photovoltaic modules, photovoltaic controllers, inverters and batteries. It is mostly used in areas without electricity or lack of electricity, or vehicle-mounted mobile power stations are exclusively used by car dealers and on-board working equipment.
(2) Grid-connected power station. Figure 3 (b) is the use of photovoltaic grid-connected inverters (both photovoltaic controller and inverter functions).
Directly convert the direct current produced by the photovoltaic module into alternating current through an electric meter in parallel with the external power grid, complementing the surplus with the external power, selling the remaining electricity, and buying the electricity if it is lacking. No need for storage batteries, low construction cost, no need to change the electrical equipment used, household power stations are mainly based on this.