The advantage of on-site charging is that it is convenient for charging in places where there are no charging conditions for a long time or not at all. You can also connect an external power strip to boil water for cooking and camping. you don't have to worry about electricity consumption.
BYD's plug-in hybrid vehicles have external discharge and in-situ power generation functions. Power output varies between different models, 1.5T is generally 3 to 5 kilowatts, and 2.0T is generally 5 to 8 kilowatts. The operation method is as follows: in the HEV (hybrid mode) state, the vehicle is in P gear (parking gear), and the vehicle can enter the in situ power generation state by pressing the pedal accelerator (accelerator). Many users find it tiring to walk upright all the time. In fact, they don't need marcher standing all the time. There are many ways to solve the problem. The easiest way is to use the triangular plate supplied with the car to hold the accelerator pedal.
There are several points to note when using the in situ power generation feature. First, the vehicle cannot generate electricity in situ when using the external discharge function outside the vehicle, that is, it cannot generate electricity in situ when discharge through the charging port, but it can use the in situ power generation function when using the discharge function. inside the vehicle. On-site power generation can only charge up to 70% of the maximum value. The on-site power generation function is not available when the power is greater than this value.
The electric car suddenly runs out of energy on the wheelyou. Can it be stopped and mounted on the side of the road to automatically generate electricity?
No need.
According to the information officially released by BYD, BYD Song Pro can enter the in-situ power generation state by pressing the accelerator pedal in HEV (hybrid mode) state. . But it is not necessary to press the accelerator pedal all the time, as this will tire the driver. In fact, there are several ways to solve this problem. For example, you can use the triangular plate that comes with the vehicle to hold the gas pedal to keep the electricity-producing vehicle in place without having to keep pressing on it with your foot. This reduces the burden on the driver while ensuring the vehicle can continue to produce electricity.
Why do electric fish have electricity?
The electric car is cheaperdeignly ran out of energy on the road. The ability to automatically generate electricity when parked on the side of the road depends on whether the electric car has this feature. Most electric vehicles claim to automatically generate electricity and charge the battery as long as the vehicle is in motion. A small number of electric vehicles do not have this feature. Therefore, in order to make driving more convenient, it is recommended to find a nearby charging station and charge it.
Electric vehicles (BEV)
Refers to vehicles powered by on-board energy and using motors to drive the wheels, and complying with the requirements of road traffic and safety rules. As its impact on the environment is less than that of traditional cars, its prospects are largely optimistic, but the current technology is not yet mature.
Working principle: battery - current - power regulator - electric motor - power transmission system - drive the car (road).
The driving energy of the electric motor comes from the vehicle's rechargeable battery or other energy storage devices.
Most electric vehicles are directly driven by electric motors. Some vehicles have electric motors installed in the engine compartment, and some directly use the wheels as driving force. The difficulty of four electric motor rotors lies in energy storage technology.
For any questions about in situ electricity generation, please ask other cyclists.
There are many organisms in nature that can produce electricity. electricity, including more than 500 species of fish. . People call these fish that can discharge electricity “fish.”“electric ons”.
Different electric fish have different discharge capacities. Those with the strongest discharge capacity are electric rays, electric catfish and electric eels. An average-sized electric ray can produce around 70 volts, while the African electric ray can produce up to 220 volts; the African electric catfish can produce 350 volts; the electric eel can produce 500 volts and there is a South American electric eel. It can produce voltages of up to 880 volts, making it the champion of electric shocks. It is said that it can kill large animals like horses.
What is the secret of the electric discharge of fish? After anatomical research on electric fish, it was finally discovered that there is a strange energy-generating organ in the body of electric fish. These generators are made up of numerous cellsThese translucent disc-shaped plates are called electroplates or electrodiscs. As there are different types of electric fish, the shape, location and number of electrical panels of the generator are different. The generator of the electric eel is prismatic and is located in the muscles on both sides of the spine; the electric ray generator is in the shape of a flat kidney, arranged on both sides of the midline of the body, with a total of 2 million electric plates; The catfish's electrical generator comes from a certain gland A, located between the skin and the muscles, with about 5 million electrical plates. The voltage generated by a single electric plate is very low, but because there are many electric plates, the voltage generated is very high.
The extraordinary ability of electric fish has aroused great interest among people. At the beginning of the 19th century, the Italian physicist Volta designedthe world's first voltaic battery using the energy-generating organ of the electric fish as a model. Because this battery is designed based on the electric fish's natural generator, it is called "artificial electric organ". Research on electric fish also gave this revelation: if the power-generating organ of electric fish can be successfully imitated, then the power problems of ships and submarines can be well solved.
The electric eel has two pairs of generators, long spindle-shaped and located on both sides of the spinal cord at the tail. The average voltage when discharging electric eels is more than 350 volts, but there are also records for discharges of 650 volts. The maximum voltage of the American electric eel reaches more than 800 volts, which is enough to kill a cow. The current generated by the electric eelsrisks during discharge is extremely low, generally less than 1 ampere, however, sometimes a voltage of 500 volts and a current of 2 amperes is observed, i.e. a short-term discharge with a power of 1000 watts; . Although it emits direct current, the discharge frequency can reach 300 pulses per second. The harmful power of the discharge depends on the size of the eel and the condition of the organism. When the eel is less than a meter long, the tension increases as the eel grows. When it reaches 1 meter, it only increases the intensity of the current. When electric eels hunt for food, they first swim quietly near a school of fish, then continuously emit electric current. The fish that receive the electric shock immediately faint and become stiff, so the electric eels take advantage of this and devour them. Electric eels sometimes dischargeelectricity, not necessarily for hunting, but also for a physiological need. The amount of fish electrocuted by electric eels often exceeds what they need to eat, resulting in harmful fish production. Once an electric eel is discharged, it requires a recovery period before it can discharge. Taking advantage of this feature, when fishermen catch electric eels, they first drive their livestock into the water to discharge the electric eels, and then wait until they have consumed electricity before fishing, which can save fishermen to get hurt.
There is a biological cell called an electroplate in the electric eel that suddenly allows a flow of ions to pass through its cell membrane. There will be a considerable number of these cells from start to finish. The total voltage is therefore the sum of the potential differences of the electric spotsconnected in series (the potential difference between the inside and outside of a single electrical spot is 0.15 V. In this way, the voltage will reach a more objective value). from the start. Many such strings of electric spots are connected in parallel in the body of the eel. On the one hand, the parallel connection allows enough current to hunt food or scare away enemies, and on the other hand, it ensures that the current flowing between cells can maintain a current. low value. This is why electric eels can kill their prey without being harmed.
In fact, bioelectricity exists widely in various living organisms. As long as a special mechanism is formed to release or amplify it, it has a discharge function.
The in-situ power generation function of Song plusdmi vehicle is not available
Let me share with you the Tang 80. The method ofusing Song DM should be the same: 1. It must be in hevsport mode. Put your foot in position P and press the accelerator. There will be two types of power generation depending on the depth of the accelerator. You must keep your foot pressed and release it to move out of the place to be generated. electricity. If you need to generate electricity for a long time, it is recommended to find a stone to maintain it. 2. When the power is lower than the soc value,
Ask what to do if the Songplusdmi vehicle's in-situ power generation function is not available. P gear, press the accelerator.
Once the vehicle is unlocked, step on the brake and press the start button to start the vehicle. At this time, it is in P gear. Step on the accelerator to enter the spot. mode of energy production.
Song plusdmi is a hybrid model that can bedischarged externally.