Renewable Energy

Hereby, we introduce two renewable energy projects that have been filed for an international patent with PCT-WIPO, which is applied for an international patent with PCT-WIPO.

Vehicles that generate their own electricity and charge themselves while running-The technology of Self-Electricity producing and charging the same vehicle while it is running helps to produce maximum electricity with the Self-Power Generating Tyre and wheel assembly to run electric vehicles from the motion of their own tyres, charging the battery while running, and running an electric vehicle longer, reduce the duration of recharging, and reduce the size of the battery pack. A power-generation system and a power-generating solar panel are fitted in a car and run without any battery pack.

Self-Electric Power Generating home/office Incinerators–The heat lost is a disadvantage of a home or office incinerator at the present. At the moment, home/office incinerators are used to burn waste; The heat from these incinerators is not used to generate electricity because of their smaller size and smaller installation area. But our electricity-producing home or office incinerators can make 2X2 sq. ft. in size, and can be installed in a 4×4-square-foot area. In the present invention, a different technology, a small and cost-effective one, is used to produce electricity from a home or office incinerator. 

1.Summary of Invention-Self-Electricity generating and charging vehicles

Background Art

All of the world is suffering from pollution and global warming. One of the main reasons is the large number of vehicles in the world; therefore, all countries in the world are trying to convert the fossil fuel vehicles to electric vehicles, but there are some major problems like a large battery pack, long charging times, and a higher cost than fossil fuel vehicles make it difficult. Our system is a solution to reduce all these problems.

Except for a few vehicles, all vehicles on the road have rubber or rubberized tires. On the rotation of the tyre, wherever it comes into contact with the road, the tyre becomes pressed up or slightly flat at the bottom. This happens due to gravity and weight of the vehicle. Here, this possibility is used to produce electric current to run an electric vehicle with a smaller battery pack, charge the battery during running time, and reduce the time duration of recharging the battery pack. An electric vehicle with the above-mentioned power generation system can run without any battery support with a power generation solar panel together on a sunny day.

Advantageous Effects of Invention

• Usually, more power is consumed with more speed in normal circumstances, but with this invention, the power increases with increasing speed and charges the battery while the vehicle is running.
• Reduces the charging duration so the electrical charging stations can also be managed.
• The electric charging current is lower than before, and the electric bill payment is also reduced.
• It will be more useful with the solar panels if sunlight gets in there during the running or at parking time.
• Lithium-ion batteries are preferred by electric vehicle manufacturers because of their efficiency. However, there is a scarcity of lithium on the planet. This technology reduces these problems.
• This technology reduces the cost of all electrical vehicles because of its smaller backup battery pack. These days, the battery pack is very costly.
• E-waste management is becoming increasingly difficult around the world. What will be the outcome of battery waste? In the future, there will be a much larger amount of battery waste than e-waste, and it will multiply much faster than E-waste due to its large size and large quantity needs in each vehicle, as well as a very large number of vehicles in the world that require batteries. Nobody is thinking seriously about the large amount of used battery waste. This technology can reduce those problems.
• Large and very large electrical vehicles like buses, trucks, and trailers use a larger number of tyres. By converting all these vehicles into this system can reduce pollution, costs, and battery waste.
• This can be used in the space research vehicles where the gravity force is present. There are many uses for this invention in space. This device in the space research vehicle can operate in low sunlight.

Industrial Applicability

1. Electrical vehicles such as cars, buses, and large and very large vehicles like trucks, trailers, and containers trailers use a large number of tires. This system can be applied to all vehicles to reduce pollution, costs, and battery waste.
2. When the car motor needs more power (e.g., while slowly accelerating to a higher speed), the battery power and the tyre and wheel assembly power could be used together, and when the car gains some speed, the electricity from the assembly could charge the battery and drive the motor.
3. This may be used in a space research vehicle where the gravity force is strong. Many possibilities are there in space. With this device, a space research vehicle can operate in a low-light area. The space vehicles can run longer and faster than before because of their Self-Power Generation.
4. Can reduce the electrical charging time duration and reduce the electricity consumption, so electrical charging stations can also manage well.
5. 5. The electric current required for charging will be lower than before, so the electric bill payment can also be reduced.
6. It will be more useful with the solar panels if sunlight gets on them during run time or parking time on a sunny day.
7. Lithium-ion batteries are preferred by electric vehicle manufacturers because of their efficiency. However, there is a scarcity of lithium on the planet. This technology reduces these problems.
8. This technology can reduce the cost of all electrical vehicles because of its requirement for smaller backup battery pack. These days, the battery pack is very costly.

2.Summary of Invention-Power Generating Incinerator

Background Art

The heat lost is the greatest disadvantage of a home or office incinerator at present. At the moment, home or office Incinerators are used to burn waste; the heat from these incinerators is not used to generate electricity. Because of its smaller size and smaller installation area. But our electricity producing home or office incinerators can make 2X2 sq. ft. of space and can be installed within a 4X4 sq. ft. area. In the present invention, a different technology, a small and cost-effective one is used to produce electricity from a home or office incinerator.

In the present invention, thermoelectric generator generate voltage. It is able to produce electric power 24 hours a day with a continuous heat source, like home or office mixed waste, charcoal, and waste from bushes, solid waste, wood waste, wood pellets, or farm waste.

In this invention, the unwanted heat energy is used to generate electrical power. For this, we have made the incinerator as high-tech as possible to use the temperature at its maximum efficiency from a home or an office. In this invention, heat is stored in two mediums: liquid and in concrete or terracotta, as well as generating power while burning waste in the incinerator. A microprocessor controls all functions of the incinerator, such as controlling heat in the incinerator, storing excess energy in stored liquid, concrete and returning it whenever heat is needed.

Advantageous Effects of Invention

• The government can provide or recommend the incinerator at every home where electricity is not reached. such as in remote areas and tribal areas.
• The government can provide or recommend an incinerator at every home and office to reduce air pollution, and produce electricity.
• No additional power is needed to work this high-tech incinerator; it uses its own power to work and gives power out to surrounding works, so it can be installed everywhere, even in remote areas as a power generator.
• It is more usable in remote areas or the desert where there is no electricity, because no fossil fuels are required to generate electricity and available waste, such as charcoal, dry bushes, or wood pellets, can be used instead.

Industrial Applicability

• Large size of the same incinerators and large numbers of these incinerators can be produced at an industrial level and marketed worldwide.
• Large size of the same incinerators or large numbers of these incinerators can be used to connect in series, parallel, or series and parallel to generate mass electrical power as in other large electrical production projects.
• Large sizes of these incinerators can be used to generate mass amounts of electrical power as part of waste management programmes.
• The governments can provide or recommend these incinerators at every home where electricity is not reached, such as in remote areas and tribal areas.
• The governments can provide or recommend these incinerators at every home and office to reduce air pollution and produce electricity.