. This is a revolutionary technology that Toyota unveiled in December 2023, claiming that it could change the future of cars and challenge the EV industry.
The water engine works by performing electrolysis in real time to create hydrogen from water, and then burning the hydrogen in a combustion engine. This eliminates the need for heavy, high-pressure storage tanks used in current hydrogen vehicles, and reduces the carbon emissions to zero.
Toyota says that the water engine has several advantages over electric vehicles, such as longer range, faster refueling, lower cost, and higher performance. Toyota also says that the water engine is compatible with existing infrastructure and can be used in various types of vehicles, from passenger cars to commercial trucks.
Toyota has demonstrated the water engine in a Corolla H2, which participated in a 24-hour endurance race at Fuji Speedway in May 2023. Toyota plans to launch the water engine in the market by 2025, and aims to achieve carbon neutrality by 2030.
Toyota is a Japanese automobile company that was founded by Kiichiro Toyoda in 1937 as a spinoff of his father’s machine making business, Toyoda Automatic Loom Works. Toyota’s first production car was the Model AA sedan, which was released in 1936. Toyota became the largest automobile manufacturer in the world for the first time in 2008, surpassing General Motors. Toyota is known for its innovation, quality, and environmental sustainability, and has produced popular models such as the Corolla, the Camry, the Prius, and the Land Cruiser.
Toyota was the first Japanese car manufacturer to enter the American market in 1957, with the introduction of the Toyopet Crown sedan and the Land Cruiser SUV.
Toyota pioneered the concept of lean manufacturing, also known as the Toyota Production System, which aims to eliminate waste, optimize processes, and empower workers.
Toyota is the leader in hybrid electric vehicles, having launched the Prius, the world’s first mass-produced hybrid car, in 19973. Toyota has sold over 15 million hybrid vehicles worldwide as of 2020.
Toyota is also investing in hydrogen fuel cell vehicles, such as the Mirai, which was launched in 20145. Toyota believes that hydrogen can be a clean and renewable energy source for the future.
Toyota is involved in various social and environmental initiatives, such as the Toyota Environmental Challenge 2050, which aims to reduce the environmental impact of its operations and products to zero. Toyota also supports education, culture, sports, and philanthropy through various foundations and partnerships.
problems with electric engine that water engine can solve-
some of the problems that come with electric cars are:
Charging station
Charging: Electric cars need to be plugged in to recharge their batteries, which can take hours depending on the type and capacity of the battery and the power source. Charging stations are not widely available in some areas, and may require special adapters or fees. Electric cars also have a limited range, which means they cannot travel as far as gasoline or diesel cars on a single charge12.
Electric car
Cost: Electric cars are generally more expensive than conventional cars, both in terms of purchase price and maintenance. Electric cars have complex components, such as batteries, motors, and inverters, that may need to be replaced or repaired more often than simple mechanical parts. Electric cars also depend on the availability and price of electricity, which may vary depending on the time, location, and source of power.
Performance: Electric cars have different characteristics than conventional cars, such as acceleration, torque, noise, and handling. Some drivers may prefer the feel and sound of a gasoline or diesel engine over an electric motor. Electric cars may also have lower top speeds, less towing capacity, and less cargo space than conventional cars. Electric cars may also be affected by extreme temperatures, which can reduce the efficiency and lifespan of the batteries.
Water engines are a type of engine that use water as a fuel, by splitting it into hydrogen and oxygen through electrolysis, and then burning the hydrogen in a combustion chamber. Water engines claim to solve some of the problems of electric cars, such as:
Electric car charging methods
Charging: Water engines do not need to be plugged in to recharge, as they can refill their water tanks from any source of clean water, such as a faucet, a well, or a river. Water engines can also have a longer range than electric cars, as they can run as long as there is water available.
Cost: Water engines are supposed to be cheaper than electric cars, both in terms of purchase price and maintenance. Water engines have fewer and simpler components than electric cars, such as water tanks, electrolyzers, and spark plugs, that may be easier and cheaper to replace or repair. Water engines also use water as a fuel, which is abundant and inexpensive compared to electricity.
Performance: Water engines are expected to have similar or better performance than electric cars, such as acceleration, torque, noise, and handling. Water engines can also have higher top speeds, more towing capacity, and more cargo space than electric cars. Water engines may also be less affected by extreme temperatures, as they can adjust the water flow and pressure to optimize the combustion process.
However, water engines are not yet commercially available, and there are many challenges and uncertainties that need to be overcome before they can be widely adopted. Some of the challenges are:
Efficiency
Efficiency: Water engines require a lot of energy to split water into hydrogen and oxygen, which may be more than the energy produced by burning the hydrogen. This means that water engines may not be able to run on their own, and may need an external power source, such as a battery, a solar panel, or a generator, to provide the electricity for electrolysis. This may reduce the net energy output and increase the cost and complexity of the water engine system.
Safety
Safety: Water engines involve the production and storage of hydrogen, which is a highly flammable and explosive gas. Hydrogen can leak, ignite, or detonate, causing fires, injuries, or damage to the water engine and the surrounding environment. Water engines also emit water vapor as the only by-product of combustion, which may cause condensation, corrosion, or freezing problems in the water engine and the exhaust system.
Regulation
Regulation: Water engines are not yet regulated or standardized by any authority, and there may be legal, ethical, or environmental issues that need to be addressed before they can be approved for use. For example, water engines may need to comply with emission standards, safety codes, fuel quality specifications, and tax policies that apply to conventional or alternative vehicles. Water engines may also have an impact on the water cycle, the climate, and the ecosystem, depending on the source and quantity of water used and the amount and quality of water vapor emitted .
Some of the problems that electric cars may face after five years are:
Battery degradation: Electric car batteries lose capacity over time, which reduces the driving range and performance of the vehicle. Replacing or repairing the battery can be costly and complicated.
Climate control: Electric car heaters and air conditioners can drain the battery and lower the range, especially in extreme temperatures. Electric cars may also need more energy to warm up or cool down the battery and the cabin.
Electronics failure: Electric cars rely on complex and sensitive electronics, such as inverters, motors, and sensors, which may malfunction or break down over time. This can affect the functionality and safety of the vehicle.
Seals leakage: Electric cars have rubber seals around the doors, windows, and trunk, which may wear out or crack over time. This can cause water or air to leak into the vehicle, damaging the interior or the electronics.
Resale value: Electric cars tend to depreciate faster than conventional cars, due to the rapid advancement of battery technology and the uncertainty of the future market. This can make it harder to sell or trade in an electric car after five years.
Water engines are a type of engine that use water as a fuel, by splitting it into hydrogen and oxygen through electrolysis, and then burning the hydrogen in a combustion chamber. Water engines claim to solve some of the problems of electric cars, such as:
Battery degradation: Water engines do not use batteries, so they do not suffer from capacity loss or performance decline over time. They only need to refill their water tanks from any source of clean water.
Climate control: Water engines do not depend on the battery for heating or cooling, so they do not affect the range or efficiency of the vehicle. They also emit water vapor as the only by-product of combustion, which can help regulate the temperature and humidity of the cabin.
Electronics failure: Water engines have fewer and simpler electronics than electric cars, such as water tanks, electrolyzers, and spark plugs, which may be easier and cheaper to replace or repair. They also have less risk of short circuits or electrical fires.
Seals leakage: Water engines do not have rubber seals around the doors, windows, or trunk, so they do not have the problem of water or air leakage. They also have a water-cooled system that prevents overheating or freezing of the engine and the exhaust system.
Resale value: Water engines are expected to have higher resale value than electric cars, due to their longer range, faster refueling, lower cost, and higher performance. They also have the advantage of being compatible with existing infrastructure and vehicles.
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