my country's new energy storage industry is still in the early stages of commercialization, and application scenarios are still in the exploratory stage, containing infinite possibilities. The energy storage industry has the characteristics of wide application scenarios, huge market growth space, long industrial chain and a variety of technical routes, and its development prospects are very broad. Xinhui has superior location conditions and significant basic advantages in developing new energy storage industries, and can widely link industrial resources in the Greater Bay Area. At the same time, the Xinhui new energy battery industry cluster is developing rapidly, with a high degree of integration between the innovation chain and the industrial chain, an excellent business environment, accurate investment in the entire industry chain, and multiple financial service channels. It is an ideal place for the development of the new energy storage industry. In the future, Xinhui's new energy storage industry can focus on the development directions of energy storage power stations, energy storage batteries and materials, energy storage core components, energy storage key components and system integration.
With the goals of carbon peaking and carbon neutrality proposed, the energy storage industry has entered the fast lane of development and has become an important support for building a new power system. In the context of large-scale new energy being connected to the power grid, energy storage is of great significance as a guarantee for the stable operation of a high proportion of new energy in the power system. However, the operation and control of combined wind, solar and storage power generation is often a technical problem. If the total output of new energy can be smooth and controllable and reach the level of conventional power supply, it will promote a significant improvement in the level of domestic equipment. Integrated wind, solar and storage power stations play a key leading role in the clean and low-carbon energy transformation, providing a good platform for the application verification of my country's new energy innovation achievements.
Tupu uses new energy storage technology as a breakthrough to build a new generation of grid-friendly new energy demonstration power station visualization system, 2D and 3D collaborative design tools, 2D configuration/3D configuration, low-code development and other types of The wind, solar, and storage monitoring system built using visualization tools is the “central brain” of a new generation of grid-friendly green power stations. Through the coordination and optimization control of wind, solar, and storage, various network source interaction modes such as command tracking, peak power supply, and system peak shaving can be realized to maximize the consumption and utilization of new energy.
The construction and operation of energy storage power stations can improve the stability of the power grid and reduce or avoid frequency fluctuations caused by power generation equipment. Energy storage, the more common ones are lithium iron phosphate batteries, supercapacitors, flow batteries, lead-acid batteries, etc. The energy storage system can be used step by step to re-apply the retired electric vehicle batteries on the engineered system cascade platform.
Through two-dimensional and three-dimensional visualization, the two-dimensional monitoring data of the energy storage power station is seamlessly combined with the three-dimensional rendering scene. The scope of the energy storage power station scenario includes the dispatch center, energy storage system, and substation (power wiring diagram).
The four data monitoring modules of smooth output, tracking plan, energy storage frequency modulation, and peak shaving and valley filling*** together carry the data analysis capabilities of the energy storage station, and respectively correspond to the wind and solar output volatility analysis, wind and solar output volatility analysis, and wind and solar output fluctuation analysis. Storage output deviation analysis, energy storage output fluctuation analysis, and energy storage real-time power analysis. The monitoring purpose is to improve the perceptibility, shareability, processing, predictability and collaboration of data, providing a solid decision-making basis for the centralized control center.
Click on the energy storage container model, and the scene will show the overall remaining power of the battery pack in a three-dimensional animation, making the visual effect more vivid and vivid. The panel displays a real-time two-dimensional dashboard of main data, such as available charge and discharge capacity, active power, reactive power, charge and discharge adjustable depth and other real-time data.
The energy storage system level page mainly displays the basic information of the battery supplier, installation date, access bus section, nominal output, rated output, energy storage capacity, battery specifications, transformer specifications and other equipment in the box. Information, as well as real-time operating data of active/reactive power, available charge and discharge capacity, and adjustable depth of charge and discharge. Use an intuitive battery capacity graphic design to show the total remaining power (SOC) and battery health (SOH).
Through Hightopo's rapid control of the active and reactive power of the energy storage system, it simulates the inertia response and primary frequency regulation of conventional synchronous generator units, significantly improving the stability of new power systems with new energy as the main body, and strengthening the The source and protection network provide a strong guarantee.
The energy storage unit visual monitoring module mainly displays the temperature and humidity of each battery pack in the battery compartment, as well as important monitoring such as voltage, current, power, SOC (state of charge), and SOH (operational state). The indicator displays the remaining power of the battery pack in the form of "liquid level filling", making the information of each battery pack more clear and easy to understand.
Achieving carbon neutrality has become a global consensus, and the development of energy storage technology is a necessary condition to promote the transformation of the energy structure. Because renewable energy has the characteristics of intermittency, volatility and uncertainty, resulting in power The balance between supply and demand is difficult to guarantee. Energy storage technology can increase the proportion of renewable energy consumption, reduce the impact on the power grid, and improve the flexibility, economy, and security of the power system.