区块链在能源领域的应用,区块链在能源领域的应用案例

1. What are the practical applications of blockchain technology

1. Financial field

The application of blockchain in international exchange, letters of credit, and stocks It has potential huge application value in financial fields such as rights registration and stock exchanges.

2. Internet of Things and Logistics Fields

Blockchain can also be naturally combined in the Internet of Things and logistics fields.

Through blockchain, logistics costs can be reduced, the production and delivery process of items can be traced, and the efficiency of supply chain management can be improved.

3. Public service fields

Blockchain is closely related to people’s production and life in public management, energy, transportation and other fields, but the centralization of these fields Characteristics also bring some problems, which can be transformed using blockchain.

4. Digital copyright field

Through blockchain technology, works can be authenticated, prove the existence of text, video, audio and other works, and ensure the authenticity and uniqueness of ownership. sex.

5. Insurance field

In terms of insurance claims, insurance institutions are responsible for fund collection, investment, and claims settlement, and often have high management and operating costs. Through the application of smart contracts, there is no need for the policy holder to apply or the insurance company to approve it. As long as the claim settlement conditions are triggered, the insurance policy can automatically settle claims.

6. Public Welfare Field

The data stored on the blockchain is highly reliable and cannot be tampered with, so it is naturally suitable for social welfare scenarios.

2. In what areas is blockchain + energy specifically used?

With its own advantages, blockchain can provide solutions to the three major energy problems: by optimizing the energy process, blockchain Chain can reduce costs; blockchain can improve energy security from the perspective of network security; use blockchain as a supporting technology to improve supply security, and ultimately achieve sustainable development of energy through energy management and control.

More importantly, blockchain technology can be applied to the following fields and aspects to help solve problems in the field of energy management and control: For example, in the power resources sector, automated blockchain can improve decentralized energy systems and Management and control of microgrids. Adopting local energy markets through localized energy peer-to-peer trading or distributed platforms can significantly increase self-production and self-consumption of energy. Applications and Data Transfer Blockchain can be used for communication, data transfer or storage of smart devices. Smart devices in smart grids include smart meters, advanced sensors, network monitoring equipment, energy management and control systems, smart home energy controllers and building monitoring systems. In addition to providing secure data transmission, smart grid applications can also benefit from data standardization enabled by blockchain technology. There is also electricity bill management. In electricity transactions, when the electricity sales company, power generation, and electricity consumption are not one subject, it is difficult for all parties to trust each other. The trusted blockchain public service platform enables cross-verification, openness and transparency of multi-party information such as power generation and online power, and builds a fair transaction mechanism in the network environment. Immutable records and transparent processes can greatly improve auditing and regulatory compliance.

The Xueshuo Innovation Blockchain Technology Workstation under Lianqiao Education Online is the only approved "area" for the "Smart Learning Workshop 2020- Xueshuo Innovation Workstation" launched by the School Planning and Construction Development Center of the Ministry of Education of China. "Blockchain Technology Professional" pilot workstation. The professional base is based on providing students with diversified growth paths, promoting the reform of the training model integrating professional degree research, production, and research, and building an applied and compound talent training system.

3. Now that my country’s new energy development is in full swing, how do blockchain companies promote the application and implementation of blockchain technology in the new energy industry?

Currently, blockchain alone Qulian Technology, a leading enterprise, pays close attention to the development of my country's new energy industry. Just some time ago, Qulian Technology and Shenzhen Yimada Technology jointly launched the world's first blockchain power swap SaaS platform "e-Chain Power Swap", officially launching two rounds of A new era of "on-chain battery swapping" for electric vehicles. . In addition, Qulian Technology has also established a wholly-owned holding company, Quanke Technology, which focuses on providing services in the fields of dual carbon, new energy and enterprise digitalization.

4. What are the application fields of blockchain technology?

Application fields: financial field, Internet of Things and logistics field, public service field, digital copyright field, insurance field, and public welfare field.

Blockchain can also be naturally combined in the fields of the Internet of Things and the field of mold grinding and cavity flow. Through blockchain, logistics costs can be reduced, the production and delivery process of items can be traced, and the efficiency of supply chain management can be improved. This field is considered a promising application direction of blockchain.

Blockchain is closely related to people’s production and life in the fields of public management, energy, transportation, etc. However, the centralized nature of these fields also brings some problems, which can be transformed with blockchain.

Blockchain Technology

This major cultivates the comprehensive development of moral, intellectual, physical, artistic and labor skills, and masters basic knowledge of natural sciences, humanities and social sciences, basic theories of computer science, and blockchain technology and applications. Professional basic theory and application knowledge, basic skills in blockchain software development, software development practice and project organization, innovation and entrepreneurship awareness, competition and team awareness and craftsmanship, ability to engage in blockchain technology design, High-quality and high-level technical skills personnel for management, service and other tasks.

5. What are the advantages of using blockchain technology in the energy field?

Chongqing Jinwowo analyzes the advantages of using blockchain technology in the energy field as follows:
1. Provide a distributed energy trading and supply system
2. Smart contracts that can use blockchain technology in the energy sector
3. All energy flows support secure records

6 . Energy Blockchain Research | How Blockchain Impacts the Energy Industry

Blockchain is a P2P shared ledger that enables secure retail digital transactions without relying on third-party intermediaries. Blockchain, initially thought to be a proprietary technology for cryptocurrencies, is now experiencing unprecedented growth in market capitalization. it has manyThe purpose of the field, the power field is no exception. From previous years, this space has had a complex system with many stakeholders, making it very transactional and inefficient. So, here are our hypotheses on how blockchain can drive energy to become more environmentally friendly.

The potential of blockchain in the energy power business

Upstream turbines will generate some unprocessed materials, which are refined and shipped to downstream distributors. Promote to end users through midstream distribution communities. While this course may initially appear to be a fairly simple process, it is not. Blockchain experts and technologists believe that blockchain expertise could provide options for key challenges facing power trade, and a slew of analytical missions and startups have emerged across the globe since last year.

Eliminate middlemen and reduce transaction value

By eliminating middlemen, blockchain technology can allow customers to quickly obtain commercial energy power, especially in wind power and photovoltaics. In the case of power, these powers can be produced by consumers themselves. Expertise therefore enables prosumers to enter the power market as suppliers. Additionally, a clear, secure, and stable blockchain system will enable customers to purchase from electricity suppliers instantly.

Enhancing Effective Alternatives

To execute transactions, companies spend tens of millions of dollars building and accessing proprietary commodity buying and selling platforms. Blockchain can also help provide a feasible solution where consumers and customers can exchange their diverse needs on a peer-to-peer basis, thus enhancing the security, immediacy and immutability of transactions. Additionally, with distributed ledger expertise, the renewable power certification process can be accelerated and automated, which would otherwise be expensive. Automated, tamper-proof sound contracting and metering policies can work well to enhance the accessibility of offsets.

Real Asset Management

The power area includes quite a few stakeholders, similar to upstream turbines, distributors, and other stakeholders, which means there are a plethora of of stakes. Blockchain's expertise, through its shared and distributed ledgers, can provide a shared supply of assets and therefore knowledge management can be very powerful. Providing real bills is another kind of profit that expertise brings to every power supplier and customer. Through its unified ledger, blockchain ensures that every participant in the community has access to the current metering and billing process. Traceability of power supply provides customers with a transparent image, thereby providing peace of mind.

In addition to the use cases discussed above, blockchain can protect the privacy, knowledge confidentiality and account management of the power sector. Additionally, with useful resource sharing, experts can provide charging options among many customers.It’s similar to sharing electric vehicle charging infrastructure knowledge, but with even more benefits.

Highly dynamic companies using blockchain

Many dynamic companies are adopting blockchain as a means to streamline current processes and create new capabilities To realize many functions similar to commodity trading, P2P power trading, eliminating middlemen and retailers, knowledge management, etc. Their goal is to include blockchain-based electricity meters and real-time auctions to create an autonomous powered market that might not only lower the price of currently unbalanced energy technologies, but even increase the overall efficiency of the system.

Conclusion

It is clear from the conversation above that blockchain expertise has the potential to transform the power sector. However, here are some of the challenges experts need to grapple with. The initial issue is that the blockchain must demonstrate that it is well positioned to provide the scalability, speed, and security required for the proposed use case. Many established and dynamic companies are using blockchain Digital Linear Tape (DLT), clearly revealing the potential value of this rising expertise. However, as this expertise continues to be generated, further improvements are required to achieve desired business and efficiency goals.

National Energy Information Platform contact number: 010-65367702, email: [email protected], address: People’s Daily, No. 2 Jintai West Road, Chaoyang District, Beijing

7. Energy Blockchain Research | Blockchain can help us fight climate change

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Blockchain Chains can help us fight climate change

·Smart contracts run on the blockchain, which can unlock many new ways to respond to climate change and address its impacts.

·Achieving this requires a value intermediary network, which can help the blockchain collect information from real society and interact with it.

Note: Oracles (value intermediaries) provide data to smart contracts and are the bridge between the real world and the blockchain.

Smart contracts allow people to design a globally accepted and fully automated incentive system that can directly reward individuals, companies and governments that participate in sustainable practices. These practices include: regenerative agriculture, carbon offsets, crop insurance, and more. In promoting global green actions, smart contracts have greatly incentivized participants.

Initial obstacles

The development of green smart contracts is hindered, mainly reflected in the inability of the blockchain to interact with information from various regions in the real world, including the environment. However, in recent years, through oracle mechanisms that can integrate global data on the blockchain,The company can finally put into production.

For example, these oracle mechanisms can now publish agricultural information sets directly to the blockchain, and smart contract developers can eventually develop a series of small predictions about food yields, soil quality, climate reporting, carbon offsets, and more. program. As more and more environmental data sets, such as weather patterns or Internet of Things (IoT) sensor readings, are fed into the blockchain, developers are beginning to develop a wide range of environmentally friendly smart contract applications.

The following are three related examples

1

Regenerative agriculture

Smart contracts allow ordinary people to participate in the fight against climate change One of the most important ways, it promotes the development of regenerative agriculture and makes regenerative agriculture possible.

Smart contracts can interact with real-world information to autonomously reward those who develop important land.

For example, the Green World Campaign is working with Cornell University to build a smart contract that can automatically reward those who pass satellite information through People who have successfully regenerated land by increasing vegetation cover, improving soil, etc.

Value intermediaries can also extract data from satellite images and trigger smart contracts built on the blockchain to ensure that people receive rewards fairly and transparently.

2

Transforming consumer awareness

Smart contracts can support environmentally conscious individuals and organizations. For example, if a person successfully triggers a reforestation smart contract, they can be paid in the form of carbon credits that can be sold to charities, crowdfunding, or even companies that have a positive impact on the environment.

Smart contracts can also provide environmentally conscious consumers with more choices in energy consumption.

For example, decentralized energy grids like the Brooklyn Microgrid Projectare could use smart contracts and blockchain as a coordination mechanism to allow consumers and their neighbors to take advantage of solar energy Generate electricity and generate transactions. Buying and selling solar credits among neighbors can reduce energy transportation costs and greenhouse gas emissions.

While many consumers are already changing their consumption habits, broader social behavioral shifts may require a combination of monetary incentives and sustainable choices among consumers. By using smart contracts connected to real-world data, different spending habits trigger different reward and punishment mechanisms. This will promote changes in consumer behavior.

3

Hedging risks by insuring crops

Climate change is altering weather patterns around the world. worldThe vast majority of farmers in the world do not have insurance, and their crops are extremely vulnerable when encountering weather such as heavy rain, drought, and strong winds.

Adverse weather conditions can cause financial losses to farmers, devastating their families and leaving farmland damaged and abandoned.

Fortunately, smart contracts can detect changing climates through value intermediaries and propose solutions.

Using smart contracts, farmers can insure their land, stipulating predefined conditions for the contract to be effective (such as a certain amount of rainfall); they can then detect weather patterns through a value intermediary.

If the value intermediary detects that the conditions have been met, the farmer automatically gets a sum of money.

Smart contracts communicate climate information through value intermediaries, allowing farmers to protect their property with just a smartphone.

Outlook

The combination of blockchain and value intermediary opens up a new era of smart contracts, which can create a new incentive model for sustainable human energy consumption. . As discussions about climate change continue to escalate, it’s important to understand that the impact of this industry on the environment will go far beyond the consensus mechanisms of any one project.

National Energy Information Platform contact number: 010-65367702, email: [email protected], address: People’s Daily, No. 2 Jintai West Road, Chaoyang District, Beijing