Blockchain Technology, robotics & automation transforming the energy industry

Blockchain technology has the potential to revolutionise the energy industry by enabling secure and transparent transactions, improving grid management, and enhancing renewable energy distribution.

The energy industry is currently undergoing a transition from a centralised model to a more decentralised one. Blockchain technology can help facilitate this transition by providing a decentralised ledger that records and verifies all energy transactions in real-time, shared across a network of computers. This technology can also automate energy transactions through smart contracts, making it easier to engage in a transactive energy system.

Blockchain can also help facilitate communication between distributed energy resources like solar panels, smart meters, or a smart grid. By migrating from a centralised energy system to a decentralised, blockchain-powered one, residential and business consumers alike can unlock significant benefits.

Blockchain technology has the potential to transform the energy industry in several ways:

1. Decentralisation: Blockchain technology can enable a decentralised energy system by providing a decentralised ledger that records and verifies all energy transactions in real-time, shared across a network of computers. This can help facilitate the transition from a centralised model to a more decentralised one, which is currently underway in the energy industry.
2. Smart contracts: Blockchain technology can automate energy transactions through smart contracts, making it easier to engage in a transactive energy system. This can help reduce transaction costs and improve the efficiency of energy trading.
3. Grid management: Blockchain technology can help improve grid management by providing a secure and transparent platform for communication between distributed energy resources like solar panels, smart meters, or a smart grid. This can help optimise grid performance and reduce the risk of power outages.
4. Renewable energy distribution: Blockchain technology can enhance renewable energy distribution by enabling secure and transparent transactions between producers and consumers. This can help increase the adoption of renewable energy sources and reduce carbon emissions.

In summary, blockchain technology has the potential to revolutionise the energy industry by enabling secure and transparent transactions, improving grid management, and enhancing renewable energy distribution.

Robotics transforming the Energy Industry

Robotics has a significant role to play in the energy industry. According to a report by Energy Digital, the combination of new technologies is creating massive opportunities for energy companies to improve efficiency, optimise performance, drive innovation, and accelerate growth.

Robots are crucial in the manufacturing of products to harness renewable energy sources in the renewable energy sector. The complex design structure of the products is increasing the demand for machine precision, which cannot be achieved with human workforce alone.

A paper published in IEEE Access highlights that robots offer precision, repeatability, reliability, productivity, and intelligence, rendering their services in diversified tasks ranging from manufacturing, assembling, installation to inspection and maintenance of renewable resources. The paper explores applications of real robots in four feasible renewable energy domains; solar, wind, hydro, and biological setups.

Robotics has the potential to transform the energy industry in many ways. Here are some of the applications of robotics in the energy sector:

1. Smart Grids: Grids can now be integrated with sensors, data analytics tools, energy storage systems, energy management systems, and other technologies to optimise energy usage and reduce costs.
2. Grid Security: The energy grid is a complex system that is vulnerable to cyberattacks. AI and machine learning can be used to detect and prevent cyberattacks.
3. Microgrids: A microgrid is a small energy grid that can operate independently of the traditional energy grid. Microgrid control systems use AI and machine learning to manage energy flow and optimise energy usage.
4. Power Theft and Energy Fraud Detection: Theft and fraud of electricity cost the energy and utilities industry as much as $96bn every year globally, with as much as $6bn every year in the United States alone. AI and machine learning can automatically detect these anomalies and flag them for energy companies to resolve.
5. Energy Trading: AI and machine learning can be used to make energy trading more efficient by predicting energy demand and providing traders with real-time information about energy prices.

Automation transforming the Energy Industry

Automation has been playing a significant role in the energy industry. According to a report by Capgemini Research Institute, automation and artificial intelligence can help the energy and utilities sector save between $237 billion and $813 billion over the next three years.

Intelligent automation can help organisations in the energy sector to capitalise on shifts in demand from developing countries and new usages, which are fuelling a backlash against traditional, centralised power sources. As a result, reliance on renewable energy sources continues to grow, and the sector moves from regulation to innovation while its customers transform from passive consumers to demanding prosumers.

Here are some ways automation can transform the energy industry:

1. Cost savings: Automation and artificial intelligence can help the energy and utilities sector save between $237 billion and $813 billion over the next three years. By automating repetitive and error-prone tasks such as meter reading validation, billing, payment reversals, and complaint management, organisations can reduce costs and increase efficiency.
2. Enhanced safety protocols: Automation can be used to provide more accurate, faster responses to critical situations in the energy industry. As automation is further implemented, it will help to reduce accidents and ensure that all safety rules are followed.
3. Improved customer experience: Workflow automation is transforming the energy industry, supporting optimisation, cost reduction, and easy data management. Any organisation can take advantage of the many benefits of automated workflows, allowing them to offer a better customer experience.
4. Capitalising on shifts in demand: Intelligent automation can help organisations in the energy sector to capitalise on shifts in demand from developing countries and new usages, which are fueling a backlash against traditional, centralised power sources. As a result, reliance on renewable energy sources continues to grow, and the sector moves from regulation to innovation while its customers transform from passive consumers to demanding prosumers.
5. Digital transformation: Digitalisation is the wave of the future for the energy and utilities sector. To transform into the smart, augmented utility that will prosper in it, organisations should focus on midstream and upstream activities and on new businesses, such as renewables and beyond the meter. However, they must be pragmatic and maximise ROI by re-engineering processes before they are implemented. Finally, they must curate a culture and mindset in which these technologies complement the workforce’s skills.