Yes. Since the fuel of the steam turbine generator can be gasoline, diesel, alcohol or natural gas, the steam turbine generator can use ethanol instead of water. The working principle of a steam turbine generator uses a burner to heat the organic liquid in the steam generator, thereby transforming the organic liquid into steam, and relies on the expansion force of the steam to drive the turbine.
A device and method for producing energy on the high seas
Comrade, what you said is a bit exaggerated. Do you know what is the process from design to production of a hydroelectric generator. ? , it cannot be “made” by one or two people, nor by ten or twenty people. As small as the sparrow is and has all its internal organs, you can use easy materials. find on the market to make a small towerwell, it's simply a bit of a fantasy. Your idea is good, but the word "simple" cannot enter into it.
If you are interested in this field, I suggest you purchase a "magnetic meter", which can also be called a small power generation device. It is used to measure insulation. of a Xiao shoe box, researching this thing will be helpful to you.
Deep sea power generation device is a kind of equipment and method that uses ocean energy such as deep ocean currents, temperature differences and temperature differences. pressure to produce electricity. Among them, deep-sea current generators and thermoelectric generators are two common deep-sea power generation devices.
Deep-sea current generators use the power of deep ocean currents to generate electricity. 'electric energy. In an environmentIn deep water, the power of water flow is very powerful and stable, which can provide reliable power. Deep sea current generators generally use rotating machines such as turbines or hydraulic turbines to convert the power of water flow into mechanical energy, and then convert the mechanical energy into electrical energy through a converter. The advantage of this type of generator is that it can work stably in deep sea environment, but the disadvantage is that the construction and maintenance costs are high.
The thermoelectric generator uses the temperature difference between the deep and surface layers of the ocean to generate electrical energy. In the deep water environment, due to the lack of direct sunlight, the water temperature is low, while the surface layer of the ocean is exposed to sunlight and the water temperature is high.lifted, thus forming a temperature difference. The thermoelectric generator exchanges heat between deep seawater and surface seawater via a heat exchanger to generate steam which drives the turbine to rotate, which in turn drives the generator to produce electricity. The advantage of this type of generator is that the temperature difference is stable in the deep water environment and it can continue to generate electricity. The downside is that it is strongly affected by factors such as the marine environment and climate.
In general, deep-sea power generation devices and methods are renewable energy technologies with great potential. Not only can they provide large amounts of clean energy and reduce reliance on fossil fuels, but they can also reduce greenhouse gas emissions and slow the pace of change.t global climate. However, current deep-sea power generation technology is still in its infancy and requires more research and development. In the future, we can promote the development and application of deep-sea power generation technologies by improving the design of generators, increasing the efficiency of power generation and reducing costs.