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E-mail
3008384089@qq.com
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Phone
15201760719
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Address
No. 253 Yulu Road, Malu Town, Jiading District, Shanghai
Shanghai Ankerui New Energy Co., Ltd
3008384089@qq.com
15201760719
No. 253 Yulu Road, Malu Town, Jiading District, Shanghai
1Policy intensification: paradigm shift of new energy from "online" to "consumption"
After the implementation of the policy of "improving the price mechanism to promote the nearby consumption of new energy generation" in September, the National Development and Reform Commission and the National Energy Administration have issued the "Guiding Opinions on Promoting the Consumption and Regulation of New Energy" again, forming a policy loop for the consumption of new energy. This landmark document marks a fundamental shift in the development logic of the industry. New energy is accelerating its shift from the previous focus on grid connected access to the "consumption model" with consumption as the core. The development model, rules, and ecology of the industry will be reconstructed accordingly. The policy clearly states that by 2030, it is necessary to meet the reasonable consumption demand of over 200GW of new energy added annually nationwide, in order to build a solid support for the carbon peak target. "Consumption is king" has become the core principle for industry development.
Under the guidance of the "dual carbon" target, China's new energy industry has experienced explosive growth, with the installed capacity of clean energy such as wind power and photovoltaics continuing to climb. However, the characteristics of "unstable output and uneven spatial and temporal distribution" of new energy, coupled with the contradiction between grid access capacity and load demand, have become increasingly prominent. The consumption problem of "being able to generate, deliver, and consume" has become a key bottleneck restricting the process of energy transformation.
How to integrate the utilization of new energy“*The next kilometer? Ankrui has been deeply involved in the field of energy management for many years. Based on a deep understanding of industry pain points and technological accumulation, it anchors five core consumption scenarios and launches targeted smart energy management solutions to solve the consumption dilemma through digital and intelligent means, injecting strong momentum into the efficient utilization of new energy.
IIFocusing on five core scenarios, accurately matching consumption needs
The solution to the problem of new energy consumption needs to be based on scenario specific needs and achieve "tailored measures according to local conditions and needs". Ankerui focuses on key links in the new energy industry chain, locks in five core consumption scenarios, and builds a full process solution:
1. Distributed photovoltaic storage scenario: spontaneous self use, worry free surplus electricity
In distributed photovoltaic application scenarios such as industrial plants, commercial buildings, and residential communities, the problem of "abandoned light" is particularly prominent. Ankerui's solution achieves dynamic matching between photovoltaics, energy storage, and load through photovoltaic output prediction, precise load monitoring, and intelligent regulation of energy storage charging and discharging. The system can automatically adjust the energy storage operation strategy based on real-time electricity prices and load changes, prioritize meeting local load electricity consumption, and flexibly choose to connect or store surplus electricity, which not only improves the self use rate of photovoltaics, but also reduces electricity costs for users and alleviates peak and valley pressure on the power grid.
2. New energy station grid connection scenario: stable output, efficient grid connection
When wind and photovoltaic power stations are connected to the grid on a large scale, fluctuations in output can easily lead to unstable grid frequency and voltage, affecting the safe operation of the grid. The Ankerui Smart Energy Management System achieves smooth adjustment of the output power of new energy stations through high-precision data collection, real-time situational awareness, and coordinated control of active/reactive power. At the same time, the system has bidirectional communication capability with the power grid dispatch center, which can respond to dispatch instructions for power control, ensure the safety, stability, and efficient grid connection of the station, and enhance the acceptance capacity of new energy in the power grid.
3. Microgrid consumption scenario: autonomous balancing and flexible operation
In scenarios such as microgrids in industrial parks and power supply in remote areas, new energy is usually used as the core power source and needs to achieve coordinated operation of "source grid load storage". Ankerui's solution is to build a microgrid energy management platform, integrating multiple types of power sources such as photovoltaics, wind power, energy storage, diesel generators, as well as various loads within the park. Through intelligent scheduling algorithms, energy can be autonomously balanced. When the output of new energy is insufficient, energy storage is discharged or diesel generators are started to supplement energy; When there is excess output, energy storage or mutual supply and consumption through microgrids can ensure the reliability of power supply,*Maximize the utilization rate of new energy.
4. Charging pile cluster consumption scenario: direct green power supply, collaborative efficiency improvement
With the rapid increase in the number of new energy vehicles, the demand for electricity from charging pile clusters has grown rapidly, becoming an important terminal for the consumption of new energy. Ankerui is creating an integrated solution of "green electricity+energy storage+charging piles" for charging pile cluster scenarios. The system can prioritize guiding charging stations to use green electricity such as photovoltaics and wind power, and through energy storage peak shaving and valley filling, avoid the impact of centralized charging of charging stations on the power grid. At the same time, it supports functions such as orderly charging and V2G (vehicle to grid), achieving synergistic efficiency between new energy consumption and electric vehicle charging, and helping to deepen the integration of electrification in the transportation sector and cleanliness in the energy sector.
three、Platform Features
1.System Overview
Full operation data such as "source network load storage", storage display, status detection, and operation alarm. Intuitively display various data such as electricity consumption, carbon emissions, costs, and equipment operation of microgrid systems. Real time presentation of microgrid power data flow and equipment security status.
2.Microgrid operation monitoring
Support power station topology, optical storage and charging monitoring, environmental monitoring, strategy execution, revenue settlement, situational awareness, etc.
3.power prediction
Multi source data integration: Based on meteorological data, historical operational data, and power grid data, understand the operating status of the power system.
High precision prediction model: Machine learning algorithms can automatically learn and adapt to changing trends under different conditions, ensuring the accuracy of prediction results.

4.optimized scheduling
Economic optimization scheduling based on optimal energy consumption, low cost, and low carbon emissions; Consider safe operation scheduling strategies for smooth power supply and voltage stability in the power grid; Demand side response to grid interaction strategy.
5. Coordination and control
6.Carbon emission management
Monitor the carbon emissions of enterprises, departments, and regions; Carbon emission statistics and month on month analysis; Support monthly and annual carbon emission reports; Generate carbon inventory report
7.Energy Planning
Optimize configuration based on load information, equipment information, market information, geographic information, etc., and provide economical capacity configuration solutions.
4Related hardware
In addition to the smart energy management platform, it also has on-site sensors, intelligent gateways and other equipment, forming a complete "cloud edge end" energy digitalization system, including high and low voltage distribution comprehensive protection and monitoring products, power quality online monitoring devices, power quality governance, lighting control, charging piles, electrical fire protection solutions, etc. It can provide one-stop service capabilities for enterprise level energy management systems of virtual power plants.

