How to Adjust the Temperature of Car Air Conditioning?

In sub-zero temperatures, it is necessary to promptly replace the windshield fluid with an antifreeze type. The cleaning, antifreeze, antifog, and antistatic properties of windshield fluid are as follows: Cleaning performance: Windshield fluid is composed of various surfactants and additives. Surfactants typically have functions such as wetting, penetrating, and solubilizing, thereby achieving the effect of cleaning and removing dirt. Antifreeze performance: The presence of alcohol and ethylene glycol in windshield fluid can significantly lower the freezing point of the liquid, thus providing antifreeze effects and quickly dissolving frost. Antifog performance: Windshield fluid forms a monolayer protective layer on the glass surface. This protective film can prevent the formation of fog droplets, ensuring the windshield remains clear and transparent with a clear field of vision. Antistatic performance: After cleaning with windshield fluid, substances adsorbed on the glass surface can eliminate the charge on the glass surface, providing antistatic properties.

The main difference between annual inspections for seven-seater and five-seater vehicles lies in the inspection intervals, as detailed below: 1. Annual Inspection for Seven-Seater Vehicles: Seven-seater vehicles (non-commercial) require an inspection every two years after initial registration. Similar to previous regulations, these vehicles must undergo an on-site inspection at a qualified automotive testing station, including checks on appearance, braking system, exhaust emissions, and lighting. 2. Annual Inspection for Five-Seater Vehicles: For five-seater vehicles (non-commercial), under the new regulations, owners must submit documents such as the purchase invoice, third-party insurance policy, and tax payment certificate to the traffic police station or vehicle management office every two years after initial registration to obtain the annual inspection and environmental labels. These vehicles do not need to undergo on-site inspections at testing stations or vehicle management offices. After six years, the inspection follows the previous regulations.

It is not normal. The specific situations are as follows: 1. Winter temperature differences: Large temperature differences in winter can cause condensation inside the headlights. In the structure of the car headlights, there is a vent pipe connected to the outside. 2. Purpose: The purpose is to allow the expanded gas inside the headlight to be discharged through the vent pipe when the headlight is turned on and the temperature rises. After the headlight is turned off, the temperature drops, and the internal pressure difference increases, drawing in outside air through the vent pipe. This can draw in humid air, causing condensation and fog inside the headlight. Additional information: Fog is likely to form after heavy rain or car washing, especially if care is not taken during washing and water is sprayed directly at the engine compartment or headlights with a high-pressure hose, allowing water droplets to flow inside. When the vehicle is driven through water, the engine and exhaust system, being significant heat sources, can generate large amounts of water vapor when rain falls on them. Some of this water vapor can enter the headlights through the vent pipe.

The FJ Cruiser has 3 models. Among them, the 2013 FJ Cruiser 4.0L and 2011 FJ Cruiser 4.0L, equipped with a 272 horsepower engine, have an NEDC fuel consumption of 11.9L per 100 km. The 2010 FJ Cruiser 4.0L, equipped with a 272 horsepower engine, has an NEDC fuel consumption of 11.6L per 100 km. The fuel tank capacity of all FJ Cruiser models is 72L. The distance that can be covered with a full tank of fuel is as follows: For models equipped with a 272 horsepower engine, the distance that can be covered with a full tank of fuel is 72/11.9*100=605 km. For models equipped with a 272 horsepower engine, the distance that can be covered with a full tank of fuel is 72/11.6*100=621 km. The fuel consumption of a car is directly related to five major factors: driving habits, the car itself, road conditions, natural wind, and environmental temperature. Specific factors that can increase a car's fuel consumption are as follows: Driving habits: Aggressive driving, such as sudden acceleration, frequent overtaking, and not easing off the throttle before a red light, can increase fuel consumption. The car itself: Cars with larger engine displacements generally consume more fuel than those with smaller displacements because larger displacements usually mean higher power, requiring more gasoline to burn and perform work. Heavier cars also have higher fuel consumption because greater weight requires more driving torque. Road conditions: Driving on dirt roads, muddy roads, soft surfaces, or mountainous roads increases resistance and fuel consumption. Natural wind: Driving against the wind or on windy days increases the car's resistance and fuel consumption. Low environmental temperatures: When the engine block temperature is low, the gasoline injected during a cold start does not atomize easily, requiring more gasoline to be injected for combustion, which increases fuel consumption. Additionally, at low temperatures, the engine's computer will control the engine to run at higher RPMs to warm up, which also increases fuel consumption.

Below are the related reasons why the Avancier may not start: 1. Circuit or electronic failure: The first possible cause is a circuit or electronic failure. The occurrence of such a failure is usually very sudden and without any warning. Circuit failures include: blown fuses, open high-voltage coils, open low-voltage circuits, detached central ignition wires, leaking distributor heads, and damaged spark plugs. Electronic failures mainly refer to the central computer control board losing functionality. 2. Fuel system failure: Next is a fuel system failure. Engine stalling caused by fuel system issues often comes with symptoms such as weak engine performance and a spongy accelerator pedal. Possible fuel system failure points include: malfunctioning fuel pumps, blocked fuel lines, clogged fuel filters, failed carburetors, damaged injectors, etc. Sometimes, the fuel tank may be empty without the owner realizing it. Adding a few liters of gasoline can resolve all issues. 3. Mechanical failure: Lastly, it could also be a mechanical failure. Common mechanical failures include: broken timing belts (or chains), cylinder leaks with no pressure, etc. Another scenario is when the starter motor does not work or barely works. In such cases, the first thing to check is the battery or accumulator.

Starting in second gear can indeed damage the car. Although starting in second gear allows for a quicker take-off by reducing the process of releasing the throttle and shifting gears once, and enables deeper throttle application after starting to quickly shift to higher gears, it causes severe wear on the clutch and increases fuel consumption. Over time, insufficient power can lead to increased carbon deposits and abnormal engine operation. Severe wear on the clutch plate: Second gear does not provide the maximum torque, yet starting requires significant torque to avoid stalling. To prevent stalling, it is necessary to increase the throttle and raise the engine speed while the clutch is partially engaged. In this semi-engaged state, the clutch plate experiences the most severe wear, and with increased throttle, abnormal wear occurs, significantly reducing the lifespan of the clutch plate. Increased fuel consumption: Continuously increasing the throttle while the clutch is partially engaged results in much of the fuel simply causing the engine to idle without contributing to forward motion. While the additional fuel consumption may not be noticeable in one or two instances, prolonged starting in second gear will lead to a noticeable increase in fuel consumption per 100 kilometers. Higher risk of stalling and carbon deposits: If the throttle is not sufficiently increased during take-off, it can result in insufficient power, even causing the engine to stall. Stalling adds another ignition process, and even if the engine does not stall, struggling to start due to insufficient power can lead to incomplete combustion, resulting in carbon deposits. In severe cases, this can cause engine knocking, abnormal noises, and abnormal wear on the pistons and cylinders. Therefore, it is recommended to use first gear for normal starts, as it provides the maximum torque, making it the most suitable for smooth take-offs. This not only saves fuel but also prevents damage to the car.