Where is the engine serial number located on the FAW J6?

The steps to remove and install the air filter for Range Rover are: 1. There is a black plastic panel above the passenger footwell with two retractable clips; remove the panel by pulling these clips. 2. Disconnect the negative terminal of the battery and remove the body computer bracket. 3. Remove the panel on the left side of the passenger footwell by unscrewing four screws. 4. Proceed with installation to complete the process. The Range Rover is an SUV with body dimensions of 4999mm in length, 2073mm in width, and 1835mm in height. In terms of power, the Range Rover is equipped with a 3.0-liter 6-cylinder supercharged engine and a 5.0-liter 8-cylinder supercharged engine.

Trumpchi GS4 uses Michelin PRImACY3ST tires with the specification of 215/55R18. The Michelin PRImACY3ST tire features four longitudinal grooves dividing the tread pattern into five blocks, with the middle three blocks sharing the same pattern. All tread blocks adopt a variable pitch design, which helps to disrupt noise during tire operation, effectively reducing and preventing noise. The Trumpchi GS4 is an SUV with body dimensions of 4545mm in length, 1856mm in width, and 1668mm in height, and a wheelbase of 2680mm. In terms of power, the Trumpchi GS4 is equipped with a 1.5T engine, paired with either a 6MT or 6AT transmission, delivering a maximum power of 124kw and a maximum torque of 265nm.

Geely Boyue 1.8T boasts powerful performance. Below is a detailed introduction to the power of Geely Boyue 1.8T: 1. The Geely Boyue is equipped with a 1.8TD engine that has undergone redevelopment of the combustion system and upgrades in direct injection technology. It incorporates core technologies such as low-friction pistons, a new-generation silent chain, an integrated exhaust manifold turbocharger, and a dual-mass flywheel, achieving a 14% increase in torque, a 3.7% reduction in fuel consumption, and a 5% improvement in NVH performance. This engine is the result of Geely's independent research and development, fully leveraging resources from Volvo experts, with 50% of the suppliers shared with Volvo. In terms of core technology, the 1.8TD engine in the Geely Boyue adopts nine internationally advanced key technologies, placing it at a first-class level domestically. Core data shows that this engine outperforms the EA888 second-generation engine in the Volkswagen Tiguan in key indicators such as 0-100 km/h acceleration and fuel consumption per 100 km. 2. This 1.8TD engine delivers a maximum power of 135 kW at 5500 rpm and a maximum torque of 285 Nm between 1500-4000 rpm. It is the second-generation product of the 18TD series. The first-generation 18TD engine, known for its strong power, advanced technology, and outstanding market performance, stood out among numerous joint-venture brands and won the 2015 'China Heart' Top Ten Engines award, being mass-produced in the Geely Borui. Building on the first-generation engine, the second-generation 18TD engine has seen further improvements in fuel economy, power, and NVH performance through redevelopment and upgrades of key technologies, reaching internationally leading standards.

Working principle of the evaporator: By means of evaporation, the solution is heated, causing part of the solvent to vaporize and be removed, thereby increasing the concentration of the solution. Function of the evaporator: The evaporator is the cooling output device in a refrigeration system. The refrigerant evaporates in the evaporator, absorbing heat from the low-temperature heat source medium to achieve the purpose of refrigeration. Types of evaporators: flooded evaporators, dry evaporators, circulating evaporators, and spray evaporators. Composition of the evaporator: The evaporator mainly consists of two parts: the heating chamber and the evaporation chamber. The heating chamber provides the heat required for evaporation to the liquid, promoting boiling and vaporization. After vaporization, the liquid reaches the larger space of the evaporation chamber, where the liquid is separated from the vapor by means of its own condensation or a demister.

Is a Car with a Replaced Rear Bumper Beam Still Worth Buying? A car with a replaced rear bumper beam is still worth buying. Replacing the rear bumper beam does not affect the car, and a vehicle with a repaired or replaced bumper beam is not necessarily classified as a salvage vehicle. Only if the damage to these parts causes severe impairment to the car's performance can it be considered a salvage vehicle. The safety of the entire vehicle will be significantly compromised if the car's bumper beam is bent, which is determined by the structure and function of the bumper beam. Functions of the car bumper beam: 1. When a collision occurs, the front bumper beam can distribute the energy from any form of offset or frontal collision as evenly as possible between the two energy-absorbing brackets; 2. During low-speed rear-end collisions in urban areas, the front bumper beam plays a role in protecting components such as the fender, radiator, hood, and lights; 3. The rear bumper beam can reduce damage to areas such as the luggage compartment, tailgate, and rear light assembly.

A car designed for 95 octane cannot use 98 octane. Occasionally using the wrong gasoline grade only requires switching back to the correct grade after use. However, prolonged use of the wrong gasoline grade can have the following effects: For vehicles recommended for lower octane, accidentally using higher octane gasoline will not cause damage, but the increase in octane rating changes the fuel's ignition point, leading to delayed combustion in the engine. This reduces the engine's power output and thermal efficiency, resulting in poorer performance. For vehicles recommended for higher octane, using lower octane gasoline can cause engine knocking. Because the octane rating is too low, the gasoline's ignition point decreases, causing premature ignition during the compression stroke. If combustion occurs before the spark plug fires, resistance is created during the upward stroke. This resistance makes the engine run very unstably. If the knocking is mild, it only increases noise without significant engine damage. However, severe knocking indicates serious engine conditions, affecting not only driving stability but also causing abnormal wear on pistons and cylinders, and in extreme cases, cylinder scoring. In addition to checking the appropriate gasoline grade in the car's manual, you can also find it on the fuel tank cap. Usually, the gasoline grade can also be determined by the engine's compression ratio. Cars with a compression ratio between 8.6-9.9 should use 92 octane, those between 10.0-11.5 should use 95 octane, and those with higher compression ratios should use 98 octane. However, with modern technologies, the compression ratio alone cannot determine the gasoline grade, as high compression ratios can be tuned to use lower octane gasoline. Other factors, such as ignition timing, turbocharging technology, and Atkinson cycle technology, also play a role. Generally, the higher the gasoline grade, the higher the octane rating 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.