Smart energy systems in three minutes
Smart power supply or smart energy system is to monitor the real-time energy of equipment through digital technology, the Internet of Things, cloud computing, and other technologies, reduce the waste of energy, strengthen the management of energy.
During energy generation, the smart energy system can generate electricity via wind, photovoltaic energy, and bioenergy. Thermal power generation, on its side, will be capable of monitoring status, temperature, pressure, flow, etc., of power generation with a smart energy system that is for improving power generation efficiency.
The energy transmission link takes the form of the smart energy system, “smart grid.” When the power demand suddenly increases in a particular area, the smart grid is able to dispatch nearby power generation resources for power supply rapidly, or adjust the power distribution in other areas to avoid power outages. The Smart grid allows access to distributed power sources, such as solar-powered homes, where extra electricity generated by users can be fed back into the grid.
The BMS system in the energy storage system is strictly a kind of smart energy in terms of energy storage. In the field of communication, the intelligent power system and energy system show modules or boxes, while the principle is also the introduction of new energy and utility; through the synergy of various internal modules, communication energy storage and energy management can be realized. Therefore, energy management with modern cash technology can save resources and avoid energy waste.
The MIMO power system consists of photovoltaic module, rectifier module, inverter swap module, AC power distribution unit, DC power distribution unit, monitoring unit, surge protection unit, etc. It supports a variety of energy input and a variety of voltage output, and supports module mixing and module hot swap.
Minimalist smart power system:
The product includes the power module, the monitoring unit, the mating unit, DC distribution unit, lithium battery, intelligent switch, FSU, and optical fiber welding module and other high-density integrated intelligent photoelectric hybrid power system. This effectively solves the power supply, backup power, optical fiber access and other functional requirements of the base station communication equipment.
Using Shanghai Huijue’s intelligent power system series as an example, through the integration of the rectifier, AC and DC lightning protection, intelligent power distribution, intelligent monitoring, wireless 4G communication, etc., the problems of a series of power supplies, backup power supply, and fast deployment of base stations can be solved, with the adoption of intelligent management methods like remote network management and Bluetooth APP for near-end mobile phones. Greatly decrease the failure rate of the website and operation and maintenance investment; the system can also be set according to customer needs: including photovoltaic, wind, utility energy mix, etc., and cable access.
Advantages of Smart Energy System
Improve energy efficiency: Intelligent optimization of the energy system can reduce energy waste in the production, transmission, and use of the process. For instance, smart grids reduce transmission losses, while smart energy management systems in modern buildings reduce superfluous energy use.
Improve the reliability and security of energy supply: the real-time monitoring and rapid response mechanism in the smart energy system can handle failures and emergencies that happen in the energy system in a timely manner. For instance, when the power grid is hit by a natural disaster, the smart energy system can quickly isolate the fault area and restore power to other areas.
To further facilitate the use of renewable energy sources, smart energy systems do a better job of managing intermittent and volatile renewable energy for integrating more renewable energy into the grid. For example, wind power generation and photovoltaic power generation can smooth the output power with the cooperation of energy storage system and smart grid, and guarantee the stability of the running of electricity.
Let’s take a look at Denmark, one of the more advanced countries in the world in terms of intelligent energy. The country has made a big push into renewable energy, and its smart grid can effectively connect large-scale offshore wind power to the land-based grid. At the same time, by establishing energy communities, residents are encouraged to participate in the production and storage of energy. For instance, some residents have installed solar panels and battery storage systems that allow them to sell excess power to the grid or buy it from the grid when needed, enabling a two-way energy interaction.
In most of the industrial parks in China, the intelligent energy system has also been widely used. Under this plan, the energy consumption within the park is managed in unison and optimized for maximization of its usage efficiency. For instance, in a chemical industrial park, the intelligent energy system monitors the real-time supply and use of steam, electricity, and other energies; it dynamically allocates according to the production plan and actual demand of the enterprise, reducing the comprehensive energy consumption of the park.