Where is the transmission oil filler port on the Peugeot 308?

When reversing, turning the steering wheel to the left will make the rear of the car move to the left, and turning it to the right will make the rear move to the right. It's important to clarify the concept of steering wheel operation. Here are the relevant explanations: 1. Opposite direction: When the rear of the car drifts to one side, the steering wheel should be turned in the opposite direction (the amount of turn should match the drift). This means that when the car body drifts to the left, you need to turn the steering wheel to the right to straighten it. 2. Aligned position: Drive the car forward until it is roughly aligned with the car in front of the parking space, with a lateral distance of about one meter between the two cars. Adjust the angle of the right rearview mirror, lowering it as much as possible until you can see the right wheel. Then, turn the steering wheel fully to the right and start reversing.

Engine materials are generally divided into two types: cast iron engines and aluminum engines. Differences between cast iron engines and aluminum alloy engines: Cast iron engines: Cast iron engines exhibit minimal thermal deformation. For engines operating under prolonged high-temperature and high-pressure conditions, cast iron engines offer excellent heat resistance and are less prone to deformation. Additionally, cast iron engines are easier and cheaper to repair when worn out, and they are more convenient to manufacture compared to aluminum alloy engines. However, they are heavier and have inferior heat dissipation compared to aluminum engines. Aluminum alloy engines: Compared to cast iron engines, aluminum alloy engines are lighter and dissipate heat faster, aligning with the current focus on environmental protection and fuel efficiency. The lightweight nature of aluminum alloy engines effectively reduces the engine's own weight, contributing to relatively better fuel economy. Faster heat dissipation plays a crucial role in protecting the engine, which is why most passenger car engines now use aluminum alloy engines. However, compared to cast iron engines, aluminum engines are more prone to deformation under heat, have higher maintenance costs, and more complex repair procedures.

This is the sound made by the motor when switching between hot and cold air. Below is a relevant introduction to car air conditioning: 1. Introduction to Car Air Conditioning: Car air conditioning consists of a compressor, condenser, throttle element, evaporator, fan, and necessary control components. It is an air conditioning system designed to regulate the temperature and humidity inside the car, providing a comfortable environment for the driver. 2. Working Principle: When the compressor operates, it sucks in low-temperature and low-pressure gaseous refrigerant from the evaporator. After compression, the temperature and pressure of the refrigerant increase, and it is sent to the condenser. Inside the condenser, the high-temperature and high-pressure gaseous refrigerant transfers heat to the outside air passing through the condenser, causing it to liquefy into a liquid. When the liquid refrigerant flows through the throttle device, its temperature and pressure decrease, and it enters the evaporator. Inside the evaporator, the low-temperature and low-pressure liquid refrigerant absorbs heat from the air inside the car passing through the evaporator, causing it to evaporate into a gas. The gas is then sucked in by the compressor for the next cycle.

The IN port of the car air conditioning dryer is connected to the intake inlet. Below is relevant information about vehicle air conditioning systems: 1. Introduction to vehicle air conditioning: A vehicle air conditioning system consists of a compressor, condenser, throttle element, evaporator, fan, and necessary control components, designed to regulate interior temperature and humidity, providing a comfortable environment for drivers. 2. Working principle: When the compressor operates, it draws in low-temperature, low-pressure gaseous refrigerant from the evaporator. After compression, the refrigerant's temperature and pressure increase, and it is sent to the condenser. Inside the condenser, the high-temperature, high-pressure gaseous refrigerant transfers heat to the outside air passing through the condenser, causing it to liquefy into liquid form. When the liquid refrigerant flows through the throttle device, its temperature and pressure decrease, and it enters the evaporator. In the evaporator, the low-temperature, low-pressure liquid refrigerant absorbs heat from the interior air passing through the evaporator and evaporates into gas. This gas is then drawn back into the compressor to begin the next cycle.

Abnormal noise when braking hard to the bottom may be caused by uneven wear of the brake disc, brake pads worn to the limit, or foreign objects between the brake disc and brake pads. Uneven wear of the brake disc: Due to uneven wear thickness of the brake disc, the outer side of the brake disc may be thicker than the inner side or vice versa. When measuring, if the radial runout exceeds the standard value, it will cause abnormal noise during braking, especially when the brake is pressed to the bottom. The force applied to the brake disc and brake pads is strong enough, making the clunking noise more obvious. Brake pads worn to the limit: Generally, brake pads are equipped with wear sensors. If the pads are worn to the limit, a warning will appear on the vehicle's display, indicating that they should be replaced promptly. Continuing to drive will cause friction with the metal at the bottom of the brake pads, producing abnormal noise. In severe cases, it may lead to insufficient braking force or even brake failure.

The air conditioning belt only drives the air conditioning compressor, so if it breaks, it will not affect the normal operation of the car. Below is relevant information about the car air conditioning system: 1. Introduction to Car Air Conditioning: The car air conditioning system consists of a compressor, condenser, throttle element, evaporator, fan, and necessary control components. It is used to regulate the temperature and humidity inside the car, providing a comfortable environment for the driver. 2. Working Principle: When the compressor is running, it sucks in low-temperature and low-pressure gaseous refrigerant from the evaporator. After compression, the temperature and pressure of the refrigerant increase, and it is sent to the condenser. Inside the condenser, the high-temperature and high-pressure gaseous refrigerant transfers heat to the outside air passing through the condenser and liquefies, turning into a liquid. When the liquid refrigerant flows through the throttle device, its temperature and pressure decrease, and it enters the evaporator. Inside the evaporator, the low-temperature and low-pressure liquid refrigerant absorbs heat from the car's interior air passing through the evaporator and evaporates, turning into a gas. The gas is then sucked back into the compressor for the next cycle.