Hybrid Electric Vehicles Are the Future of the Auto Industry

With the rise in the price of gasoline, more and more people are taking interest in electric vehicles as means of transport. Another major advantage of electrically operated vehicles is that these vehicles offer pollution free means of transportation. Therefore even if 70% of people start using an electrically powered vehicle, we will be free of global warming caused by emission of gases like CO and CO2. There will be almost no instances of cancer caused by pollution.

Electric vehicles are more energy efficient than the contemporary vehicles wherein the electric vehicles operates at approximately 47 percent of effectiveness, while a contemporary vehicle operates at about 19 percent only.

But the electric car which can truly replace a traditional car is still in the conceptual stage as the electric vehicle would need continuous electric power from the batteries. The major disadvantages of present day electric cars are the time period required for recharging the batteries and their limited range

Now, it has almost been a century since the electric car has been popularly discussed, but recent developments in the hybrid electric vehicles technology and the growing concerns for the environment has revived the drive for an hybrid electric vehicles and this has become a realization today

Due to this problem of recharging batteries, a new type of design conceptualized in the minds of researchers and they came out with a solution. The researchers have put forward a new electrical vehicle fitted with on board electric power storage system and means of generating power. The generated power would be stored in the storage system and would be used to drive the vehicle. This new type of vehicle is called hybrid electric vehicle or HEV.

The present day storage system in hybrid electric vehicle comprises of stack of lead acid batteries as these can be charged in parallel with the load. The generating system consists of electric generator powered by internal combustion engine.

Researchers are optimistic about the performance of the hybrid vehicles. They are sure that the hybrid electric vehicle or HEV will be far more fuel efficient than the traditional vehicle powered by internal combustion engine.

Electric Vehicle Kits – Build Your Own Electric Car

With rising fuel costs, more and more people and are looking for alternatives. One such alternative that is gaining popularity, especially with the do-it yourself types, are the electric vehicle kits. Anyone familiar with automobiles can now use these kits to convert traditional gas powered vehicles to one powered by electric current.

However, converting a traditional Gas powered vehicle into an electric vehicle can be a very daunting task. Only those who are the very mechanically minded should try this. To convert the vehicle will require extensive modifications to nearly all-mechanical parts of the car. Everything from the engine to the radiator, heater and air-conditioning, to the gauges on the panel. On top of that, the electric cars have to be recharged on a regular basis, which means having to purchase or use the services of recharging station. Solar power could be another potential source of power for the electric vehicle.

Can any car be converted into an electric vehicle?

Unfortunately, the answer is no. Not all cars can be converted into an electric vehicle. However, and the most common electric vehicle kit seems to be the Chevy S-10 pick up kit. For examples to follow just do a search online for Chevy S-10 pickup Electric conversions.
Other cars that are good candidates for conversion are the Chevy Geo, especially from 1989 to 1999. These cars are good potential candidates for an electric vehicle kit conversion. Cars similar to the Chevy Geo Metro, such as the Chevy Sprint, Pontiac Firefly and the Suzuki Swift are also ideal for conversions too.

Are there downsides to using an electric vehicle kit?

Going back a few years, many people associated electric powered vehicles with slowness and a lack of power. But as usual, thanks to technology, significant advances in the electric vehicle have changed all that. With these electric vehicle kits some cars can reach top speeds of between 70 and 75 mph. nonetheless, converting to electric power still has its drawbacks.

The biggest drawback it is of course the need for recharging the batteries. As an example, the Chevy Geo Metro kit must be recharged every 20 to 40 miles, depending on driving habits and battery quality. For city driving, this would be ideal. However, for lengthy commutes on the highway, this would not be ideal.

The Chevy S-10 with an electric vehicle kit installed will run a little longer on a single charge. On a single charge, the S-10 should last between 40 and 60 miles. Again this depends upon the driving habits as well as the size and quality of batteries. Some S-10 models can be equipped with solar powered panels which would in reduced in the need for charging, at least when driving during daylight hours.

Converting vehicles with electric vehicle kits is not a cheap affair. Most conversion kits seem to cost between $8000 to $10,000. And this does not even include professional installation as well as the cost of the batteries, not to mention access to or the purchase of a charging station.

Quite frankly, with the cost involved of using an electric vehicle kit, it probably wouldn’t be very practical for the average consumer, especially if they do a lot of highway driving. However, that being said, it probably would be ideal for a back yard mechanic who loves to tinker with cars and has a few bucks to throw around and wants to impress his beer-drinking buddies.

Hybrid Electric Vehicle – Down to the Parts

With all the great news from the auto industry introducing another hybrid vehicle or another electric vehicle, this article explores a bit what such vehicles are made of. What are the differences with the conventional petrol car and what might the future hold for them?

The first difference you see these days is that both the electric vehicle and the hybrid vehicle come with a plug to charge it at home; the conventional vehicle has not. The conventional vehicle also has no electric engine to power the wheels or a large battery to power this engine. The conventional car of course does have a battery, but that is just used for starting the internal combustion engine and it acts as a buffer for the electrical systems used. Power in the conventional vehicle is generated by the combustion engine.

For an electric vehicle, there are two main components: the electric motor and the battery. The electric motor is the one to power the wheels of the vehicle and the battery is used to bring along energy for the trip. They almost all have the option of regenerative braking, which allows one to recover energy when slowing down and charging the battery a little while doing so. This is a great method to increase the overall efficiency for a vehicle! Further more there is often a special battery management system (BMS) which ensures the battery is kept at the right temperature and is not charged or discharged in a way that can damage the battery.

For a hybrid vehicle there are a few more main components: besides the electric motor and the battery, there is also an onboard power source like the conventional combustion engine (but also a fuel cell is used for example). Additionally, there is a system that somehow connects the power from the battery and the for example combustion engine and gets it to the wheels. There are many ways to do this last step, the simplest being that the combustion engine would be used as a generator to power the electric motor with electricity. Excess electricity is stored in the battery for future use. Another method is to have a special gear set combine the mechanical power from the combustion engine and the electric engine and get them to the wheels. There are also manufacturers who power one set of wheels with the combustion engine and the other set of wheels with the electric engine. A big advantage of the hybrid vehicle is that it can use the very efficient electric engine at lower speeds (for example urban areas) and the combustion engine for extra power on the highways or for extra range.

To sum it up, an electric vehicle consists of:

– Electric Engine
– Battery

A hybrid vehicle consists of:

– Electric Engine
– Battery
– Energy source (internal combustion engine, fuel cell, etc)

The disadvantages of the electric vehicle and the hybrid are mostly the cost. Compared to the conventional car they can cost more to purchase. This has two main reasons; the first being that the conventional car is mass-manufactured which makes it cheaper (compare one million units produces versus one thousand units produced) and the second is the current price of batteries. Batteries at the moment are the biggest cost within the vehicle, the larger your battery is, the larger the cost is in the total price of the vehicle.

Another disadvantage which currently mostly applies to the electric vehicle, is the range it can cover. Current vehicles are of such a weight and their batteries can only hold a certain amount of power. Comparing the electric vehicle to a conventional petrol car they can cover a lot less ground on a full charge or tank. The first argument to counter this disadvantage is that most people do not drive distances that can not be covered by an electric vehicle. Current electric vehicles can cover about double or four times the daily distance required by many people! However, there are three movements currently helping to overcome the range anxiety problem. The first is the battery manufacturer, which improves the technology so that the battery will weigh less and can contain more power. The second is the charging industry, where solutions are found in fast charging. Conventional charging can take up to eight hours to charge your vehicle. The goal is to reduce this to an acceptable amount of mere minutes. The third force is heading for battery swapping; much like a petrol station, an electric vehicle can swap the empty battery for a fully charged one.

For the future of the electric vehicle and the hybrid there are many options, the most popular ones are:

– Fuel Cells
– Fast Charging of batteries
– Better batteries that weigh less and hold more power
– Battery swapping stations
– New car design options

Lots to expect from the electric vehicle and the hybrid vehicle!