Fusion-Quantum Smart Grid

Our Fusion-Quantum Smart Grid is the energy system of the future. We offer an alternative to conventional fossil fuels which are destroying ecosystems, allowing decentralization at a local level based on renewable technologies. Our smart grid will interpret and solve issues, collect environmental stresses as data, and even control smart appliances to match the electricity production. A large amount of computational power is required to maintain such a complex system, which quantum computers offer.

Our error-correcting, independent fusion-quantum smart grid makes it possible to detect anomalies - with the help of smart input technologies like smart metering - and solve them in real-time. With biosensors, our smart grid would also become capable of solving environmental issues in the areas it is implemented.

Our Fusion-Quantum Smart Grid - globally - would make the centralized systems currently being used obsolete, greatly benefiting the environment.

Currently, global energy systems are based on polluting sources, which are destroying ecosystems through their carbon dioxide emissions. Current centralized energy systems not only are extremely inefficient, but also immensely pollute the environment. In India, around 50 percent of the energy is generated from coal power plants and  an estimated 750 mt of Co2 is released from them. Globally,  33.1 Gt of co2 is emitted from energy generation. Such vast amounts of greenhouse gasses are warming the earth - global mean temperature is 2.61 times greater than 20 years ago - which is destroying ecosystems. 

The centralized nature of current energy systems makes energy inputs extremely vulnerable. A lack of control in energy usage and a lack of data collection is among the things that makes it vulnerable. The energies they are based on are also highly inefficient. 

Our Quantum-Fusion Smart Grid will make using such resources obsolete and solve the problem of co2 emissions and inefficiency of energy systems. 

Our Fusion-Quantum Smart Grid, using decentralized renewables, with the computational power of quantum computers, will transition us away from unsustainable energy systems. Its capability of analyzing data with smart-metering to maintain functionality prevents overloading. Collecting vast amounts of data helps model ‘energy usage trends’, and predict its increase.

Biosensors will collect large amounts of environmental data. Analysing soil quality would help farmers determine which crops to use, how much fertilizer and water is required, which will optimize the usage of resources. Collecting data on temperature, humidity, and wind speed will also help predict rainfall. Biosensors can help predict natural disasters by acting as seismometers and detecting lightning patterns, which indicate hurricanes. The fusion-quantum smart grid can also function as a large data point, providing opportunities for other companies to collect data that they might require. Collecting such data is essential to implement hybrid, renewable energy systems. Such data will help calculate the net energy production of the various decentralized energy inputs of our fusion-quantum smart grid, making individual calculations of the smaller systems unnecessary, which will also remove a large complication of hybrid grids. Such a consistent statistic on total generation will help prevent overloading and energy shortages. 

Firstly, we believe our fusion-quantum smart grid will fully optimize energy usage. By obtaining a large amount of data, we can figure out where to increase energy production and where to decrease it. It would solve both overproduction and underproduction. With smart appliances, the grid will be able to shut them off if there we foresee any possibility for overloading. With the help of advanced Fault detecting technology, if a sub-system were to fail, our smart grid would be able to pinpoint its location for an efficient and quick repair. Secondly, smart grids make it much easier to decentralize energy inputs, which is essential for an energy supply's resilience. Currently, implementing decentralized energy systems into the main grid is restricted by the complexity of the issue. At a significant amount, it is very difficult to use renewable sources as a supplement to the main grid because of the variability in energy generation and the need for large-scale backup systems. Our fusion-quantum smart grid will be designed to be able to handle such complexity. Since reducing the complexity of an energy system is impossible because of the ever-increasing demand for energy, systems such as this one need to be developed in order to achieve energy security. 

With the help of biosensors, it is our goal to make our Fusion Quantum Smart Grid a large data collection center. Since it will expand over a very large area, its ability to collect large amounts of useful data is immense. We can use biosensors not only for renewable-hybrid-grids but also for many environmental stresses. Biosensors are an extremely useful technology. We can use the many types of biosensors to detect various types of data. In the case of agriculture, for example, detecting humidity and soil quality and composition. This information would help farmers utilize various different crops, which would decrease the need for chemical fertilizers and also make how much that is needed clear.

By using clean sources of energy, our fusion-quantum smart grid will eliminate large amounts of carbon emissions. We hope to base our smart grid on nuclear fusion as the large-scale, centralized energy source, which is stable. We believe that our grid could also help commercialize nuclear fusion. Since just using a centralized source of energy makes an energy system vulnerable, we will also implement other renewable energy sources as a form of decentralized systems and encourage the implementation of small-scale, renewable grids, which can connect back to the main smart grid. A large reduction in co2 emissions will benefit everybody’s health - from farmers to people living in metropolitan areas - by greatly reducing the chances of respiratory diseases and also reduce the adverse effects of pollution on human brains.

A highly efficient electricity system will benefit everybody. Energy prices will go down because the energy sources used in the smart grid will be used to their full output system. There will be no more blackouts because of the control available to the smart grid. 

Our grid will make it easy for people to create their own independent energy system and allow them to sell whatever surplus energy back onto the grid. 
  
Using the power of quantum computing and biosensors will solve this problem and bring positive social change to everyone on earth, from the rural farmer to those in the ever-growing cities.

Our Fusion-Quantum Smart Grid will solve one of the largest issues humanity is facing: global warming. Implementing it will completely mitigate the carbon dioxide emissions from power generation. Not only this, with biosensors our grid will be capable of collecting useful environmental data that can be tailored to specific locations or situations. For example, temperature, humidity, and soil quality can be determined by farmers. Biosensors will also be used to monitor ecosystem conditions. We believe that our smart grid will not only restore ecosystems affected by co2 emissions but also create economic opportunities for data collection for companies.

We have just begun to develop the quantum algorithms to create this Smart grid system. Once fully developed, we still have to face the hurdle of implementing it. Since it is a large system, it will take a lot of resources to build the infrastructure, and we would also need a fully functioning error-correcting quantum computer, which is yet to be created. Nuclear fusion will also take a few more years to fully commercialize. A commercialized nuclear fusion center is very close to being fully functional in the UK and US. The ITER project is a large-scale demonstration of the technology's viability. 

We are sure that as we begin to create it, we will face many other unforeseen problems, and implementing it will take time as some of the technologies required are not yet perfected.  

There is a fundamental limit to how fast classical computers can get, because of which quantum computing is the future. Quantum computers can reach speeds much higher than classical computers at their limit because of qubits. Along with quantum computing, using nuclear fusion as the primary energy source will be a drastic difference from the conventional, polluting sources.  Both of these technologies are going to be inevitably prevalent in the future. 

By obtaining a large amount of data, we can figure out where to increase energy production and where to decrease it. It would solve both overproduction and underproduction. Our solution is a quantum approach to a novel concept. Our solution will prove the feasibility of an independent smart grid, which will revolutionize energy systems.  With biosensors, we will be able to collect large amounts of data that can be tailored to specific needs. Our Fusion-Quantum Smart Grid will have a positive impact wherever it is implemented: it will reduce co2 emissions, electricity prices, and provide essential environmental data. 

Currently none, but eventually we would want to completely shift all energy systems to this novel technology.