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E-mail
2802943235@qq.com
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Phone
18702111683
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Address
No. 253 Yulu Road, Jiading District, Shanghai
Ankerui Electric Co., Ltd
2802943235@qq.com
18702111683
No. 253 Yulu Road, Jiading District, Shanghai
productiontypeHow can enterprises balance production capacity and energy consumption costs? Management of Source Grid Load Storage Microgridsolution
Introduction:
At present, with the increasing volatility of the global energy market and the continuous rise of environmental protection pressure, production enterprises are facing a daunting challenge: how to find a balance between ensuring stable production capacity and effectively managing energy consumption costsBalance point. The stable output of production capacity constitutes a solid foundation for enterprise profitability, while effective control of energy consumption costs directly affects the profit margin and competitiveness of enterprises. Therefore, how to significantly reduce energy consumption without sacrificing production efficiency has become a key challenge that many production enterprises urgently need to overcome. At this moment, the management solution for the source grid load storage microgrid is like a clear stream, providing a novel perspective and practical path for enterprises to explore the path of energy conservation and efficiency improvement.
1 What are the problems with energy management in traditional production-oriented enterprises?
Low energy utilization efficiency:Due to outdated equipment, outdated technology, or lack of an effective energy management system, the energy utilization rate in the production process is greatly reduced, resulting in significant energy losses;
Real time monitoring is missing:Traditional energy management models mostly rely on manual records and periodic inspections, lacking real-time and accurate tracking of energy usage data, making it difficult to quickly identify and solve energy abuse problems;
Cost control faces numerous challenges:Energy costs account for a significant share of enterprise operating costs. However, the lack of refined energy control measures makes it difficult for enterprises to accurately regulate energy costs, which in turn has a negative impact on the overall financial situation;
Environmental awareness needs to be improved:Some traditional enterprises have not fully realized the urgency of energy conservation and emission reduction, and lack the initiative to take environmental protection measures and energy management strategies, which is not conducive to the sustainable development process of enterprises;
Weak support for energy consumption data:In the process of seeking energy consumption system optimization, a major obstacle faced by enterprises is the lack of detailed energy consumption data as a solid basis for energy-saving transformation;
The emergency response mechanism is not sound:When encountering energy supply interruptions or sudden failures, enterprises may face the risk of production continuity and stability being compromised due to the lack of effective emergency response strategies and backup energy solutions;
Information sharing barriers:Energy usage data is scattered among various departments, lacking effective information sharing mechanisms, resulting in a lack of comprehensive and accurate data foundation for energy management decisions;
Regulatory compliance faces challenges:With the increasingly stringent environmental regulations, some traditional enterprises have failed to keep up with the pace of new standards in energy management and emission control, facing severe compliance challenges.
II What are the processes for energy conservation and carbon reduction transformation in production enterprises?
Clarify the scope of transformation:Accurately define the scope of enterprise digital transformation, including multiple links such as production processes, supply chain management, customer service, etc., to ensure the comprehensiveness and depth of the transformation;
Identify transformation needs:Thoroughly analyze the specific needs of digital transformation within the enterprise, covering information system upgrades, data integration and analysis, business process optimization, and other aspects, laying a solid foundation for subsequent digital transformation work;
Data collection and analysis:The system collects operational data of enterprises (such as production efficiency, customer satisfaction, etc.) and industry trend data, and conducts in-depth analysis of the digital transformation needs and potential opportunities of enterprises based on these data;
Set goals:Based on a detailed analysis of transformation needs, combined with the strategic positioning of the enterprise and industry development trends, scientifically set forward-looking and feasible digital transformation goals;
Develop a plan:Tailored specific digital transformation measures and plans based on identified transformation needs, such as introducing advanced information systems, optimizing data management processes, and enhancing employees' digital skills, striving for precise implementation;
Management system optimization:Establish a sound digital management system, strengthen data governance, information security, and compliance management, achieve refined and intelligent management, and enhance the scientificity and efficiency of management;
Establish a monitoring mechanism:Establish a comprehensive monitoring mechanism for the effectiveness of digital transformation, track the progress of transformation in real time, ensure the accuracy and timeliness of data, and provide strong support for digital transformation work;
Regular evaluation:Regularly conduct comprehensive evaluations of the implementation effectiveness of digital transformation measures, deeply analyze existing problems and challenges, adjust and optimize measures in a timely manner, and ensure the continuous and effective progress of transformation work;
Continuous improvement:Based on the evaluation results, continuously optimize and improve digital transformation measures, promote transformation work to a higher level, and achieve continuous improvement and enhancement;
Digital Asset Management:Establish a sound digital asset management system, implement unified management and efficient operation of digital assets such as data resources and information systems of enterprises, realize the value-added of digital assets, and assist enterprises in intelligent transformation and sustainable development.
III Microgrid Solution for Source Grid Load Storage Enterprises
3.1 Background of Solution Requirements
Dual Carbon Goal:We are committed to collaboratively promoting the four major aspects of carbon reduction, pollution reduction, green expansion, and growth, continuously improving the "dual control" system of energy consumption, actively moving towards carbon asset management and trading, and striving to achieve a deeper level of low-carbon transformation;
New power system:The system is based on the core support of source network load storage interaction and multi energy complementarity, demonstrating multiple advantages such as clean and low-carbon, safe and controllable, flexible and efficient, intelligent and friendly, and open interaction;
Electricity marketization reform:We are gradually realizing the market-oriented operation of electricity trading, orderly promoting the participation of new energy in electricity market trading, optimizing resource allocation, and actively exploring the construction and development of virtual power plants;
New energy policy:The government has introduced a series of subsidies and tax reduction policies to encourage the widespread application and development of new energy;
Standard specifications:To support the development of new energy, a series of policies and standards have been successively introduced, providing strong guarantees for the healthy development of the industry;
Industry development:Currently, distributed power sources and new energy vehicles are developing rapidly, while the construction of a large number of charging stations is also in full swing. In terms of technological cost, new energy technologies are becoming increasingly mature, with higher safety and more optimized costs, laying a solid foundation for the sustained prosperity of the industry.
3.2 Solution Networking Architecture
The system covers all aspects of the enterprise microgrid, including "source grid load storage charging". It collects conventional load data from measurement and control devices, photovoltaics, energy storage, and charging piles through an intelligent gateway, optimizes control based on load changes and grid scheduling, promotes the consumption of new energy while reducing the maximum demand on the grid, making its operation safer and more efficient.
3.3 Core Value of Solution
Promote the optimization of energy structure:By introducing renewable energy sources (such as solar and wind energy) and clean energy sources (such as nuclear and biomass energy), we can reduce our dependence on fossil fuels and thus lower energy costs. At the same time, by utilizing energy storage technology and smart grid technology, flexible scheduling and optimized configuration of energy can be achieved, further improving energy utilization efficiency;
Establish an energy cost management system:By real-time monitoring and analysis of energy usage, it helps enterprises identify energy waste links and develop targeted energy-saving measures. Meanwhile, by optimizing procurement strategies and negotiating energy contracts, energy procurement costs can be reduced;
Building a diversified energy supply system:By introducing various energy supply methods such as distributed energy and microgrids, the flexibility and reliability of energy supply can be improved. When the power grid malfunctions, it can quickly switch to backup energy supply to ensure that the normal production of the enterprise is not affected;
Strengthen the construction and maintenance of the power grid:By increasing investment in the power grid, the carrying capacity and disaster resistance of the power grid can be improved. At the same time, strengthen the inspection and maintenance of power grid equipment, timely discover and deal with potential safety hazards, and ensure the stable operation of the power grid;
Establish a carbon emission management system:By setting carbon emission targets and plans, monitoring and evaluating the carbon emissions of enterprises, timely discovering and correcting behaviors that exceed carbon emissions standards. Meanwhile, by participating in carbon emission trading and carbon finance product innovation, effective management and control of carbon emissions can be achieved;
Strengthen demand side management:By guiding enterprises to adjust production plans and electricity demand reasonably, balancing the relationship between electricity supply and demand, and reducing fluctuations in electricity load. At the same time, by promoting demand response technologies and products, users are encouraged to reduce their electricity load during peak hours and increase their electricity load during off peak hours, thereby improving the stability and economy of the power grid;
Optimize power grid scheduling and operation:By introducing advanced power grid scheduling technology and algorithms, intelligent scheduling and operation of the power grid can be achieved. By monitoring and predicting the power load in real-time, arranging the power generation plan and transmission scheme reasonably, ensuring the stable and efficient operation of the power grid;
4 Software featured program display
Custom cockpit:Visually display the overview of each section of "source network load storage charging"
Electricity statistics:Electricity consumption collection, electricity statistics, time-based electricity consumption, line losses, year-on-year and month on month analysis of electricity consumption, grouped electricity consumption statistics, custom compound rates, and time-based collection;
system operation:Instrument communication status、Gateway communication status、Server operating status、Offline events、Operational Journal、control log、Online user monitoring、Visitor Log、Communication status diagram;
Electrical safety:Leakage and cable temperature measurement、Electrical contact temperature measurement、Contact temperature monitoring、Contact temperature report、insulation monitoring、Fiber optic equipment monitoring、Fiber optic partition details、Partition real-time data;
Power monitoring:Electric power operation signboarddistribution room、DC screen monitoring、Reactive power compensation cabinet、Transformer monitoring、Comprehensive protection S0E incident、Power curve recording、Electricity Extreme Value Report、Power Operation Report、Hourly collection report、Summary Table of Whole Point Collection、Maximum demand analysis、averagepowerfactor、harmonic analysis、harmonic spectrum、Loop monitoring、Monthly report on power operation、Site load history rate、Arc protection、partial discharge;
distributed photovoltaic:Photovoltaic comprehensive dashboard, power station operation monitoring, inverter operation monitoring, power station generation statistics, inverter generation statistics, photovoltaic power station distribution monitoring, inverter curve analysis, photovoltaic panels, multi device curve analysisDiscrepancy report, simulated power generation, inverter parameter alarm;
Power quality:Comprehensive power quality dashboard, steady-state monitoring, harmonic spectrum, steady-state curve, harmonic curve, load curve, transient analysis, power quality SOE event and waveform analysis, power quality analysis, power quality governance, transient analysis report;
Intelligent lighting:Intelligent lighting control, event control, lighting control, scene control, operation recording, scheduled tasks, lighting monitoring;
Energy storage module:Energy storage operation and maintenance screen, energy storage dashboard, energy storage cabinet monitoring, equipment monitoring, statistical revenue report, time-based revenue report, and strategy issuance;
Industrial energy consumption:Industrial energy consumption topology, production time setting, shift setting, trend analysis, carbon emission monitoring, electricity cost analysis, output input, output statistics, product input, unit consumption report, product unit consumption, and unit consumption benchmarking analysis;
Carbon assets:Emission reduction plan, carbon emission analysis, trading records, carbon trading records, carbon accounting inventory, quota accounting, carbon emission report, carbon flow chart, carbon emission assessment;
5 Related hardware product display!
5.1 Supporting Products - Monitoring, Protection, and Governance Products
5.2 Supporting Products - Charging Products
Intelligent monitoring:The intelligent controller of the charging station has the functions of measuring, controlling, and protecting the charging station, such as monitoring the operation status, fault status, charging metering and billing, and linkage control of the charging process.
Smart metering:Output configuration intelligent energy meter for charging measurement, with complete communication function. The measurement information can be uploaded to the intelligent controller of the charging station and the network operation platform through RS485.
Cloud platform:Capable of connecting to cloud platforms, it can achieve real-time monitoring, financial statement analysis, and more.
Protection function:It has functions such as lightning protection, overload protection, short circuit protection, and leakage protection.
Remote upgrade:Equipped with comprehensive communication functions, it can remotely upgrade device software.
Suitable vehicle models:All electric vehicles that comply with the GB/T 20234.2-2015 national standard are suitable for different power levels of different vehicle models.