Where to Apply for Beijing Entry Permit for Non-local Vehicles?

Borgward automobile engines are produced at the intelligent factory in Miyun, Beijing, utilizing German technology, and are classified as domestically produced engines. The Borgward BX7 model is equipped with the 4G20TI1 engine. The mid-to-low efficiency version of the engine has a maximum power of 148kW and a maximum torque of 300Nm. The high-power version of the engine has a maximum power of 165kW and a maximum torque of 300Nm. Here are some methods for daily maintenance of Borgward automobile engines: Use lubricating oil of appropriate quality grade. For gasoline engines, SD--SF grade gasoline engine oil should be selected based on the additional devices of the intake and exhaust systems and usage conditions; for diesel engines, CB--CD grade diesel engine oil should be selected according to mechanical load, with the selection standard not lower than the manufacturer's specified requirements. Regularly change the oil and oil filter. The quality of any grade of lubricating oil will change during use. After a certain mileage, the performance deteriorates, leading to various engine problems. To avoid malfunctions, change the oil regularly according to usage conditions and maintain an appropriate oil level. When oil passes through the fine pores of the filter, solid particles and viscous substances in the oil accumulate in the filter. If the filter is clogged and the oil cannot pass through the filter element, it may rupture the filter element or open the safety valve, allowing oil to bypass through the bypass valve and carry contaminants back to the lubrication area, accelerating engine wear and increasing internal contamination. Regularly clean the crankcase. During engine operation, high-pressure unburned gases, acids, moisture, sulfur, and nitrogen oxides from the combustion chamber enter the crankcase through the gap between the piston rings and cylinder walls, mixing with metal particles from component wear to form sludge. A small amount remains suspended in the oil, while a large amount precipitates, clogging the filter and oil passages, making engine lubrication difficult and causing wear. Regularly use a radiator cleaner to clean the radiator. Removing rust and scale not only ensures normal engine operation but also extends the overall lifespan of the radiator and engine.

The V5 Lingzhi is equipped with the 4A91 engine model, delivering a maximum horsepower of 120 HP, a maximum power output of 88 KW at 5000-6000 rpm, and a peak torque of 143 Nm. The engine of the V5 Lingzhi is assembled by Mitsubishi, making it a domestically produced engine. For daily maintenance of the V5 Lingzhi's engine, the following methods can be applied: Use lubricating oil of appropriate quality grade. For gasoline engines, select SD--SF grade gasoline engine oil based on the additional equipment of the intake and exhaust systems and usage conditions. For diesel engines, choose CB--CD grade diesel engine oil according to mechanical load, with the selection standard not lower than the manufacturer's specified requirements. Regularly change the engine oil and filter. The quality of any grade of lubricating oil will change during use. After a certain mileage, performance deteriorates, leading to various engine issues. To avoid malfunctions, change the oil periodically based on usage conditions and maintain an appropriate oil level. When oil passes through the fine pores of the filter, solid particles and viscous substances in the oil accumulate in the filter. If the filter becomes clogged and oil cannot pass through the filter element, it may burst the filter element or open the safety valve, allowing oil to bypass through the bypass valve and carry contaminants back to the lubrication areas, accelerating engine wear and increasing internal contamination. Regularly clean the crankcase. During engine operation, high-pressure unburned gases, acids, moisture, sulfur, and nitrogen oxides from the combustion chamber enter the crankcase through the gap between the piston rings and cylinder wall, mixing with metal particles from component wear to form sludge. Small amounts remain suspended in the oil, while larger amounts precipitate, clogging filters and oil passages, making engine lubrication difficult and causing wear. Periodically use a radiator cleaner to flush the radiator. Removing rust and scale deposits not only ensures the engine operates normally but also extends the overall lifespan of the radiator and engine.

Domestically produced Land Rover Range Rover Evoque has low fuel consumption, with a combined fuel consumption of 9 liters. The Evoque has the following advantages: 1. Advantage one: It features a highly recognizable and stylish front face, which is both full and rich with distinct layers. Beneath its youthful and fashionable appearance lies a rugged temperament. The simple front face paired with sharp headlights perfectly showcases Land Rover's domineering presence, exuding an imposing aura from afar. 2. Advantage two: Unlike its bold and domineering exterior, the interior is relatively simple, with each functional area clearly divided. The materials used are also quite exquisite, with leather materials paired with exquisite stitching, in line with its luxury car nature. 3. Advantage three: The safety features are neither extravagant nor very practical, including driver and passenger airbags, front and rear side airbags, tire pressure monitoring, brake assist, brake force distribution, traction control, vehicle stability system, and ABS anti-lock braking system.

Detailed introduction about the two-wheel drive and four-wheel drive versions of the Tiguan L is as follows: 1. The four-wheel drive version connects the two axles on all four wheels: It is equipped with a drive distribution device that can control the driving force of each wheel based on the friction between the wheel and the ground, maximizing the utilization of the engine's driving force. 2. The Tiguan L offers front-wheel drive and front-engine four-wheel drive configurations: Front-wheel drive means the engine is positioned at the front and drives the front wheels, featuring a simple mechanical structure, good engine cooling conditions, spacious interior, easy layout, reduced overall vehicle weight, better fuel efficiency, and convenient maintenance; Front-engine four-wheel drive refers to the engine being positioned at the front and driving all four wheels, offering superior handling performance. 3. The four-wheel drive version of the Tiguan L has more prominent power: The four-wheel drive Tiguan L can distribute the engine's power to all four wheels, significantly improving the vehicle's handling and off-road capability. Although the two-wheel drive version of the Tiguan L has no difference in appearance, interior, driving visibility, and ride comfort compared to the four-wheel drive version, the engine load of the two-wheel drive version is significantly reduced, leading to a substantial decrease in fuel consumption.

About the specific steps to reset the tire pressure monitoring on Great Wall H6 are as follows: 1. Specific steps for resetting the tire pressure monitoring on Great Wall Red Label H6: First, ensure the key is turned to the 2nd gear position. Use the instrument information switch button on the left side of the steering wheel to display the mileage interface on the instrument panel. Then press the upward button on the left side of the steering wheel. When the instrument panel displays English letters, press the R button on the instrument panel. The instrument panel will display plus and minus signs. Finally, press the plus button on the right side of the steering wheel, wait for 10 seconds, then turn off the key and restart the vehicle. The tire pressure warning will disappear. 2. Specific steps for resetting the tire pressure monitoring on Great Wall Blue Label H6: First, ensure the key is turned to the 2nd gear position. Use the instrument information switch button on the left side of the steering wheel to display the mileage interface on the instrument panel. Then press the upward button on the left side of the steering wheel. The instrument panel will display "Tire Low Pressure Run-Flat Indicator Reactivated." Press the black indicator button on the instrument panel, and the panel will display plus and minus signs. Finally, press the plus button on the right side of the steering wheel, wait for 10 seconds, then turn off the key and restart the vehicle. The tire pressure warning will disappear. 3. The tire pressure for Great Wall H6 should be between 2.3 to 2.7 BAR: Within this standard range, the tire pressure is safe. However, in summer when temperatures are high, the tire pressure will actually rise above 3.0 BAR after driving, even if it was initially within the normal range. Therefore, in summer, it is advisable to maintain a lower tire pressure within the normal range, preferably between 2.3 to 2.5 BAR.

There are 5 models of the Buick Verano currently on sale. Among them, the 2022 Pro GS Windstorm Edition and Chase Edition, equipped with a 184 horsepower engine, have an NEDC fuel consumption of 5.95L per 100 kilometers. The 2022 Pro 533T Fun Edition, also equipped with a 184 horsepower engine, has an NEDC fuel consumption of 6.15L per 100 kilometers. The 2022 Pro 532T Joyride Edition and Pro 533T Joy Edition, both equipped with a 184 horsepower engine, have an NEDC fuel consumption of 6.05L per 100 kilometers. The fuel tank capacity is the same across different models of the Buick Verano. The distance each model can travel on a full tank of fuel is as follows: For models equipped with a 184 horsepower engine and an NEDC fuel consumption of 5.95L per 100 kilometers, the fuel tank capacity is 44L, allowing a distance of 44/5.95*100=739km on a full tank. For models equipped with a 184 horsepower engine and an NEDC fuel consumption of 6.15L per 100 kilometers, the fuel tank capacity is 44L, allowing a distance of 44/6.15*100=715km on a full tank. For models equipped with a 184 horsepower engine and an NEDC fuel consumption of 6.05L per 100 kilometers, the fuel tank capacity is 44L, allowing a distance of 44/6.05*100=727km on a full tank. Vehicle fuel consumption is directly influenced by five major factors: driving habits, the vehicle itself, road conditions, natural wind, and environmental temperature. Specific factors that can increase fuel consumption include: Driving habits: Aggressive driving behaviors such as rapid acceleration, frequent overtaking, and not easing off the throttle before reaching a red light can increase fuel consumption. The vehicle itself: Vehicles with larger engine displacements generally consume more fuel than those with smaller displacements, as larger displacements typically produce more power and require more gasoline for combustion. Heavier vehicles also consume more fuel due to the greater driving torque needed. Road conditions: Driving on unpaved roads, muddy roads, soft surfaces, or mountainous terrain increases resistance and fuel consumption. Natural wind: Driving against the wind or on windy days increases vehicle resistance and fuel consumption. Low environmental temperatures: When the engine block is cold, the injected gasoline does not atomize easily during cold starts, requiring more gasoline for combustion, thus increasing fuel consumption. Additionally, lower temperatures prompt the engine's computer to control higher idle speeds to warm up the engine, which also increases fuel consumption.