What Causes the Unpleasant Odor When Turning on the Car Air Conditioner?

Skoda is under SAIC. Skoda is a subsidiary brand of Volkswagen, and the transmissions and engines used in Skoda cars are products of the Volkswagen Group. All domestically produced Skodas are under SAIC. Skoda cars have decent sales and reputation in China, but their resale value is not as good as Volkswagen cars. Below are some relevant details about Skoda: 1. Skoda's models include the Octavia, Fabia, Rapid, Superb, Rapid Spaceback, Kodiaq, Karoq, Kamiq, and Kodiaq GT. 2. Skoda offers a range of SUVs and sedans. The Kodiaq is a popular SUV model among consumers, known for its attractive design. 3. The Kodiaq is equipped with two engines: a low-power version of the 2.0-liter turbocharged engine and a high-power version of the 2.0-liter turbocharged engine. 4. The low-power 2.0-liter turbocharged engine has a maximum power of 137 kW, a maximum torque of 320 Nm, a maximum power speed range of 4100 to 6000 rpm, and a maximum torque speed range of 1500 to 4000 rpm. This engine features hybrid injection technology and uses an aluminum cylinder head and cast iron cylinder block. 5. The high-power 2.0-liter turbocharged engine has a maximum power of 162 kW, a maximum torque of 350 Nm, a maximum power speed range of 4500 to 6200 rpm, and a maximum torque speed range of 1500 to 4400 rpm. This engine is equipped with direct fuel injection technology and uses an aluminum cylinder head and cast iron cylinder block.

Adding sugar to the fuel tank can scrap the engine. When sugar is put into the engine, it melts as the engine temperature rises, becoming very sticky. Since the melted sugar cannot lubricate the crankshaft, main and connecting rod bearings, or the intake and exhaust camshafts, the engine will lack proper lubrication, leading to overheating and eventual scrapping. Precautions for fuel tank usage are as follows: Do not wait for the fuel warning light to come on before refueling: Before driving, check the fuel gauge and calculate whether refueling is necessary based on the trip distance and the fuel gauge reading. It is advisable to refuel in advance rather than waiting for the fuel warning light to come on. The fuel pump is located inside the tank and operates at high temperatures when continuously working. Being submerged in fuel helps cool it effectively. When the fuel light comes on, it indicates that the fuel level is below the pump. Consistently waiting for the light to come on before refueling can shorten the fuel pump's lifespan, and having too little fuel in the tank may even cause the pump to burn out. Choose to refuel in the morning or evening: There is a trick to the timing of refueling. Generally, temperatures are lower in the early morning and evening, and since gasoline has a low vaporization point, it is best to refuel during these times. Gasoline expands with heat and contracts with cold, and it is charged by volume. At lower temperatures, gasoline has a relatively higher density, meaning the mass per unit volume increases, allowing you to get more fuel for the same volume.

Skoda Octavia models equipped with the DMB naturally aspirated engine should use 92 octane gasoline, while those with the EA211-DJS turbocharged engine should use 95 octane gasoline, as recommended in the vehicle's official user manual. In addition to checking the appropriate gasoline grade in the user manual, you can also find it on the fuel tank cap, which will be clearly marked. Generally, the gasoline grade can also be determined based on the engine's compression ratio. Vehicles with an engine compression ratio between 8.6-9.9 should use 92 octane gasoline, those between 10.0-11.5 should use 95 octane gasoline, and if the compression ratio is higher, 98 octane gasoline is recommended. However, with the application of new technologies, the compression ratio alone cannot determine the gasoline grade, as high compression ratios can also be tuned to use lower octane gasoline. This is because, besides the compression ratio, other factors such as ignition timing, turbocharging technology, and Atkinson cycle technology also play a role. Generally, the higher the gasoline octane number, the higher the octane value and the better the anti-knock performance. 92 octane gasoline contains 92% isooctane and 8% n-heptane, while 95 octane gasoline contains 95% isooctane and 5% n-heptane. If the Skoda Octavia occasionally uses the wrong gasoline grade, simply switch back to the correct grade after the current tank is used up. However, long-term use of the wrong gasoline grade can have the following effects: For vehicles recommended to use lower octane gasoline, using higher octane gasoline will not cause damage, but the increase in octane value will alter the fuel's ignition point, leading to delayed combustion in the engine. This means both the engine's power output and thermal efficiency will decrease, resulting in poorer performance. For vehicles recommended to use higher octane gasoline, using lower octane gasoline can cause engine knocking. Because the octane value is significantly lower, the gasoline's ignition point decreases, causing it to ignite prematurely during the compression stroke. If combustion occurs before the spark plug ignites, resistance will arise during the upward stroke. This resistance makes the engine run very unstably. If the knocking is imperceptible, it only increases noise without obvious damage to the engine. However, noticeable knocking indicates severe engine conditions, affecting not only driving stability but also causing abnormal wear on the pistons and cylinders, and in severe cases, cylinder scoring.

The P gear stands for Parking gear, which is used when the vehicle is parked. It is the most common gear in automatic transmission vehicles, usually located at the frontmost position of the gear shift console, ahead of the R gear. Its principle is to lock the vehicle using an internal mechanism in the transmission. When you reach your destination or need to park for an extended period, shift the gear lever into this position. Note: The vehicle must come to a complete stop before shifting into P gear. Shifting into P gear before the vehicle has fully stopped can cause mechanical damage to the automatic transmission. When P gear is engaged, the wheels are mechanically locked, preventing the vehicle from moving forward or backward. Therefore, it is essential to engage P gear when parking on an inclined road. Additionally, during short stops (e.g., at traffic lights), it is best not to shift into P gear to avoid severe damage to the entire transmission in case of a rear-end collision. Apart from this, manual transmission vehicles have numerical gears such as 1, 2, 3, 4, and 5, while automatic transmission vehicles have letter gears like P, N, D, S, M, and L. Introduction to manual transmission numerical gears: First gear is the starting gear, used when the vehicle begins moving from a standstill. Another meaning of the starting gear is that it is only used for starting; once the vehicle starts moving, it should be shifted to second gear. Second gear is the driving gear, used when the vehicle is moving at low speeds. It is not meant for high-speed driving. Third gear is the acceleration gear, where you can start using the throttle to accelerate and increase the vehicle's speed. Fourth gear is the medium-high-speed driving gear, typically used in urban roads (excluding elevated roads), with speeds generally maintained around 60-70 km/h. Fifth gear is the high-speed gear, used only on elevated roads or highways, usually at speeds of 80 km/h or above. Introduction to automatic transmission letter gears: N gear: Neutral, also called the neutral gear. At traffic lights, you can shift into this gear and press the brake pedal. If the wait is longer, it is advisable to engage the handbrake, allowing your foot to rest off the brake pedal. A common misconception is that shifting into N gear while coasting downhill or at high speeds saves fuel. This is a serious mistake—it not only does not save fuel but can also damage the transmission. D gear: Drive, meaning the forward gear. Shifting into this gear and pressing the accelerator allows the vehicle to move. In this gear, the transmission automatically shifts based on speed and throttle input. At traffic lights, you can stay in D gear while pressing the brake. For short waits, this is fine, but prolonged stops can raise transmission oil temperature and degrade the oil. S gear: Sport, meaning the sport mode. In this gear, the transmission delays shifting to provide more power, usually used when overtaking. M gear: Manual, meaning the manual mode. Similar to manual transmission vehicles, it requires manual gear shifting. L gear: Low, meaning the low-speed forward gear. In this gear, the transmission operates only in the lowest gear (equivalent to first gear in manual transmissions) and does not automatically shift based on speed. This gear is typically used when climbing or descending steep slopes. In low gear, the drive wheels deliver higher torque, ensuring sufficient power for climbing steep slopes. Prolonged braking can overheat the brake pads, reducing braking efficiency, which is dangerous on long or steep descents. Shifting into L gear uses the engine's low RPM to control the vehicle's movement, eliminating the need for constant braking.

When the ABS light is displayed on the car, it indicates a fault in the vehicle's anti-lock braking system. If the wheels lock up during emergency braking, the vehicle may skid uncontrollably, making it difficult for the driver to slow down or adjust the vehicle's trajectory, posing significant safety risks. There are various states in which the ABS light may illuminate, and the causes and solutions differ depending on the state. The details are as follows: State 1: ABS warning light stays on (most common). Cause 1: The ABS speed sensor's sensing part is covered by dirt, mud, or other contaminants, affecting the sensor's ability to detect the corresponding speed signal. This prevents the ABS computer from determining the vehicle speed or the wheel's slip rate, thus failing to issue the appropriate commands to regulate braking. Solution: Clean the dirt from the speed sensor and adjust the gap between the sensor and the signal ring to restore normal function. Cause 2: Poor signal transmission due to loose connections in the system wiring or poor contact in the ABS relay, leading to system failure. Solution: Inspect the wiring connections and reconnect any loose parts. State 2: ABS warning light intermittently illuminates but turns off during acceleration. Cause: When multiple vehicle electrical devices are in use, the battery voltage drops below 10.5V. As the engine speed increases and the voltage rises, the ABS indicator turns off. This may also be due to insufficient power supply voltage to the ABS system, such as poor terminal contact or grounding issues. Solution: Check the battery's specific gravity, inspect the charging system, and examine the power supply (e.g., voltage relay or poor power contact). State 3: ABS warning light remains on after engine startup and only turns off when the engine is turned off (IGFF). Cause: Poor grounding contact in the ABS hydraulic valve body; loose wiring connections in the ABS hydraulic valve body; ABS computer malfunction. Solution: Loosen and retighten the grounding screw of the hydraulic valve body, and clean the contact surface if necessary. Check for enlarged gaps in the connectors. Replace the ABS or ABS/ASR computer if needed. State 4: ABS warning light illuminates during high-speed driving. Cause: At high speeds, the ABS computer detects a significant discrepancy between the rear and front wheel speed signals. This may also be due to incorrect tire or wheel rim specifications. Solution: Refer to the vehicle's tire and wheel rim specifications, as indicated on the label near the fuel tank cap. State 5: ABS warning light intermittently illuminates. Cause: Improper adjustment of the brake light switch; poor internal contact in the brake light. Solution: Start the engine, press the brake pedal, and manually push the brake switch lever down to its limit. Release the brake pedal to complete the self-setting process. Replace the brake light switch if necessary.

When you want to stop on an uphill road, gently press the brake pedal all the way down and depress the clutch pedal fully. Shift into first gear (to prepare for starting) and bring the vehicle to a complete stop.