Digital twin Web intelligent "double-carbon" micro-grid scene, effectively realize the integrated management and control of source, network, load and energy storage. The whole scene adopts the way of light weight and heavy modeling, so the designer has the space of "design" and shows more aesthetic creativity. Support 360-degree observation of dynamic data of each link in the virtual campus network load storage, highlight equipment models such as energy routers, transformers and power distribution rooms, provide graphical configuration SCADA capability, and express the whole process of photovoltaic from light energy to electric energy to equipment power supply and energy storage in line flow mode. Statistics of the excessive electricity consumption, cumulative electricity consumption, illumination duration and illuminance on that day are conducive to comprehensive analysis. Using histogram to dynamically display the output and indication of AC power supply within 24 hours, grasp the daily data change and improve the power adjustment ability.
In the three-dimensional visual design of energy storage box, 2D panel can pop up to make statistics and fault warning on current capacity, battery temperature, SOH battery health status, cumulative charging amount, cumulative charging times and fire risk, so as to ensure the safety of container system. Provide a complete pipeline tool chain, from view component design, icon design, 2D drawing design to 3D scene design. Designers and programmers can realize collaborative work development and quickly realize 2D and 3D visualization results.
As a miniature comprehensive energy system close to users, microgrid covers primary energy such as solar energy and wind energy, secondary energy such as electricity, heat and gas, as well as load demand, energy storage, control and protection equipment and information platform. Taking electric energy as the core, through multi-energy interconnection, information energy coupling and market economy guidance, the coordination, optimization and self-balance of multi-energy "supply and demand" can be realized.
Building energy consumption, especially the energy consumption of large public buildings, occupies a large proportion in the total energy consumption of cities. Therefore, how to effectively monitor and analyze building energy consumption, carry out intelligent energy-saving management for large buildings and reduce daily operation energy consumption has become the main concern of major enterprises. Hightopo's fully integrated energy visualization management system for lightweight buildings can track and effectively manage building energy consumption through 2D and 3D visualization means, improve the management level of energy saving, achieve the coupling purpose of energy saving and supply-demand interaction, and realize centralized monitoring, management and decentralized control of energy, including power distribution, lighting, air conditioning, heating, water supply and drainage, etc.
Through the background data interface, the core system can automatically install and disassemble equipment, intelligently control and manage all pipes, equipment and structures in the water supply and drainage system, and view key information in combination with 2D view to fully grasp the operation of water system equipment, including wireless water meters on all floors, LORA switches, energy efficiency management platforms, etc., to ensure the safe and efficient operation of the water supply system.
Two-dimensional or three-dimensional visualization engine, intelligent transformation of building power supply system, forming a self-management system, so that every detail can interact and feedback in real time. Including sensors, intelligent Internet of Things GPRS/4G/NB-LOT, platform equipment information of big data system, realizing 2D configuration effect that even mobile phones can view anytime and anywhere. By collecting the relevant national, provincial and municipal power consumption quota standards and summarizing the comprehensive data, the over-limit equipment can be warned in real time.
Make new contributions to green manufacturing: As a renewable energy source, solar energy has the advantages of being recycled and supplemented after consumption, and producing no or little pollutants. Through intelligent and visual means, we will further give play to the advantages of energy, build a green manufacturing system, promote the quality change, efficiency change and power change of traditional industries, and make contributions to the overall energy development and green structure.
Energy-saving in the whole line: The fully integrated energy management system can comprehensively collect energy consumption data of power supply, lighting, air conditioning, water supply and other professions, making energy consumption intuitive, clear and transparent, and facilitating classified statistics. Therefore, the whole operation management personnel can grasp the energy consumption of the building more comprehensively and timely, ensure that the system can run in the best energy-saving state and obtain energy-saving benefits.
Under the new power system, the operation of power grid gradually presents the characteristics of intelligence and digitalization. With the development of "source-network-storage integration" operation, cloud computing, big data, power internet of things, edge computing and other technical means in "cloud-big things moving to the edge of intelligent chain" are urgently needed, so that the power grid system is equipped with cloud solutions with massive data processing and analysis capabilities and highly intelligent decision-making capabilities. So as to realize the integration of various energy resources, break through the barriers between energy links, and make the elements of "source, network and storage" truly friendly and cooperative.
The 14th Five-Year Plan of Modern Energy System proposes to innovate the power grid structure and operation mode and accelerate the construction of modern energy system. Accelerate the transformation and upgrading of distribution network, promote the construction of intelligent distribution network, and improve the carrying capacity and flexibility of distribution network to accept new energy and diversified loads. Actively develop smart microgrid focusing on consuming new energy to realize compatibility and complementarity with large power grid.