1, using giant oysters in the sea to generate electricity
A large power plant similar to the python, its body a long pipeline, up to 200 yards, or even longer. Its body is filled with water. This snake can produce up to 1 MW of electricity each year. This device will use a trapped rubber giant, let it swim in the sea, after the "snake" wave can drive the snake on the tail turbine power generation. The electricity sent out can be shipped ashore via a cable. 50 giant urns produced from rubber can generate electricity for 50,000 homes. The project is being developed by the Checkmate Group.
2. Use piezoelectric tiles to generate electricity
In Japan, people have begun to use piezoelectric tiles to generate electricity. The above photo is Tokyo Station. People are stepping on this special tile. Metros, airports, and large shopping malls have tens of thousands of people passing through these places every day. For example, an average of 2.4 million passengers flow at a Shibuya station every working day. “A typical person weighing 60 kg can only emit 0.1 watts within a second or two. But if you go a long distance and thousands of people walk, you can send a lot of "Yes," Yoshiaki Takuya from Japan said. Therefore, each step is critical and the results are substantial. This approach should be implemented worldwide.
3, the use of hot ground energy
Cement roads can absorb a lot of heat. A Dutch company called the company came up with a trick to produce energy by absorbing heat from the hot ground. This energy can be used to heat the water that is buried in the pipes under the road. Then, the heat of the water is used to generate electricity. Of course, it can also be sent directly to the indoor use. This system can also prevent road ice formation while it can supply hot water to nearby houses. This will reduce capital investment and road maintenance costs, while also generating electricity.
4. Use of used tea leaves
Dr. Syed Tajamul Hussain, a scientist working at the NCP (National Physical Research Center) in Islamabad, invented a nanocatalyst with his team. This catalyst can be used to produce low-carbon biodiesel and ethanol from raw tea leaves. An average of one kilogram of used tea can produce 560 liters of biodiesel. If this concept is to be commercialized, this will be a huge step forward in the search for new energy sources.
5, anti-matter power generation
Antimatter is a very special substance. It consists of antiparticles, just as ordinary matter consists of particles. For example, positrons are antimatter of electrons; antiprotons are antihydrogen atoms. Antimatter is also composed of ordinary materials, so they are of the same quality. The only difference is that the particles they contain contain the opposite direction of rotation and charge. We know that when particles that are antiparticles meet each other, they will annihilate and release a lot of energy. The energy released can be calculated using Einstein's energy equation E=C^2. This method is still in the experimental stage. The National Aeronautics and Space Administration (NASA) has invested a lot of manpower and resources in this field.
6. Power generation in the dance hall
As we know, those who play in the dance hall are the people who consume a lot of power, because those music and lighting consume a lot of electricity every day. However, now, song and dance lights have become a good place to generate electricity. This idea was implemented by a song and dance hall called Bar Surya in Lundun. The spring on the floor of the dance hall is spring loaded. When a person dances on a compression spring, it can generate electricity. The electricity sent out will be stored by the battery and will then supply power to the facilities in the ballroom. The owner of the ballroom, Andrew Charalambous, revealed that the system can save 60% of the energy of the dance hall.
7, solar panels
This method is also very good, that is, to cover the house with a solar panel. Not only can they generate electricity, they can also act as insulation boards, which can also lower the temperature of the house.
8, the use of vehicle exhaust gas power generation
Those energy that is not used by the car will be released from the car's exhaust canister in the form of heat. In fact, this part of energy can be used to generate electricity. In a fire field, those generators generate electricity from a difference in temperature. And, the greater the temperature difference, the more electricity will be emitted. Now, researchers at the Fraunhofer Institute have started to start researching and developing how to use the energy in exhaust gas. Dr. Harald Bttner, headed, said: "The temperature of the gas in the exhaust can reach 700 degrees Celsius. Therefore, the temperature difference between the exhaust pipe and the engine cooling water can reach several hundred degrees Celsius." This temperature difference can be used to generate electricity. And, the emitted electricity accounts for a large part of the energy required by the car.
9, riding a bicycle to generate electricity
In a hotel called Crown Plaza in Copenhagen, Denmark, there is a particularly creative power generation unit. The hotel lets its guests ride bikes so they can exercise and generate electricity. At the same time, these guests can receive a free meal in return. Guests only need to ride for 15 minutes to send 10 watts of electricity. Then you can get a meal worth 36 dollars. The electricity it sends can keep a laptop working for about 30 minutes. And, this innovation is easy to implement and one can be completed.
10, car wash power generation
The POWA Water Generator (POWA filter) was designed by Vandensussche. It is a small turbine placed in a water pipe. When the car is being washed or sprinkled on the lawn, the water flow impacts the turbine's slurry and it can generate electricity. The electricity generated by this device is used to charge electric vehicles, but of course it can also be used in other ways.
11. Golf power generation
When doing some sports such as golf, cricket, bounce, baseball, etc., athletes generate a lot of energy when they wave, and these energy can be stored. Then, these stored energy can be used to charge mobile phones, laptops, etc. The device of this technology was originally designed for golfers. It's in that place, not the entire club. This device was conceived and designed by Mac Funamizu.
Stainless Steel Welded Square Pipe
Stainless steel square tube is a hollow strip of steel, because the cross section is square so called square tube. A large number of used for conveying fluid pipelines, such as oil, natural gas, water, gas, steam, etc., in addition, in bending, torsion strength at the same time, lighter weight, so it is also widely used in manufacturing machinery parts and engineering structures.
Stainless steel square tube classification: square tube is divided into seamless steel tube and welded steel tube (seam pipe) two categories. According to section shape can be divided into square and rectangular tube, widely used is circular steel tube, but there are some semicircular, hexagonal, equilateral triangle, octagonal and other special-shaped steel tube.For stainless steel square tube under fluid pressure to carry out hydraulic test to test its pressure capacity and quality, under the specified pressure does not leak, wet or expansion for qualified, some steel pipe according to the standard or the requirements of the side of the roll test, flaring test, flattening test.
Square tube specifications :5*5~150*150 mm thickness :0.4~ 6.0mmSquare tube material :304, 304L, TP304, TP316L, 316, 316L, 316Ti, 321, 347H, 310S, etc.The production process is: a. Round steel preparation; B. heating; C. Hot rolling perforation; D. cutting head; E. pickling. F. grinding; G. lubrication; H. Cold rolling; I. degreasing; J. Solution heat treatment; K. straightening; L. in cutting; M. pickling. N. Finished product inspection.
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Shandong Xinsuju Steel Co.,Ltd. , https://www.sawlpipe.com