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The 2019 Lifan 820ev has an official pure electric range of 401km according to the Ministry of Industry and Information Technology. The 2019 Lifan 820ev has a battery capacity of 60kWh and a range of 401km, which calculates to an energy consumption of 0.1496kWh per 100 kilometers. The Lifan 820ev uses a ternary lithium battery, which has higher energy density and lighter weight, making it very suitable for pure electric household vehicles. It is equipped with a front-mounted single motor with a maximum power of 100kW and a maximum torque of 240 Nm. The main factors affecting the vehicle's range are as follows: Power battery capacity: The battery is the source of energy, and the more energy the battery can carry, the more significant the improvement in range. Increasing battery capacity often involves not only improving energy density but also enlarging the battery pack's volume and stacking more battery modules. Mechanical transmission efficiency: Energy is transferred from the battery, converted into kinetic energy by the motor, and then transmitted to the wheels, completing the entire energy transfer path. The mechanical transmission efficiency of electric vehicles is particularly high, with motor efficiency exceeding 90%, and some can achieve 95% or even higher. Resistance: Mainly includes tire rolling resistance and air resistance. At low speeds, the energy consumed by the vehicle is primarily used to overcome the rolling resistance of the wheels. At high speeds, the energy is mainly used to overcome air resistance. At a speed of 120kph, air resistance typically accounts for about 80% of the total resistance. Vehicle's own energy consumption: The vehicle's own energy consumption can be divided into two categories: one is the consumption of the passenger compartment, such as the air conditioning system and infotainment system. The other is the energy consumption of the vehicle control system and powertrain, such as battery heating during low-temperature startup and battery cooling in high-temperature environments.

New cars typically have a break-in period of 1,000 to 3,000 kilometers. The break-in period, also known as the run-in period, has the following key points: 1. Before assembly, each moving part of a car is manufactured separately, and during this process, geometric deviations are inevitable. As a result, some moving parts may have direct localized contact after assembly, making it difficult for lubricating oil to reach the friction surfaces, which can lead to early wear. The break-in period is designed to wear down these direct contact points over a certain period, hence the name. 2. The break-in period for a new car or a major overhauled vehicle generally ranges from 1,000 to 1,500 kilometers. This is the essential mileage required to ensure that components fully contact, friction, adapt, and settle. During this time, the car's components can adjust and enhance their ability to adapt to the environment while wearing down any protrusions on the parts. The quality of the break-in period significantly impacts the car's lifespan, safety, and fuel efficiency.

Roewe 750 cabin air filter is located behind the glove box on the passenger side. If you need to replace the cabin air filter, the recommended steps are as follows: 1. Pull out the two clips at the bottom of the glove box and remove the glove box. 2. Unscrew the nut, forcefully remove the upper part of the glove box, and you will see the exterior of the cabin air filter. 3. Open the box, replace the cabin air filter, reinstall the box, and reassemble the glove box in the reverse order of removal. The replacement of the cabin air filter is now complete. Note: There are two types of cabin air filters, one without activated carbon and another with activated carbon. The activated carbon cabin air filter not only has the aforementioned functions but also absorbs a large amount of odors and other effects.

Replacement of spark plugs is necessary under the following conditions: difficulty in cold-starting the vehicle requiring a second attempt; unexplained engine stalling; difficulty in cold-starting accompanied by vehicle shaking; and engine slipping, among others. Difficulty in Second Start Attempt: Generally, if a car suddenly stalls while driving and becomes difficult to restart, this indicates a significant issue with the spark plugs. If this occurs on a highway, the consequences could be dire. Unexplained Engine Stalling: A normally functioning car starts easily and does not stall without reason. If such a problem arises, it is highly likely that the spark plugs are damaged. In such cases, avoid starting the vehicle and promptly inspect and troubleshoot. If the issue is indeed with the spark plugs, replace them as soon as possible. Difficulty in Cold-Starting and Shaking: If the car requires multiple attempts to start in the morning and stalls after severe shaking even after starting, this is a sign that the spark plugs are not functioning properly. If no other issues are found with the vehicle, it is essentially time to replace the spark plugs. Engine Slipping: During driving, if the car exhibits slipping when changing gears, this indicates insufficient power, accompanied by increased fuel consumption and black smoke from the exhaust pipe. At this stage, the spark plugs are severely worn and must be replaced immediately. Hazards of Not Replacing Spark Plugs Timely: Failing to replace spark plugs on schedule can lead to a sharp increase in fuel consumption during certain periods. As spark plugs age, carbon deposits form on the center electrode, affecting their ignition efficiency and further increasing fuel consumption. Additionally, the lifespan of the car's engine may be compromised. Poor ignition from worn spark plugs results in incomplete combustion of the air-fuel mixture, potentially causing engine cylinder scuffing, which in turn leads to vehicle shaking and excessive engine load, among other irreversible issues. Regular replacement of spark plugs helps extend the engine's lifespan. Precautions for Replacing Spark Plugs: When removing the high-voltage cable, avoid using excessive force or shaking the spark plug insulator, as this can damage the spark plug's performance. Ensure the engine is completely cooled before opening the engine cover, and take care to prevent external oil or dirt from entering the cylinder. Keep the spark plug electrodes and sealing washers clean to avoid safety hazards such as gas or electrical leaks. During installation, align the socket properly and slowly screw in the spark plug. After reaching half the length, tighten it firmly. Always follow the principle of vertical installation and removal to tighten the spark plugs; otherwise, gas leaks may occur.

First, ensure the key is inside the car, press the brake—hold the start button to start the vehicle, shift to D gear, release the handbrake, and release the brake to start moving. Steps to start an automatic transmission car with one-button start: Step 1: After the driver sits in the driver's seat, there's no need to press the brake, just press the start button once. At this point, the ACC light will turn on. Press it again, and the vehicle will perform a self-check. Step 2: Press the brake and then press the start button to ignite and start the engine. Step 3: Release the foot brake. You can choose to warm up the car in place, with the duration depending on the environment. Step 4: Press the foot brake again, shift to D gear, and release the handbrake. Step 5: Slowly release the foot brake to start moving. Step 6: Depending on road conditions, smoothly press the accelerator to increase speed and drive safely.

An inter-axle differential lock can turn. Depending on the locking method, differential locks can be categorized into: 1. Forced Locking Type: This type of differential lock is set on a common symmetrical bevel gear differential. It has a simple structure, is easy to manufacture, and has a high torque distribution ratio. 2. High-Friction Self-Locking Type: This includes structures like friction plate type and slider cam type. The friction plate type locks the differential through the frictional torque generated when the friction plates slide relative to each other. 3. Jaw Type: The jaw type is commonly used in medium and heavy-duty trucks. 4. Torsen Type: The Torsen differential is a new type of inter-axle differential. It has a wide and adjustable torque transmission range, making it widely used in the central differential of all-wheel-drive cars and the inter-wheel differential of rear-drive axles. 5. Viscous Coupling Type: Some four-wheel-drive cars use a viscous coupling as a differential. Silicone oil has a high thermal expansion coefficient. When the speed difference between the two axles is too large, the temperature of the silicone oil rises sharply, and its volume expands continuously. The silicone oil pushes the friction blades to tightly combine, directly connecting the drive shafts at both ends of the viscous coupler as one, i.e., the viscous coupler locks.