China Net/China Development Portal News With the proposal of the “double carbon” goal, pollution reduction and carbon reduction have become the focus of global attention. In 2022, nearly 90% of China’s greenhouse gas emissions will originate from the energy system. Among them, the power industry, as the largest single source of carbon dioxide emissions (48%), has become a key reform target under the “double carbon” goal. China is at a critical stage in the construction of ecological civilization during the “14th Five-Year Plan” period. The main strategic direction of this stage is to focus on reducing carbon emissions, promote synergy between pollution reduction and carbon emissions, and at the same time promote a comprehensive green transformation of economic and social development.
All aspects of the traditional power industry’s “source-grid-load-storage” are facing huge pressure to reduce pollution and reduce carbon emissions. Traditional power generation companies rely on high-carbon fuels such as coal and natural gas, resulting in large amounts of greenhouse gas emissions and the release of environmental pollutants. The transmission side mainly involves the construction and operation of the power grid. The manufacturing of transmission equipment and civil engineering, especially the UHV project itself, will generate considerable carbon emissions. On the power consumption side, aspects such as energy selection, energy efficiency, load management and equipment selection directly or indirectly affect the effectiveness of pollution reduction and carbon reduction in the power industry. The power storage side is also faced with low energy density and high cost of energy storage materials, waste pollution and resource pressure, strong dependence on non-renewable materials, difficulties in commercialization and scale-up of emerging technologies, and energy storage systemsNewzealand SugarThere are many challenges such as difficulty in matching with the power grid.
With the widespread application and innovation of digital technology in the energy field, the role of digital technology in power companies’ achievement of pollution reduction and carbon reduction goals has become increasingly prominent. Through the in-depth integration of digital technology, power companies can: achieve accurate monitoring and measurement of carbon pollution footprints; use intelligent sensing and big data to accurately assess carbon pollution emissions in each link, and achieve NZ Escorts to reduce pollution and reduce carbon emissions in a targeted manner; use real-time data monitoring and feedback mechanisms to achieve efficient energy dispatch; promote changes in energy consumption concepts and reconstruct energy business models; use reliable Sugar Daddy‘s data support and intelligent decision-making system help power companies conduct precise planning and implementation of carbon neutrality. In view of the relative independence of power generation, transmission and distribution, and power consumption in my country’s energy system, relatively mature system solution technologies have not yet been formed. However, with the advancement of energy Internet construction and power market reform, the construction of transmission and distribution network will further “I heard that Uncle Zhang, the coachman, was an orphan since he was a child. He was adopted by the shopkeeper Zhang of the food store and was later recommended to our family as a coachman. He only had one daughter – —In-laws and two children, exploring the potential of virtual power plant technology is expected to ensure the safety and security of power supply by reducing the difficulty of dispatching caused by the growth of distributed energy resources.Reliable, high-quality and efficient, it meets the overall goals and basic requirements of economic and social development for diversified power needs.
To sum up, digital empowerment is an important means and way for electric power enterprises to reduce pollution and reduce carbon emissions. However, electric power enterprises also face problems such as uneven development of digital technology applications and data security protection. Larger risks, lack of unified technical standards, and a series of problems such as the mismatch between digital technology investment costs and benefits have restricted the power of electricity. Enterprises use digital technology to promote pollution reduction and carbon reduction. To this end, this article conducts research on this issue. Through a systematic analysis of the current situation and problems encountered in the application of digital technology in power enterprises’ pollution reduction and carbon reduction, it proposes the relationship between the Internet of Things, big data, artificial intelligence, digital twins and regionalSugar Daddy Blockchain and other Zelanian sugar Emerging digital technologies Empowering power enterprises to reduce pollution and carbon emissions and corresponding implementation strategies, in order to provide scientific theoretical reference for the energy and power industry’s pollution reduction and carbon reduction and digital transformation development under the guidance of the national “double carbon” goal.
Progress in the application of digital technology in the pollution reduction and carbon reduction of electric power enterprises
Digital technology plays an important role in promoting the process of pollution reduction and carbon reduction of electric power enterprises. The role is to provide networked, digital and intelligent technical means for the green development of electric power enterprises, empower electric power enterprises to transform and upgrade and optimize their organizations, optimize the allocation of enterprise resources and improve the level of management decision-making. The following is a brief description of the application of digital technologies such as big data, artificial intelligence, blockchain, and cloud computing in the field of pollution reduction and carbon reduction in power enterprisesNZ Escorts Current application progress (Figure 1).
Big data application
In the context of the digital economy era, the amount of information in power enterprises Showing the characteristics of explosive growth. How to use big data to reduce corporate pollution and carbon emissions has become a topic of common concern in the industry. The application of big data in the pollution reduction and carbon reduction of domestic and foreign electric power enterprises mainly focuses on2 aspects.
Big data technology can achieve effective management and optimization of energy, improve power generation efficiency, and reduce carbon emissions by collecting and analyzing energy data from power companies. At this stage, the potential of domestic thermal power equipment and technology is limited, and the overall transformation process of China’s thermal power units is slow. Based on digital management technologies such as data mining and artificial intelligence algorithms, an optimized decision-making model is constructed to guide thermal power units to carry out flexibility and in-depth transformation, improve power generation efficiency by 2%, and bring direct carbon emission reductions of 250 million tons.
Big data technology can monitor the operating status and energy consumption of power equipment in real time, convert it into a visual chart form through data analysis and algorithm models, and estimate future energy consumption to provide energy-saving suggestions for power company managers. and control strategies. For example, State Grid Hunan Electric Power Co., Ltd. has teamed up with Baidu Smart Cloud to build a new smart energy infrastructure. State Grid Hunan Electric Power Co., Ltd. makes full use of Baidu map big data, as well as the integration and visualization of multi-dimensional big data such as power user data, line data and equipment data, to form a “power grid map” to improve power utilization efficiency and reduce power resource losses. .
Application of artificial intelligence technology
Artificial intelligence technology is a key means to effectively deal with complex system control and decision-making problems, and is widely used in the digital transformation process of power enterprises. It is used in production, consumption, transmission, operation, management, transaction and other aspects. In order to get rid of the traditional backward production process, innovate a new generation of comprehensive energy interface based on renewable energy, reduce the total amount of “three wastes” in power enterprises, and increase the proportion of green energy. Artificial intelligence technology helps power companies reduce pollution and carbon emissions, which can be summarized into three aspects: “prediction-mining”, “scheduling-optimization” and “management-efficiency improvement”.
Use artificial intelligence technology to make efficient and accurate predictions. The energy consumption of electric power enterprises is large-scale and complex, and the implementation of pollution reduction and carbon reduction measures urgently requires accurate prediction and efficient management of multi-dimensional data. For example, energy equipment image recognition, energy network damage prediction under extreme climate, user-side load prediction of enterprise energy consumption behavior, energy system stability prediction, etc., guide enterprises to build a circular energy consumption paradigm and improve energy consumptionZelanian EscortThe overall carbon emission quality of the energy system. Reduce reliance on traditional energy sources and achieve pollution reduction and carbon reduction throughout the entire cycle of “source-grid-load-storage”.
Apply artificial intelligence technology for flexible scheduling. Artificial intelligence technology Zelanian sugar has been developed to provide diversified energy consumption, collaborative and flexible dispatch for power companies, and achieve pollution reduction and carbon reduction through accurate forecast data analysis. intelligent decision-making. For example, artificial intelligence prediction and optimization technology can help enterprises conduct comprehensive energy efficiency analysis and multi-link coordination and optimization of energy systems in scenarios where multiple energy sources are coupled with each other.control to achieve the cleanest energy consumption in the most efficient way. Establish a “smart fuel blending” system based on a big data platform to guide the selection of combustion coal types into the boiler; before deep peak load regulation of the unit, reasonable combustion coal types are pre-set to ensure the safety and economy of boiler operation.
Apply artificial intelligence technology to autonomous learning management. Autonomous learning management uses artificial intelligence technology to achieve adaptive control and status self-awareness of the enterprise’s internal integrated energy system. Based on machine learning algorithms or reinforcement learning algorithms, a multi-physical, multi-scale, and multi-probability digital twin environment is constructed based on collected or predicted data, and the model parameters are updated adaptively. For example, thermal power plants under the National Energy Group, State Power Investment Group, etc. learn independently through twin scenarios and perform artificial intelligence optimization scheduling with the help of twin scenarios, forming an intelligent decision-making system of “online monitoring of coal quality data – three-dimensional intelligent monitoring – intelligent operation optimization” , realize the independent optimization of enterprise production processes and implement decisions on pollution reduction and carbon reduction.
Application of Blockchain Technology
Currently, the low-carbon transformation process of electric power enterprises is gradually moving towards the normalization of multi-energy heterogeneity, integration of production capacity and consumption, and power and the development of market-oriented carbon emissions trading. The application of blockchain technology provides strong support for the low-carbon transformation of electric power enterprises to reduce pollution and reduce carbon emissions.
Blockchain technology empowers power companies to transform and optimize production processes, promote carbon emissions, and improve energy efficiency. By combining the energy supply chain with blockchain technology, power companies can achieve efficient management of energy production, storage, transmission, distribution, and consumption. For example, the decentralized characteristics of blockchain technology can realize the peer-to-peer interconnection of multiple entities in smart energy, and use smart contracts to realize Zelanian EscortZelanian EscortExtensive interaction between relevant entities on various types of information helps power enterprise system operation quality and pollution reduction and carbon reduction benefits.
Blockchain technology empowers power companies to implement carbon monitoring and management, providing quantitative decision-making basis and management measures for companies to achieve low-carbon development. For example, Chint Internet of Things Park’s blockchain-based emission carbon monitoring platform gathers carbon emission data from the entire production line and manufacturing process; it accurately monitors carbon emissions in real time through smart contracts, automatically completes various data declarations, opens up the closed loop of carbon trading, and builds a new regulatory environment. model to help enterprises achieve carbon neutrality.
Cloud computing applications
Building a cloud computing platform is currently a key supporting technology for solving computing power and algorithms in traditional fields such as the energy industry. In the “husband?” process of power enterprise pollution reduction and carbon reduction, the cloud computing platform uses technological breakthroughs to promote the sustainable development of computing and other information technology resources to achieve possible environmental advantages to match various pollution reduction processes during the operation of power enterprises. Carbon reduction demand scenario.
Cloud computing helps power companies pool data resources, and combines vertical and horizontal aspects to help reduce emissions and reduce carbon emissions. by pairingLarge-scale deployment of edge and terminal equipment in the production and supply process of electric power enterprises, Sugar Daddy and the application of big data technology to achieve data collection and analytical processing, enabling broader data exchange and collaboration. For example, the nationalNewzealand SugarNetwork Jiangsu Electric Power Co., Ltd. achieves unified management of various resources and applications through the server platform (Paas). At the same time, the platform can more effectively manage and analyze data such as power consumption and power generation efficiency, thereby supporting carbon reduction decisions and optimizing power supply management.
The cloud computing platform realizes the decoupling of enterprise software and hardware to meet the needs of power enterprises for supervision of power grid energy consumption. Cloud computing can provide powerful computing capabilities for simulation and modeling of power systems. By simulating and optimizing the power system in the cloud, it can help power companies analyze and optimize the operation of the power grid. For example, State Grid Zhejiang Electric Power Co., Ltd. uses the Alibaba Cloud platform to obtain second-level fault causes and intelligent analysis and processing information, speeding up fault location and improving repair efficiency.
Key issues of digital technology in reducing pollution and reducing carbon emissions in electric power companies
Big data, artificial intelligence, blockchain and other digital technologies provide new opportunities for electric power companies Digital transformation and coordinated emissions reduction and decarbonization provide significant opportunities. However, power companies still face many difficulties in the process of using digital technology to reduce pollution and reduce carbon emissions, which greatly restricts the pace of low-carbon transformation of power companies.
Weak links in the application of digital technology in the pollution reduction and carbon reduction of electric power enterprises
Weak links in the application of digital technology in the pollution reduction and carbon reduction of electric power enterprises It is mainly reflected in two dimensions: The entire industrial chain dimension of the power industry. From the perspective of the whole process of “source-grid-load-storage”, currently power generation companies, power grid companies, energy storage companies and comprehensive energy service companies have achieved some results in the process of reducing pollution and carbon emissions using digital technology, but they can go further. Give play to the important role of digital technology. For example, in terms of monitoring and managing power generation equipment, there is an urgent need for more efficient artificial intelligence algorithms to intelligently analyze and optimize the key parameters of each operation link of the equipment, find out the optimal equipment operating parameters under different loads, and optimize energy consumption to the greatest extent . In the power transmission process of power grid enterprises, the coordination and balance of “source-grid-load-storage” through technologies such as 5G communications, artificial intelligence, digital twins, and smart microgrids require strengthening overall planning and layout. Dimensions of the process of pollution reduction and carbon reduction in electric power enterprises. The realization of the “double carbon” goal has important implications for the monitoring of carbon emissions of electric power companies, the accurate calculation of carbon emissions, the prediction of the progress of achieving pollution reduction and carbon reduction goals, the formulation of pollution reduction and carbon reduction plans, and the intelligent management and effectiveness of the implementation of pollution reduction and carbon reduction plans. Assessments, etc. have put forward higher requirements. passTraditional carbon emission monitoring technology is difficult to implement extensive monitoring of a large number of emission sources in the short term, and the emission factor method used by power companies is difficult to accurately measure carbon emissions. Digital technologies such as the Internet of Things, big data, cloud computing, artificial intelligence, and blockchain are playing a role in Zelanian sugar carbon emissions and carbon measurement. plays an important role. However, because power big data, energy consumption big data, production capacity big data and other sources are scattered and widespread, and the data belongs to many departments, it hinders the efficient use of digital technology and it is impossible to timely grasp the carbon emissions of power companies in the production process and operation process. Real time updates. Moreover, in the transformation and upgrading of power enterprise management models and production methods, it is difficult to find effective scenarios to promote the in-depth integration and innovation of green technology and digital technology represented by energy technology, pollution control technology, environmental monitoring technology, etc., which has also resulted in digital There is a lack of efficient use of technology in power enterprises’ pollution reduction and carbon reduction.
Data security protection still needs to be further strengthened
Power data mainly comes from power generation, transmission, transformation, distribution, power consumption and dispatching. These Data has the characteristics of various types, huge volume and rapid growth. With the open sharing of power data and the digital transformation of power companies, power companies are faced with problems such as a lack of supervision on data security and weak security protection for data circulation. There are many types of data related to power companies, such as power production data, corporate emission data, user consumption data, etc. Once these data are leaked, the key core business of power companies and user privacy will face potential risks exposed in the network. . Moreover, these data are related to the sensitive data of citizens and resources, and also put forward higher requirements for power network security. Building a safe power data protection system has also become key.
Digital technology lacks unified technical standards for power companies to reduce pollution and reduce carbon emissions
Power data covers the entire process of “generation, transmission, distribution and sales” and enterprise management, etc., power data has the characteristics of large scale, variety, and high value; the protection of power data focuses on the entire life cycle of data collection, transmission, storage, and use. However, at present, each power company mainly formulates its own data security classification methods, and there is no unified management method for classification, security protection, etc., resulting in the lack of unified standards for the sharing and disclosure of power data, security protection, etc.
At the same time, digital technologies such as big data, artificial intelligence, the Internet of Things, and digital twins have gradually begun preliminary applications in carbon emission monitoring and smart grid management of power companies. Since the application of digital technology in reducing pollution and carbon emissions in electric power enterprises is still in its infancy, he took the initiative to replace him in terms of data collection, data processing procedures, and electric power data mining. When changing clothes, he rejected her again. Intelligent analysis and algorithm continuous iteration capabilities are lacking and difficult to formStandards for data collection, analysis, processing, etc.
It is difficult to efficiently match the investment costs and benefits of digital technology
In the process of achieving the “double carbon” goal, power companies are regarded as the main promoters and leader because of its crucial position in building a new power system with new energy as the main body. Building new power systems aims to meet the growing demand for clean energy. However, the realization of this goal must rely on the support of advanced electronic materials and equipment technology. The development of high-end semiconductor materials will provide strong hardware support for the digital transformation of energy and power systems to achieve efficient integration of clean energy; the application of high-performance power chips will provide real-time accurate perception and efficient control of the status of energy and power system equipment. Provide key guarantees; the development of digital and intelligent power equipment will effectively promote the safe and efficient operation of energy and power systems. In addition, digital technologies, including 5G communications, big data, cloud computing, Internet of Things, artificial intelligence, digital twins, etc., are profoundly affecting all aspects of the power system. These digital technologies play a vital technical support role in the sustained and healthy development of power enterprises. Moreover, the construction of new power systems with multiple flexibility, high reliability, and toughness also puts forward more stringent requirements for the information security of power information systems. The robust operation of new power systems requires efficient access control, data encryption and other technologies to provide a comprehensive security system. The investment of these digital technologies in the digital transformation of electric power enterprises requires a large amount of financial support, and the investment in digital technologies may not bring immediate results to the digital pollution reduction and carbon reduction of electric power enterprises. Therefore, when electric power companies invest in digital technology, they need to comprehensively consider the investment costs and benefits of digital technology. This is also another key issue that needs to be considered in the application of digital technology in reducing pollution and reducing carbon emissions in power companies.
Unbalanced coordinated development of electricity and carbon
Power companies must not only promote the construction of new power systems while reducing pollution and carbon emissions, but also make full use of power big data The advantages help reduce carbon emissions. However, power companies still have some problems in the coordinated development of electricity and carbon, which are specifically reflected in: carbon Sugar Daddy emission reduction strategies and power development Planning lacks deeper integration. The low-carbon power generation of electric power companies, the efficient operation of power grids, and energy storage planning of electric power companies lack more efficient and organic coordination with the demand for carbon emission reduction. Some data on electricity and carbon have not been connected, and a complete electricity and carbon database has not yet been established. Electric power big data can be collected at a high frequency every minute, while carbon emission data is collected at a lower frequency. It may be difficult to deeply integrate the two types of data due to time differences. Moreover, due to insufficient high-frequency collection of emission data from major carbon-emitting areas and key industries, an electricity carbon network covering key areas and high-energy-consuming enterprises has not yet been formed.database. The electricity-carbon collaborative optimization dispatch technology is still immature. The carbon emissions and optimization of power generation equipment are an important part of reducing pollution and carbon emissions for power companies. Not only does it need to monitor the carbon emissions of power equipment in real time, but it also needs to comprehensively consider the operating status and operating parameters of the equipment. There is an urgent need to develop a system that can accurately grasp The dynamic carbon emission intensity of the unit can also be used to reasonably optimize the dispatch side power carbon collaborative optimization technology of the generating unit combination. Due to the difficulty in accurately measuring carbon market prices and the imprecision in dynamic measurement of carbon emission intensity, there is still a lack of collaborative optimization technology that comprehensively considers carbon emission intensity and carbon market price.
Methods and paths for digital technology to empower power companies to reduce pollution and reduce carbon
Based on the aforementioned research, this section will focus on the process of pollution reduction and carbon reduction for power companies We will focus on the pain points and difficulties faced by power generation companies in clean energy investment, data monitoring of corporate power energy consumption, accurate measurement of carbon emissions in all aspects of the power system, and intelligent management paths and implementation of pollution reduction and carbon reduction. Realize the source-end carbon reduction of power generation enterprises, the terminal decarbonization of power consumption enterprises, and the timely optimization of corresponding policies. Explore the use of digital cutting-edge technologies such as the Internet of Things, big data, artificial intelligenceNewzealand Sugar, digital twins, and blockchain to help power companies achieve reductions. The overall goal of reducing pollution and carbon dioxide (Figure 2).
Digital technology empowers clean energy power generation to achieve source-end carbon reduction for power supply enterprises
According to the report “China Energy Development in the New Era”, since 2005, my country has been promoting non-fossil A series of energy saving and emission reduction measures have been adopted in terms of energy development and reduction of power supply energy consumption and line loss rate, achieving NZ Escorts energy production and Take advantage of major innovations in the model. In this process, clean energy accounted for 23.4% of total energy consumption. China’s carbon emission intensity in 2019 has dropped by 48.1% compared to 2005. It can be seen that the green development of energy has a significant impact on my country’s carbon emission intensity. The decline plays a crucial role. Although the proportion of coal power installed capacity and thermal power generation continues to decline, coal power is still the main source of electricity and electricity in my country at present and in the future, resulting in a huge high-carbon structure in the power system.
During the “14th Five-Year Plan”, our country will be committed to developing and adopting more efficient and low-carbon energyProduction technology to improve the utilization efficiency of energy resources; at the same time, increase the investment and use of clean energy in order to increase the proportion of clean energy in total energy consumption and promote the transformation of the energy industry in a more environmentally friendly and sustainable direction. It is expected that by 2030, the proportion of clean energy consumption in my country will reach approximately 25%. Therefore, to achieve the “double carbon” goal, we need to fundamentally reduce fossil energy consumption and significantly increase non-fossil energy consumption. At the same time, we must use clean energy power generation technology to reduce carbon pollution caused by source power generation and transform the power generation structure characteristics of power supply enterprises.
Big data technology enables efficient use of clean energy. For power supply companies, clean energy power generation technology plays an important role in directly reducing carbon emissions at the source. In terms of the use of clean energy, there are problems such as low utilization and instability. Use big data technology to achieve accurate prediction of power generation and break through low-cost and high-efficiency clean energy power generation. In terms of wind power, big data technology can predict future wind energy resources by collecting and analyzing meteorological data, wind speed, wind direction and other parameters; by analyzing historical data and real-time data, an accurate wind energy prediction model can be established to make power generation decisions in advance. Planning and dispatching arrangements to improve the efficiency of wind power generation. In terms of photovoltaic power generation, big data technology can predict the potential and power generation efficiency of photovoltaic power generation through real-time monitoring and analysis of light intensity, temperature, cloud cover and other factors. At the same time, big data technology can also monitor and manage photovoltaic cell components to improve the operating efficiency and reliability of photovoltaic power generation systems. By utilizing big data technology, the design and operation of photovoltaic power generation systems can be optimized to achieve breakthroughs in low cost and high efficiency.
Digital energy storage technology helps the stable storage of clean energy. The management of clean energy is a top priority for the development of the power industry, among which the stable storage of clean energy is particularly critical and faces three challenges. Clean energy (such as solar and wind energy) is intermittent and uncontrollable, and depends on weather conditions and the availability of natural resources, resulting in an imbalance between supply and demand; currently the most widely used energy storage technology is battery energy storage systems (such as lithium-ion Batteries and sodium-ion batteries), as well as new energy storage technologies (such as hydrogen energy, air compression storage, etc.) are relatively expensive, and enterprise investment costs are too high; energy transmission loss is another challenge, and long-distance transmission of clean energy may cause energy losses, efficient transmission and distribution systems are needed to address this problem. The emergence and development of digital technology has provided new opportunities to solve the storage problem of clean energy in the power industry. Power companies can realize intelligent energy storage management through digital technology, so that energy storage equipment can intelligently sense and respond to energy needs in real time. By monitoring clean energy production and grid load in real time, intelligent energy storage systems can optimize the storage and release of energy to balance energy supply and demand. In addition, big data prediction analysis can be used to plan energy storage behavior in advance to ensure that clean energy is stored when sufficient and released during peak power consumption, thereby achieving the stability of energy supply.
Internet of Things, Big data technology realizes accurate carbon measurement in all aspects of electric power enterprises
An accurate carbon emission measurement system is the cornerstone of realizing pollution reduction and carbon reduction in electric power enterprises, and plays a key policy leading role. The sources of carbon emissions from power companies can be mainly divided into direct carbon emissions from power generation companies, and indirect carbon emissions caused by different behaviors of power consuming companies. Accurate measurement of carbon emissions requires involvement in multiple links, and full-link carbon measurement is even more complex. engineering. Therefore, in order to achieve accurate carbon measurement in all aspects and share corporate carbon responsibilities, power companies can solve the problems of low accuracy and low real-time performance in carbon measurement by introducing Internet of Things and big data technology.
Internet of Things Technology Realization Everyone laughed, but his eyes looked away for no reason. Real-time monitoring of energy consumption of current electric power enterprises. In order to fully explore the characteristics of corporate power consumption, monitor corporate power consumption behavior, and transform corporate power consumption strategies to reduce energy consumption, power companies can use Internet of Things technology to connect sensors and smart devices to various corporate devices to achieveZelanian EscortAccurate monitoring of electricity data. Sensors can collect data on key parameters such as current, voltage, power, etc., and transmit the data to big data centers or cloud computing platforms through the IoT network. Through real-time monitoring and data collection, we can conduct statistical analysis on the power consumption habits of enterprises and understand the details and patterns of power usage to support power management and optimization decisions.
Big data technology enables carbon measurement of multiple types of power sources for power generation companies. Based on the “Three Can Principles” of the United Nations Intergovernmental Panel on Climate Change (IPCC), it is necessary to study carbon emission measurement methods for multiple types of power sources in power generation enterprises. At present, the power generation sources of power generation enterprises are mainly divided into traditional fossil energy and renewable energy (such as wind energy, solar energy, etc.). For traditional fossil energy, the combustion emission factor method can be used, and direct carbon emissions can be calculated based on fuel consumption and corresponding emission factors; for renewable energy, it is necessary to consider the backup, frequency regulation and other auxiliary work required for its consumption. The carbon emissions caused can be modeled using big data technology for equivalent carbon emissions to achieve carbon accounting for renewable energy; some power companies may have new energy sources such as hydrogen, and can also perform simulation calculations through modeling to achieve power generation. Multi-type carbon accounting for businesses.
Big data technology enables real-time and accurate carbon measurement of electricity-consuming enterprises. When calculating the carbon emission levels of energy consumption in various departments of electricity-consuming enterprises, it is necessary to study accurate carbon measurement methods for electricity consumption behavior. Use big data technology to establish an “electricity-carbon” model to analyze and process a large amount of electricity consumption data; combined with the carbon emission factors of the “electricity-carbon” model, accurate calculation of electricity carbon emissions can be achieved. By applying the “electricity-carbon” model, the company’s electricity consumption behavior pattern is analyzed to identify high-energy-consuming equipment, peak electricity consumption periods, etc.; then, the results of electricity carbon emissions are presented in the form of big data visualization, so thatIn order to intuitively understand the situation of carbon emissions; and then provide data-based energy management decision support for enterprises to help them achieve carbon emission reduction goals. With real-time and accurate carbon measurement, companies can accurately allocate carbon emissions from different departments and promote the implementation of internal energy management and emission reduction measures.
Artificial intelligence realizes efficient utilization of electric energy
Artificial intelligence technology is an effective measure to solve complex system control and decision-making problemsZelanian EscortImplementation, its in-depth application in the energy industry will help promote clean energy production and reduce carbon emissions. Therefore, the application of artificial intelligence technology to achieve efficient dispatch and utilization of electric energy has become an important practical measure for carbon emission reduction of my country’s power enterprises.
Artificial intelligence realizes load forecasting and scheduling optimization. Artificial intelligence technology can establish deep learning models by analyzing power company historical load data, weather, temperature and other information to predict power demand. changing trends and develop optimal load scheduling strategies. Artificial intelligence can monitor the operating status of the power system in real time and perform intelligent dispatching based on demand and supply to maximize the use of renewable energy and optimize the use of traditional energy and improve the efficiency of electric energy utilization.
Artificial intelligence realizes intelligent management of enterprise power systems. Artificial intelligence technology can be combined with Internet of Things technology to achieve intelligent management of power equipment and energy systems. By connecting sensors and smart devices, power companies can use artificial intelligence technology to monitor energy consumption, equipment statusNewzealand Sugarstatus and environmental parameters in real time, through Machine learning and data analysis technology optimizes the operation and control strategies of energy systems to achieve efficient energy utilization, energy conservation and emission reduction.
Blockchain technology enables power companies to incentivize low-carbon behavior
Blockchain technology protects the privacy of corporate data. In the digital empowerment of power companies, data privacy is an important consideration. When power companies monitor and record key data such as energy consumption and carbon emissions, they need to ensure that these data are not tampered with or leaked. As a decentralized and non-tamperable distributed ledger technology, blockchain technology can provide secure storage and transmission of data. By storing power company data on the blockchain in encrypted form, data confidentiality and integrity can be ensured. In addition, blockchain technology can also provide enterprises with a data access control mechanism so that only authorized participants can view and verify data, protecting the enterprise’s commercial privacy and sensitive information.
Incentivize sustainable low-carbon behavior of power companies.Blockchain technology can not only protect the privacy of corporate data, but also encourage power companies to adopt sustainable low-carbon behaviors through smart contract mechanisms. Smart contracts are automated contracts executed on the blockchain in which specific conditions and incentives are set. By setting contract rules, power companies can obtain rewards or preferential policies to encourage them. They adopt behaviors such as low-carbon power generation, reducing carbon emissions, and improving energy efficiency. Blockchain technology ensures that the execution results of smart contracts are recorded on the blockchain Zelanian Escort, achieving an open, transparent and non-tamperable incentive mechanism , to increase the enthusiasm of power companies to participate in low-carbon actions.
Digital twin technology assists power companies in carbon emission reduction and precise planning
Digital twin technology refers to the interaction between digital models and real-time data from the real world to achieve simulation and simulation of physical entities. monitor. In power companies, digital twin technology can provide strong support for carbon emission reduction and accurate planning (Figure 3).
Digital technology empowers electric power companies’ strategies to reduce pollution and reduce carbon
Aiming at the above digital technology, it empowers electric power companies to reduce carbon emissions at the source, monitor energy consumption, use energy efficiently, and reduce carbon emissions. Behavioral Newzealand Sugar incentives, precise emission reduction planning and other pollution reduction and carbon reduction paths, this article proposes implementation strategies for digital pollution reduction and carbon reduction for electric power enterprises. Ensure the effectiveness of digital technology in empowering power companies to reduce pollution and carbon emissions, thereby promoting the digital, intelligent, green and low-carbon transformation of power companies.
Sugar Daddy focuses on promoting power data security governance and risk prevention and control
While digital technology has opened up new ways for the low-carbon and intelligent development of power enterprises, power data, as the core of the enterprise, faces more stringent security tests. Based on an in-depth analysis of the current situation of electric power enterprises, combined with the requirements of the big data era and the needs of industry development, the following ideas are put forward.
Establish critical data security infrastructure and improve security management mechanisms. As a critical infrastructure industry, energy and power companies must manage data security.Very important. Establishing a data security management organizational system with clear rights and responsibilities, reasonable division of labor, and efficient collaboration can help enterprises better protect data and effectively respond to potential security threats. Key steps to ensure data security include standardizing data classification and classification, promoting the construction of security management systems, strengthening assessment and accountability, and establishing security responsibilities and rights. At the same time, for situations where outbound data needs to be sent out, a filing system will be established to ensure the security of outbound data. Establish a flexible and efficient data security emergency response mechanism to respond to various security incidents and threats in a timely manner. Regularly conduct security assessments on data processing, use, outsourcing and other aspects to discover potential risks, and then take corresponding measures to improve and strengthen accountability to improve the level of data security management and reduce the possibility of data leaks and risks. At the same time, it is necessary to continue to pay attention to the latest technologies and regulatory requirements in the field of data security, and continuously improve and enhance the level of data security management.
Firmly establish legal redline awareness and bottom-line thinking, and promote the construction of safety compliance mechanisms. Keep up with the requirements of national laws and regulations, strengthen the promotion of data security legal awareness, conduct in-depth analysis of data security cases, and implement personal information security protection requirements in accordance with laws and regulations; ensure that enterprises comply with laws and regulations during data processing and management, prevent data security risks, and improve Organizations and individuals understand the legal requirements for data security, promote compliance and standardization of data security management, effectively prevent data leakage and abuse risks, protect customers’ personal privacy and data security, and establish awareness of legal and regulatory red lines in data business development ; Implement personal information security protection requirements in accordance with laws and regulations, obtain and use personal information legally and compliantly, take corrective and punitive measures in a timely manner for violations of security and compliance regulations, form strict systems and norms, and formulate and promote policies applicable to enterprises. Data security and compliance policy; clarify security requirements for each link, including data collection, storage, processing, transmission and sharing, to avoid infringing on customer privacy or illegally obtaining customer personal information.
Improve the professional capabilities of data security technical services and unify service processes and operating specifications. Develop standards and specifications applicable to data security technical services, clarify various requirements and guiding principles, conduct regular reviews and assessments of data security technical services, identify problems and make timely improvements, and maintain service quality and security levels; accelerate the application of data desensitization, Watermark traceability, big data situational awareness and other technologies, and explore application scenarios such as anonymization, data labeling, and multi-party secure computing. Strengthen the open call of security service capabilities, unified management of policies, and unified risk analysis and judgment. Effectively reduce data leakage and security risks by improving data security monitoring and attack and defense verification capabilities.
Committed to cultivating a team of data security talents to consolidate the security defense line. Strengthen the training of data security talents and build a solid data security protection structure. For power grid companies, there is an urgent need to accelerate the introduction of experts who are familiar with the field of data security, and focus on cultivating talents with professional skills in regulatory compliance and industrial offense and defense. At the same time, a professional data security team will be constructed to strengthen employees’ ability to fulfill their responsibilities and professional ethics.Promote the interaction and integration between data security management agencies and business departments, and collaborate on data security-related work to ensure the implementation and practice of data security responsibilities, and cultivate professionals with solid business literacy and high security awareness. In addition, strengthen exchanges and cooperation among various departments of the enterprise in the field of data security, and establish a normalized communication and collaboration mechanism to create a new ecosystem for the cultivation of excellent data security professionals, technological innovation and industrial development.
Use digital advantages to improve carbon market operations
There is a strong correlation between the electricity market and the carbon market. The production and consumption of power generation companies have Carbon emissions, and carbon prices also affect the costs of power generation companies, and the power industry is also among the first to be included in the carbon market. It is necessary to give full play to the advantages of digital transformation of electric power enterprises, establish carbon emission monitoring, measurement standards and accounting systems based on the electricity-carbon relationship, and effectively improve the quality of carbon verification data. Give full play to the advantages of power data such as wide coverage, strong real-time, strong reliability and high degree of digitization, strengthen carbon emission monitoring technology based on power flow and power big data auxiliary verification technology, and improve the precise management and control of the process of enterprises reporting carbon emission data. On the premise of ensuring information security, electric power companies build “electricity carbon databases” and use power market data and digital technology to enhance market entities’ carbon footprint tracking and carbon quota approval capabilities. Make full use of digital technology, strengthen data sharing between green power certificates and carbon trading markets, and promote the organic connection between the carbon market and the green power market. Power companies can use internationally recognized green power trading certificates to sell excess carbon emission quotas in the carbon market and obtain additional economic benefits, which will help increase the number of participants in the carbon market and expand the scale of transactions.
Use digital technology to deal with the adverse effects of the EU carbon tax
Promote the monitoring, reporting and verification (MRV) of carbon emission data and blockchain technology Combined, this ensures the authenticity of data monitoring and also provides reliable support for companies to deal with possible carbon emission data disputes in the EU Carbon Border Adjustment Mechanism (CBAM). Promote companies affected by CNewzealand SugarBAM to participate in both the carbon market and the green certificate trading market, and allow the green certificates they purchase to be converted into national Certified Voluntary Emission Reductions (CCER) offset carbon quotas to reduce carbon emissions from their indirect electricity consumption, while simultaneously playing the synergistic emission reduction role of the two markets. Promote the implementation of full-chain carbon emission reduction and carbon footprint reporting for power companies. Rely on the digital carbon management platform to carry out supply chain carbon footprint accounting and emission reduction implementation plan planning, starting from the data source, using Internet of Things services to collect data in real time, and based on the blockchainTechnology solves the problem of data traceability and non-tampering, Zelanian sugar enables one-click compilation of full life cycle carbon footprints for multiple scenarios/technical routes The report supports companies to respond in advance to green trade barriers such as CBAM and product carbon footprint disclosure requirements.
Establish a digital standard system to support smart power systems
When establishing and improving smart power systems, we should first formulate a complete indicator system to provide artificial intelligence Provide a basis for daily inspections to obtain more accurate and reasonable data results. Currently, the standard system includes three types of technical standards.
Power generation side. It is necessary to coordinate the technical standards for fossil energy such as coal, clean energy such as water, wind, and light, and multi-energy complementary technologies, conduct in-depth research and analysis on their data exchange methods, information transmission needs, etc., and understand the application scenarios and influencing factors of various digital standards; Strengthen the construction of technical standards for traditional peak-shaving power sources, including coal power flexibility transformation, pumped storage and gas power generation standards, so as to give full play to their flexible adjustment and coordinated operation capabilities and provide necessary support for the continued operation of the power system.
Grid side. It is necessary to improve the relevant standard system of transmission network and substation technology, and at the same time, accelerate the optimization and upgrading of the distribution network, promote the construction of relevant standards for distributed power sources and microgrids, and ensure the efficient on-site consumption of distributed new energy. Promote the in-depth development of microgrids. There are still shortcomings in the large-scale development of new energy. For example, the power system faces a series of challenges such as a shortage of flexible resources, weak new energy consumption capabilities, reduced system reliability, and increased difficulty in operation and maintenance management of the distribution network side. Therefore, the new power system technical standard system still needs to be developed and improved in many aspects.
Energy storage side. It is necessary to continuously strengthen the construction of various energy storage technologies and power system backup technology standard systems. Refer to relevant industry standards, such as communication interface standards and data format standards for energy storage equipment, to understand the existing digital standards in the industry, and make adaptive adjustments based on your own needs. According to the data exchange requirements on the energy storage side, define corresponding data models and interface specifications to ensure data consistency and interactivity, and provide power systems under special circumstancesSugar Daddy is guaranteed.
Helping power companies improve quality, reduce costs and increase efficiency
The important content of cost reduction and efficiency increase for power companies lies in energy and information exchange. After fully understanding the power industry Based on the needs of digital transformation, combined with its own practical experience in digital transformation and serving the digitalization of the electric power industry, it provides “personal running” services for digital transformation for enterprises at different development stages and sizes. At the same time, efforts will be made from various aspects such as computing power, network, platform, and security to comprehensively promote “The construction of a new energy system of “widely connected + intelligent and efficient + safe and reliable + green and low carbon”. Effectively integrate the daily management of power assets with the digital management system; on-site operators scan radio frequency identification tags (RFID) and automatically obtain equipment information during planning, design, Procurement and construction, acceptance and commissioning, operation and maintenance, scrapping and other stages of massive information data, so as to achieve real-time synchronization of physical information and system information, which can realize the transmission, transformation and distribution network production equipment, measurement assets, and managementSugar Daddy Physical management of power grid assets such as public assets, information and communication assets, tools and equipment, improving asset management business operation efficiency and asset life cycle information traceability
(Authors: Chen Xiaohong, Frontier Interdisciplinary College of Hunan Technology and Business University, Central South University Business School; Tang Runcheng, Hu Dongbin, Central South University Business School; Xu Xuesong, Tang Xiangbo, Yi Guodong, Zhang Weiwei, Hunan Technology and Business University. University Frontier Interdisciplinary College. Contributed by “Proceedings of the Chinese Academy of Sciences”)