According to a report published in January by the German solar industry association BSW, German solar energy growing rapidly. The capacity of storage batteries has notably doubled by 2023. With a total capacity of 12 GW, it could provide the equivalent of a day’s electricity to a million homes.
Carsten Körnig, director of the association, said that more and more individual buildings are installing solar electrical systems on their roofs, thus guaranteeing permanent electricity.
Plan of Ddevelopment of the’ANDenergy Solar in Germany
Germany is very supportive of clean energy, which should represent 80 % of electricity demand by 2030. In 2023, Germany's annual installed solar power capacity increased by 14,1 GW, which places it first in Europe. The total installed photovoltaic capacity in Germany has reached 80,74 GW.
The German government has set 215 GW the cumulative installed capacity of photovoltaic energy in 2030. To promote the development of solar energy, the German federal government has approved a series of policies.
Development of ANDenergies PRoprops in Germany
Energy ANDwind turbine
Germany accelerates development of onshore wind energy. During the first semester 2023, 1,6 GW of new wind power will be installed, or a growth of 35 % compared to the same period in 2022. German onshore wind energy continues to grow.
Wednesday, German renewable energy developer PNE AG said it has connected two wind farms in Schleswig-Holstein with a total capacity of 21,6 MW, in addition to 11 other wind farms under construction with a total installed capacity of 281 MW.
Production d’ANDenergy Hhydroelectric
Hydroelectric power generation has enormous benefits in terms of controlling energy demand. Water flow can be controlled depending on the level of electricity demand, and the power of production capacity electricity can be controlled. Germany has 100 years of history in hydroelectric power generation.
Germany has more than 7 000 hydroelectric power stations with an installed capacity of 6 000 MW, which represents only a small part of the electricity supply, but constitutes one of the most controllable sources of energy.
Mainz is one of the largest hydroelectric power plants in Germany, producing 900 MW of electricity per year. Hydropower is expected to reach 1,4 GW from here 2030.
Photovoltaic
Photovoltaic electricity production was developed earlier in Germany. In the years 1980, the German government began to promote the development of the solar energy sector.
At the start, solar electrical systems were mainly installed on the roofs of homes. In 2004, installed solar capacity in Germany reached 1500 MW.
Afterwards, in order to accelerate the development of new energies. The German government has provided subsidies and launched preferential policies for photovoltaic power generation projects. A large number of investors and energy developers have entered the field of photovoltaic energy.
Germany's installed solar power capacity has grown rapidly in 2010 to reach 17 GW, thus becoming the largest solar energy production capacity in the country.
From here 2023, the total installed capacity in Germany will reach 80,74 GW. More and more photovoltaic systems are being integrated into the electricity grid, becoming an important part of Germany's clean energy.
Currently, photovoltaic systems are mainly focused on house roofs and large-scale photovoltaic power plants. Agricultural photovoltaic systems will be developed in the future.
Photovoltaic Agricole
Besides the roofs of buildings, agricultural land offers many opportunities for photovoltaic energy development.
Eurostat data shows that there is 98 million hectares of agricultural land in Europe, but only 1 % agricultural land is equipped with solar energy systems.
It is expected that 50 % agricultural areas will be equipped with photovoltaic systems in the future. Agriculture and new energy sources are developing together.
A subsidiary of Deutsche Telekom has signed a power purchase agreement with energy supplier Vattenfall. Vattenfall is currently building an agricultural photovoltaic power plant in the Mecklenburg-Vorpommern region of Germany.
The solar equipment will be combined with agriculture and there are currently plans to raise chickens under the solar equipment. Once completed, the project should produce 79 MW of electricity.
Disadvantages of Sources d’ANDenergy Ttraditional
One of the effects of the use of petrochemical resources is environmental pollution. In the past, electricity production was heavily dependent on petrochemical energy sources.
But the process of burning fossil fuels such as coal, oil and natural gas produce a large amount of greenhouse gases and toxic substances. This causes air pollution, the greenhouse effect, and enormous pressure on the environment and climate.
Secondly, petrochemical resources are non-renewable energies. They form over millions of years in a high temperature and high pressure environment. The acceleration of industrial processes leads to the exploitation of large quantities of resources. Petrochemical resources will one day be exhausted.
Advantages of’ANDenergy Solive oil
Solar power is key to Germany's transition from traditional fossil energy to clean energy. It also has positive implications in terms of environmental protection and climate issues..
The development of solar energy will inevitably reduce the use of fossil fuels and significantly reduce greenhouse gas emissions.. A positive contribution to climate change and environmental protection.
Solar energy is a renewable energy source, without exhaustion problem. It is one of the renewable energy sources.
Solar energy is easy to use. Large photovoltaic plants are not the only ones that can be used. Any lit area can generate electricity from solar panels.
With the development of technology and long-term use of equipment, the cost of photovoltaic equipment is gradually decreasing. The cost of photovoltaic equipment is gradually decreasing. Economic feasibility is good.
The Cable Photovoltaic is the key to Ssystem Phot-voltaic
Photovoltaic cables are key players in photovoltaic power systems and play an important role.
First of all, it is necessary to understand what are photovoltaic cables. A photovoltaic cable consists of a conductor, insulation and sheath. In actual use of the process, it allows energy to be transported quickly. It guarantees user safety.
Photovoltaic equipment installed in various environments. It is necessary to correct the PV cable so that it can withstand harsh environments.
For photovoltaic systems installed on roofs. Photovoltaic cables are in greater contact with residents and it is necessary to ensure that the cables are fireproof. They will not intensify combustion or release toxic gases in the event of a fire.
Finally, Photovoltaic cables constitute an important element of the photovoltaic system infrastructure. They improve the efficiency of electricity transmission of the photovoltaic system, protect equipment and personnel safety.
Perspectives d’Acome
With the development of clean energies, the science and technology field of photovoltaic technology will also experience a breakthrough. Battery storage capacity, solar panels and solar cables with increased transmission efficiency. With industrialization, the cost of use will continue to decrease. More competitive.
Environmental issues and climate change are becoming more and more serious. More and more countries are supporting the development of green energy and making carbon neutrality a long-term goal of energy development.. Providing more opportunities and markets for clean energy.
International cooperation and political support are essential to promote clean energy. Global emissions reduction targets, energy transition policies and international cooperation mechanisms will offer more opportunities and clean energy markets.