Improve Gas Mileage With These Relatively Inexpensive Car Parts

Your vehicle’s efficiency can have a significant effect on your monthly budget. There are many ways to improve overall usage. Owners with do-it-yourself knowledge can replace specific car parts to increase mileage. Even if you don’t know how to replace car parts yourself, you can have a mechanic perform this work for you.

Mass Airflow Sensor

The mass airflow sensor calculates the airflow as it enters the engine. From this point, the sensor passes this information on to the engine’s computer. The engine’s computer is in charge of regulating fuel injection, transmission shifting, and the functions of the ignition system. A clogged mass airflow sensor will result in the engine’s computer receiving inaccurate information, which could negatively impact fuel economy.

Spark Plugs

Spark plugs have the task of igniting a mixture of air and fuel in the engine combustion chamber. Worn spark plugs will not produce an effective ignition. Replacing spark plugs and keeping them clean will provide cleaner and more efficient running of the engine.

Air Filter

Replacing this filter may be one of the most simple, yet effective, ways to improve gas mileage. A soiled and clogged filter will not move air through effectively. The restricted flow to the engine will impact efficiency because the more clean air the engine receives, the better it operates. As you explore these car parts, choose a filter made from fabric instead of paper. You can clean filters made from fabric, so they are reusable. In fact, some of them will even last as long as your car lasts.

Fuel Filter

The fuel filter has the task of moving gas to fuel injectors. A clogged fuel filter will begin moving gas less efficiently, which could lead to increased gas consumption to produce the needed power. Auto manufacturers recommend a specific schedule for replacing this filter. Follow this recommendation to ensure that you maintain the best efficiency of your car.

Tires

Tires are an integral component of handling and traction. If you allow tires to wear, become underinflated, or misaligned, you may notice decreased economy. Tires naturally become deflated as you drive your car, so check them once each month to maintain the correct pressure. When you check the tires, look for signs of wear. When replacing tires, choose the narrowest tires possible to cut down on aerodynamic drag. Installing low-rolling-resistance tires may also improve economy slightly.

Fuel Injection Components

Automobiles with fuel injection have sensors and systems that must remain in good condition to ensure the best gas mileage. Have a mechanic check oxygen sensors, evaporative emissions control systems, and the engine emissions system. Faulty sensors and components could result in decreased gas mileage of 20 percent or more.

Many car parts are not expensive, yet they can produce significant improvements in gas mileage when you replace them. Scheduling regular vehicle tune-ups can help to ensure that all auto components function correctly for the best efficiency.

Some Tips Related To The Car Conversions For Novice Drivers

The regular hike in fuel prices across the world has become at the matter of concern for motorists across the world and therefore they are searching for different fuel options which could facilitate them to economically drive their vehicle. Going through this issue huge discussions and debates are going in the cyber world to find the best solution to the problem. Interestingly converting the engine configuration of existing car has emerged as the reliable way to combat the problem and therefore lots of motorists are converting their existing gasoline car into electric car.

Well, this might surprise you but in recent years electric car conversion has originated as the highly preferred ways for minimizing the cost of driving a personal car to huge extent. An interesting benefits enjoyed by the converting the gasoline into an electric car is decline in the expenses on fuel followed by pollution free environment. Apart from this another worth mentioning benefit of an electric car is that there are lots of countries throughout the world which offer huge discount on different types of taxes levied on car owners, along with this the owners of electric cars are free to enter any country without any restrictions.

But, the problem from which almost every car owner struggles is absence of knowledge about the whole conversion project. There are lots of people who believe that converting their existing car into an electric car is the best option to enjoy its maximum benefit. Anyway this might be their personal opinion because on the basis of my knowledge gained from various authentic sources, to convert a car into an electric car the best way is to hire a donor car. Because hiring a donor car for conversion will offer you maximum benefits that you expect from your vehicle. There is plethora of expert technicians across the world that offer the facility of car conversion to the owners willing to minimize the expense on fuel consumption.

If you are also speculating to convert your existing car into an electric car then there certain factors which you should consider, before you visit to any of technicians.

1. Which donor car is best for you: Although electric cars offer maximum benefits to their owners in terms of fuel efficiency and emission norms, but still depending upon their make the owners have to invest substantial amount on its maintenance and conversion. Before generally the conversion process involves the replacement of existing engine with powerful motor and additional equipments. If you have a hatchback then it will remain a small engine and same for a sedan. Along with this you should also make sure that converting kit is available in the market for specified car.

2. AC system or DC system: As a general practice the car conversion companies suggest for DC engine system due to its affordability, but the system requires use of various batteries for covering the long distance. On the other side AC engine system is capable for covering long distance smoothly but due to its sophisticated nature it is quite expensive than compared to DC system.

3. Running distance: An electric car could be driven at the top speed of 70 miles per hour up-to 50 miles, after which it requires charging. To avoid any problem of battery drainage while driving it would be better to assess your driving kilometers before starting the journey.

4. Weight of battery: This might surprise you but weight of the battery also affects the performance of an electric car to huge extent. Because if a heavy battery is installed in your car it will require more power to run it, which means quick drainage and need of charging quickly. Therefore enjoy smooth durability it is imperative to install compatible battery in your converted car to enjoy its hassle free drive.

Recycling Electric Car Batteries

As car manufacturers continue to battle in the electric car race, a few have started wondering, where will the batteries go once they have reached the end of their automotive useful life? Simply disposing of the batteries in some type of landfill will not help the environment and will most certainly not appeal to either car manufacturers or customers. To address this concern, several big car manufacturers in the electric car race have teamed up with companies knowledgeable about electricity and energy to plan ways to recycle and reuse outdated electric car batteries and their energy.

General Motors has announced it will collaborate with the Swiss company ABB, a leader in power and automation technologies and the world’s largest supplier of power grid systems, to devise a plan for re-using batteries from the Chevrolet Volt. The companies will develop several pilot projects and examine the Volt’s 16-kWh lithium-ion batteries to see how the second-life car batteries can be used to provide electric grid storage systems. During the pilot projects the companies will study renewable energy storage, grid load management, back-up power supplies for communities, and time of use management.

According to GM Executive Director of Electrical Systems, Micky Bly, ‘Volt’s battery will have significant capacity to store electrical energy, even after its automotive life.’ This means that after the eight year or 100,000 mile warranty offered on the Volt, the battery will still have energy that can be used for other purposes if the car battery is recycled. Thus, GM’s ultimate goal through its ABB partnership is to find a cost-effective solution that will optimize the full lifecycle of the battery and will improve the efficiency of the country’s electrical grid.

Another car manufacturer that has begun studying electric battery recycling possibilities is Nissan. Nissan has entered into a joint venture with Sumitomo Corporation to conduct research on used lithium-ion batteries. The joint venture, called 4R Energy, has a purpose to ‘Reuse, Resell, Refabricate, and Recycle’ the electric batteries that power the Nissan Leaf.

The company is expected to conduct demonstration tests and undertake a commercialization study as it works towards developing a business for second-life use of lithium-ion batteries.

Lastly, the California electric car maker Tesla Motors, has entered into a research project with SolarCity, a national leader in solar design and installation, and the University of California, Berkley to investigate outdated electric car battery possibilities. The trio is developing a system that will combine Tesla’s electric car battery system with SolarCity’s monitoring platform to produce an advanced grid-interactive photovoltaic (PV) and stationary storage product which will be able to be installed in buildings. The idea is the battery storage created will collect excess PV power that the utility can use rather than using power plants with larger emissions.

So, as the electric car race rages on, it looks as if General Motors, Nissan, and Tesla Motors will all be competing in the electric car battery race as well. With such big ideas as storage for renewable energy, smart grids, and providing back-up power for buildings, who knows where the second-lives of electric car batteries will end up.