Where is the water tank located on the Baojun 730?

Baojun 530's first maintenance is at 50,000 kilometers. The first maintenance items include: 1. Replace engine oil, oil filter, clean air filter, check whether the generator belt and wiper blades are damaged, check whether the levels of various fluids are normal, and check whether the tire pressure is normal; 2. Check the car chassis: including whether the brake pads, brake discs, connecting rods, ball joints, and ball cages are scratched; 3. Check whether all switches and lights in the car are working properly. Below is information about the first maintenance of a new car: 1. Check the tire wear condition and whether pressure adjustment is necessary. 2. Check the entire lighting system: headlights, indicator lights, emergency signal lights, trunk light, passenger compartment light, glove box light, dashboard warning lights, etc. 3. Check the operation of the windshield wiper, the position of the wiper blade, and its wear condition. 4. Check the condition of the exterior of the car body, the protective parts and pipes under the car body (exhaust-fuel lines-brake lines), and rubber parts (dust covers, bushings, spacers). 5. Check the condition of various control belts. 6. Check and adjust the height and travel of the clutch pedal. The clutch is a component we use frequently, so its inspection is very necessary. 7. Check and adjust the handbrake travel. 8. Check and tighten the chassis screws, as the chassis is inevitably impacted during driving, which may loosen the screws. 9. Clean the air filter element. The air filter plays a protective role for the air. 10. Refill various fluids (engine coolant, brake fluid, windshield washer fluid, etc.). 11. Replace the engine oil. 12. Replace the engine oil filter.

Gasoline does evaporate in the fuel tank. Since the fuel tank is not a completely sealed device, a ventilation pipe is connected to the charcoal canister to prevent fuel splashing during refueling. The charcoal canister also has a pipe leading directly to the atmosphere. When the fuel tank is well-sealed, there will be minimal gasoline evaporation loss, primarily through the charcoal canister. Below are the relevant details: 1. Between the engine's intake manifold and the fuel tank, in addition to the main fuel supply line, there is a branch line equipped with a charcoal canister. When the engine is not running, the gasoline's evaporation characteristics create high pressure inside the fuel tank. Without the charcoal canister, these evaporated gasoline vapors would be released into the atmosphere through the tank's vent. With the charcoal canister installed, the activated charcoal inside promptly adsorbs these gasoline vapors, maintaining a balance between internal pressure and atmospheric pressure, preventing most vapors from remaining in the system. When the engine is running, these adsorbed fuel vapors are sent back into the engine for combustion via the solenoid valve at the charcoal canister's outlet, making full use of these vapors and improving fuel efficiency. 2. Due to gasoline's volatile nature, a significant amount of gasoline vapor is generated inside the fuel tank. To prevent resource waste and reduce atmospheric pollution, vehicles are equipped with a charcoal canister. Through connected piping, the gasoline vapors in the fuel tank enter the charcoal canister and are stored there. When the engine is running, the stored gasoline in the charcoal canister enters the engine for combustion. In other words, when the fuel tank is well-sealed, the loss of gasoline through evaporation is minimal and is reused.

Here is an introduction to the four major satellite navigation systems: 1. United States: GPS System: The GPS system was developed by the U.S. government in the 1970s and was fully completed in 1994. Currently, the U.S. GPS satellite positioning system is fully operational, with a total of 31 satellites in orbit, covering 98% of the Earth's surface. The GPS system provides navigation and time calibration services to 95% of users worldwide. 2. India: IRNSS System: The Indian Regional Navigation Satellite System (IRNSS) consists of 7 satellites and is expected to be operational by 2014. Currently, the IRNSS is in the debugging phase. 3. European Union: Galileo System: The Galileo system will officially become operational in 2014. Once in service, it will provide highly accurate positioning and navigation services with a precision of 1 meter for road, rail, air, and maritime transport within EU member states, as well as for hikers. Currently, only one of the two test satellites in the Galileo system is operational. 4. China: BeiDou System In December 2011, China launched the BeiDou/Compass system as a pilot project. According to Ran Chengqi, Director of the China Satellite Navigation System Office, BeiDou can currently provide navigation and positioning services for China and its neighboring countries. Ran Chengqi stated: "China's system can not only display the accurate location of users but also determine the time, and users can send text messages." Currently, the 10 satellites of the BeiDou navigation system cover an area from Australia in the south to Russia in the north, and from China's Xinjiang Uygur Autonomous Region in the west to the Pacific region in the east. In 2013, China plans to launch 6 more satellites to expand coverage, and by 2020, the system will have a total of 35 satellites. Currently, the BeiDou navigation system has an accuracy within 25 meters, which will improve to 10 meters next year. The BeiDou system will contribute to the development of China's navigation industry.

According to the "Regulations on the Application and Use of Motor Vehicle Driving Licenses," the waiting period varies depending on the type of license. Taking the C license as an example: After passing the Subject Three test, you can take Subject Four on the same afternoon, within 9 days without an appointment, or schedule it after 10 days. Same Afternoon Direct Exam: Since Subject Four is the theoretical part of Subject Three, most cities schedule both Subject Three and Subject Four together when making an appointment. Therefore, on the same afternoon after passing Subject Three, you can directly go to the Subject Four exam center to take the test. 9-Day No-Appointment Exam: With the upgrade of driving test services, some cities have introduced a new model allowing no-appointment exams within 9 days. Candidates who pass Subject Three can take Subject Four within 9 days by presenting their ID at the exam center. Exam staff will group candidates into no-appointment and scheduled groups for easier management. Post-10-Day Appointment: The success of scheduling Subject Four depends on factors such as the current number of examinees, candidate priority, and temporary arrangements at the exam center. Candidates closer to their 3-year validity period have higher priority and are more likely to secure an appointment. Unexpected events (e.g., pandemics) may also affect scheduling success. Subject Four, also known as the theoretical driving test, is part of the motor vehicle driving license assessment. It covers safe and civilized driving requirements, knowledge of driving under adverse weather and complex road conditions, emergency handling (e.g., tire blowouts), and post-accident procedures. Subject Four Exam Notes: Exam Duration: 45 minutes. Number of Questions: 50 questions, each worth 2 points, proportionally selected from the Subject Four question bank based on the license type. Question Types: Single-choice (including true/false), multiple-choice, animation-based, image-based, scenario recognition, and text-based questions. Retake Notes: Failing Subject Four only requires retaking Subject Four, with unlimited retakes arranged by the driving school at no additional cost. Subject Four Exam Tips: Focus on Weak Areas: Identify and understand the reasons for mistakes. Avoid memorizing correct answers; instead, refer to regulations or textbooks to grasp the underlying concepts. Categorize Questions: Group similar questions (e.g., traffic signs like pedestrian crossings and pedestrian warnings) to avoid confusion. Memory Techniques: Organize numerical data in the question bank for easier recall. The driving test consists of three subjects: Subject One (traffic laws and regulations), Subject Two (field driving skills), and Subject Three (road driving skills and safety knowledge). Subject Four is the colloquial term for the safety and civilized driving theory test, conducted after Subject Three.

Turbocharging intervention is specifically related to engine displacement, with larger displacements resulting in lower intervention RPMs. The turbocharger in an engine engages at a certain RPM threshold, typically around 1000 or 1500 RPM for most vehicles. When the RPM drops below this threshold, the turbocharger disengages. This is why turbocharged engines often experience a slight lag of a few tenths of a second during acceleration, which is the time it takes for the turbo to engage. Below is relevant information about turbocharging: 1. A turbocharger can be viewed as a blower connected in series to the intake manifold. As long as the engine is running, exhaust gases drive the turbine, which in turn rotates the compressor impeller on the same shaft. At low RPMs, the turbine spins slowly, resulting in poor air compression. During this time, the intake manifold is in a state of negative pressure, and the turbine blades offer resistance to airflow rather than pressure. 2. When engine RPM increases, the turbine wheel spins faster due to exhaust gas flow, gradually increasing the thrust generated by the turbine blades. For example, after reaching 1200 RPM, this pressure exceeds the suction created by the engine pistons, causing the intake manifold to experience positive pressure as the blower continuously forces air into it. This 1200 RPM is what's known as the "intervention RPM" – essentially the positive pressure threshold of the turbocharger. Once the turbo reaches this RPM, the pressure it generates surpasses the suction created by piston intake and exhaust. This RPM is commonly referred to as the "intervention RPM." 3. The so-called intervention RPM of a turbocharger is determined based on factors such as the engine's base displacement, power requirements, and maximum cylinder pressure, achieved through the turbo's size (inertia). Smaller turbo inertia means the turbine spins up quickly with minimal exhaust gas flow, while larger turbo inertia makes it relatively more difficult for exhaust gases to increase turbine RPM.

The normal tire pressure range for the Nissan Teana is 2.4-2.5 bar. Due to seasonal factors, the tire pressure can be appropriately increased by 0.2 bar in winter and decreased by 0.1 bar in summer. This data is based on the international GBT2978-2008 standard. If you want to check the current tire pressure of your Teana during daily driving, you can activate the tire pressure monitoring system, which will display the tire pressure values on the central LCD screen of the instrument panel. The specific method is to press the square button on the left side of the steering wheel to bring up the tire pressure monitoring and display the specific tire pressure values. Generally speaking, a tire pressure exceeding 2.8 bar is considered too high, while a tire pressure below 2.0 bar is considered too low. Hazards of over-inflated tires: Reduced friction and adhesion of the tires, affecting braking performance; causes steering wheel vibration and misalignment, reducing driving comfort; accelerates localized wear of the tread pattern in the center of the tire, shortening tire lifespan; increases body vibration, indirectly affecting the lifespan of other components; causes excessive stretching deformation of the tire cords, reducing tire elasticity and increasing the load on the car during driving. Hazards of under-inflated tires: Increased friction coefficient with the road surface, leading to higher fuel consumption; causes heavy steering and misalignment, posing risks to driving safety; increases movement of various parts of the tire, causing abnormal heat due to excessive rolling; reduces the functionality of the cords and rubber, leading to delamination or cord breakage and excessive friction with the rim, causing damage to the bead area and abnormal wear; multiplies friction between the tire and the ground, rapidly increasing tire temperature, softening the tire, and drastically reducing its strength. High-speed driving may result in a tire blowout. If the tire pressure monitoring indicator light comes on (a yellow symbol with an irregular circle, no stamp on top, four small spikes below, and an exclamation mark inside), there are generally three possible reasons: Abnormal tire pressure: Typically, the system will alert if the pressure is below 1.8 bar or above 3.0 bar. In this case, tire inspection and pressure adjustment are required. Tire pressure monitoring not reset: After inflating the tires, if the tire pressure is not reset in time, the system will still record the previous data, causing the tire pressure monitoring light to stay on. Simply perform a tire pressure reset to resolve this. Damaged tire pressure sensor: The tire pressure sensor, installed inside the tire and connected to the tire inflation valve, monitors tire pressure. If the sensor is damaged due to impact while driving, the tire pressure warning light will also come on. For sensor damage issues, the only solution is to replace it with a new one.