Electric Car Kit Z

Converting a Car to Run on Water – What’s the Truth?

With oil prices rising everyday, and no limit seen in sight, it seems high time that people as a whole began serious discussion of alternative fuels and more efficient use of the fuel that we do have. The problem is that for a number of reasons, valid information has been blocked and kept out of the public eye for too long. Converting a car to run on water is just a small example. Now, before you throw the laws of thermodynamics around and tell me it is an impossibility, I want to assure you that the vehicle will not run on water, rather water will be utilized to make the engine more efficient. Considering the average gasoline engine only achieves approximately 20% efficiency, there is plenty of room for improvement, and any improvement translates directly to money saved at the pump.

So, you are probably wondering if converting a car to run on water is an actual possibility. In order to understand how it could work, you first have to understand how an internal combustion engine works. An internal combustion engine relies on compression of atmospheric air to burn gasoline in the combustion chamber. The pressure wave caused by the expansion of the combustion by-products are what drive the piston up. The movement of the piston is what turns a crank shaft which is translated into circular motion of the axles. During this series of events, a lot of energy is lost in the form of heat and sound, and even more energy is lost in the form of incompletely burnt gasoline. This is where the catalytic converter comes in. The catalytic converter actually burns the unburnt fuel that escapes along with the exhaust. If you were following along closely, you would realize that the average gas engine actually expends more energy burning the unburnt fuel that was meant to drive the car. Not efficient at all! It is no wonder the average fuel efficiency of an internal combustion engine is only 20%.

The important question now is, how can we as the consumers who are getting the short end of the stick modify these inefficient engines to gain more out of the precious gasoline we pay top dollar for everyday. We could invest in expensive hybrid vehicles, and yes, we would save some money. The problem is that the hybrids are rather expensive and would take years for us to get the return on investment. The other option is modifying the engines we already have in our inefficient vehicles to get higher fuel efficiency. Converting a car to run on water is exactly what this is about.

Through an electrolytic process, we sap some of the engines power in the form of electrical energy to break water down into hydrogen and oxygen. We then feed these two gases into the air intake. The result is a better oxygen fuel ratio and a more complete burn. The increased efficiency and savings are a by-product of a more efficient burn, not from the power derived from the hydrogen and oxygen itself.

Now that you know what converting a car to run on water is all about, it is time you did your own research. Become well informed, and reap the rewards in fuel savings!

CONVERT YOUR CAR TO RUN ON ELECTRICTY FOR LESS THAN THAN $300! – CLICK HERE

Take a Ride to the Future In A Hybrid Car

Utilizing the latest in advanced technology, hybrid cars might just provide a glimpse into the future of automobiles. Hybrid cars sport sleek and futuristic looks, but these cars aren’t just for show. These scientific marvels make use of both electric and gas power to make for a cleaner, more cost efficient, and environmentally friendlier car.

As the world’s supply of oil inevitably runs out and the prices of gasoline continue to skyrocket to staggering new heights, more and more people have begun to look for an alternative way to power their cars, as well as to save some money. Thankfully, the rise of hybrid cars are providing a much needed solution to these problems and more. The popularity of hybrid cars continue to grow as more people begin to realize the many advantages that hybrid cars hold over conventional ones.

So, what is a hybrid car and how does it work?

As the name suggests, hybrid cars utilizes a combination of different technologies. Hybrid cars use an electric propulsion system together with of a gas propulsion system to great effect.

Hybrids cars consist mostly of the same basic parts as normal gas cars. They contain a gasoline engine, a fuel tank, batteries, and a transmission. The difference is that hybrid cars also contain an electric motor and in some cases a generator, that work in conjunction with the gasoline engine to run the transmission.

A hybrid car can work in different ways.

In a parallel hybrid system, both the gasoline engine and the electric motor are connected to the transmission. The car alternates between the two and sometime uses them together. It typically works by using the electric motor to power the car at lower speeds and once the car reaches a certain speed, the car will automatically switch to the gasoline engine to give it extra power.

Other cars use what is called a series hybrid system. In this method, the gasoline engine is used to power a generator. The generator is responsible for charging the batteries that power the electric motor, which in turn, turns the transmission causing the car to move. The gasoline engine in a series hybrid never actually runs the car directly.

Some of the later hybrid models have a feature that stores up the kinetic energy that is built up when braking and uses it to further charge the car’s batteries.

The biggest advantage of a hybrid is that it uses a lot less fuel than normal cars. Hybrid owners will be very happy with the mileage that these cars are capable of.

It also helps that hybrid cars tend to be built with lighter materials like aluminum and plastic. The engine is also typically smaller and specially designed to consume less fuel.

Environmentalist will also be very pleased with hybrids seeing as how they emit far less air pollution. Using a hybrid car helps makes our world a cleaner and more beautiful place to live in.

The government is also very fond of hybrid cars. So much so that they’re offering buyers tax incentives and other benefits. In some states, hybrid car owners can drive their hybrids in the high occupancy lane, even if they’re all alone in their cars.

The earlier hybrid car models tended to have unique and special designs, but as more and more manufacturers are catching on to the hybrid craze, they have begun to create hybrid versions of their normal cars. The Honda Civic Hybrid for example, looks more or less exactly like a regular Civic.

Buying a hybrid car will inevitably cost more than a regular one. However, the money that is saved from the lower fuel consumption, along with the tax deductions will eventually make up for the extra cost of a hybrid. Those who drive frequently will be the ones that benefit most from this.

With all the of the benefits that hybrid cars give, it’s no wonder that they’re so quickly gaining in popularity. Hybrid owners figure that it’s an excellent way to save money on gas and it gives them a good feeling, knowing that they’re making a difference in the environment.

So those who are in interested should go seriously consider owning one and join the ever growing number of people who are stepping into the future with hybrid cars.

CONVERT YOUR CAR TO RUN ON ELECTRICTY FOR LESS THAN THAN $300! – CLICK HERE

Aarkstore Enterprise -Hybrid And Pure Electric Cars 2010-2020- Market Research Aggregator

Hybrid And Pure Electric Cars 2010-2020

Electric vehicles just became exciting. For 111 years, electric cars that rely only on a battery – “pure EVs” – have had a range of only 30-50 miles and the humble golf car has been the only type selling in hundreds of thousands every year. However, huge changes have been announced in 2009. Electric vehicles will penetrate the market rapidly to constitute 35% of the cars made in 2025 – 25% hybrids, 10% pure EV. Any motor manufacturer without a compelling line up of electric vehicles is signing its death warrant.

 These changes include:

Launch of cars that have a range of 250 miles or more in pure electric mode, including a pure EV family car made in China and plug in hybrid gasoline-electric cars.

Launch of the Toyota Prius plug in hybrid that will be very attractive to over one million purchasers of the existing Prius mild hybrid and millions of others. 95% of Prius owners would buy another.

First full production of the beautiful Tesla pure EV luxury sports car which silently outperforms conventional equivalents. Large initial orders show that this can be a multibillion dollar sector of the EV car business, particularly if we include new luxury hybrids such as the gorgeous Fiskar Karma.

Lithium electric car batteries from companies such as LGChem are claimed to last ten years, not the more usual three years. This hugely improves the economics of all EVs with range acceptable to mainstream purchasers.

President Obama’s Stimulus Bill granted .4 billion for hybrids and huge sums have been allotted by other governments across the world to develop and subsidise use of EV cars to save the planet and the car industry and provide independence from dwindling oil reserves.

 Within the decade, it will be possible for some suppliers to offer hybrid cars and no price premium to conventional cars in the way that the Japanese took the Western car market by storm 20 years ago by offering excellent vehicles with most accessories thrown in free. There would then be no strong reason why anyone would want the conventional alternative.

 This unique report takes a detailed look at the market size from 2009-2019 and the government support, technology and new model launches that will get it there. It assesses work on energy harvesting in vehicles from light, heat and shock absorbers, new battery technologies, fuel cells, flywheels and other advances and clarifies which really matter. Here you can also learn which countries and companies are most impressive and why.

The only detailed and up to date critical analysis of both pure and hybrid EV cars worldwide

Entirely researched in 2009, this report gives the only detailed and up to date critical analysis of both pure and hybrid EV cars worldwide. With 200 pages and over 125 figures and tables including many new and detailed summaries and forecasts, it gives the future in the context of the past including the mistakes and inspired moves for over 100 years. It looks closely at the forceful new market drivers such as peak oil and government subsidies but it does not dwell on the well understood global warming debate that is also now driving things forward. Instead, it provides essential data useful to all investors, manufacturers, developers, component suppliers, marketing outlets, legislators and those planning financial support. Which will be the prosperous niches? What is the neglected part of leader Toyota’s multibillion dollar business in EVs? Where is the action globally? Why is the geometry of the EV about to change? What about supercapacitors, supercabatteries, zinc air batteries and solar cells even over the windows? It is all here, provided by a global team of technical experts who have been tracking this industry for ten years and writing highly acclaimed forecasts about it.

Additional benefits

All report purchases include one hour free consulting with a report author from IDTechEx, by email or telephone. This needs to be used within three months of purchasing the report.
 
For more information, please contact :
http://www.aarkstore.com/reports/Hybrid-And-Pure-Electric-Cars-2010-2020-40857.html

Contact : Minu
Aarkstore Enterprise
Tel : +912227453309
Mobile No: +919272852585
Email : contact@aarkstore.com

CONVERT YOUR CAR TO RUN ON ELECTRICTY FOR LESS THAN THAN $300! – CLICK HERE

href="http://electriccarkitz.com/go/ev-secrets/">THE BEST WAY TO CONVERT
YOUR CAR TO ELECTRIC – CLICK HERE
Benefits and Drawbacks of Hybrid Electric Cars

If you just listen to the car manufacturers, hybrid electric cars are the best and innovative invention since slice bread. Although, there many reasons to purchase an electric car, it is of great help to have the understanding of its benefits and drawbacks of hybrid electric cars and in owning these new “green vehicles.

Benefits of hybrid electric cars are normally fuel efficiency because they are composed of two motors, a gasoline motor and an electric powered motor. It is also equipped with special system to catch braking energy and store it on an onboard battery.

The main reason for two motors is both the strength and weakness of the two types. Distinctively, electric motors are not energy during idle times, they turn off and utilizes lesser at low speeds compared to gas motors. On the other hand, gas motors function better at high speeds and can generate more power for a specified motor weight. This simplifies, that in rush hours stop and go driving, electric motors work great and additionally, it helps in reducing smog levels because it does not produce any toxic exhaust. At higher speeds, typically above 40mph, the gas motor sets in and gives that bouncing feel making car owners go forward on driving on highway.

Another benefits of hybrid electric cars are the point for having gas motor, it charges the battery while the engine is on and is running. There are cases of electric car owners that have been stranded with just out extension cord of an outlet. Hybrid owners can neglect this annoyance because the gas motors starts automatically in replacement when the battery gets low and then goes forward to charge the battery, without the need to be plugged into the outlet.

On the contrary, drawbacks of hybrid electric cars are complex and expensive. It contains two motors and ancillary systems to handle them, a heavy battery and a regeneration system that will be used to generate electricity during breaking.

All of the systems need to work together, that is adding complexity, making it one of the drawbacks of hybrid electric cars. Although an ordinary car, as controlled by computers are getting more reliable, but they still suffer from inevitable failures. As, expect owners of hybrid cars have more time in repair shops and pay larger bills.

Indeed, benefits of hybrid electric cars include being the most gasoline efficient, getting 48 to 60mpg. It is only about 20% to 35% better than a gasoline powered vehicle. Let’s take Honda Civic for instance that gets 36mpg. When comparing prices, the hybrid costs from the range of ,000 to ,000 and the ordinary gas saver car costs ,000 to,000. The justification to buy an electric hybrid car becomes less clear.

So, in calculation of this benefits of hybrid electric cars, the discrepancy in the average annual fuel bills, 5 for a hybrid Honda Insight compared to the 5 for an ordinary Honda Civic means you can never compensate the added initial cost of a hybrid electric car. For the span of ten years, owning a hybrid will just save you only ,300, much lesser than the cost difference for equipped cars.

These benefits of hybrid electric cars just came from the improvements in aero dynamics, smaller gas engine and weight reduction. As a matter of fact, any car will have considerably better mileage by just reducing the engine size.

In other cases, car manufacturers are producing hybrid vehicles that use added energy as provided by the hybrid systems to cause the vehicle to boost its power, rather than improve the fuel efficiency. Boosting the power may then add as one of the benefits of hybrid electric cars.

CONVERT YOUR CAR TO RUN ON ELECTRICTY FOR LESS THAN THAN $300! – CLICK HERE |LEARN HOW TO CONVERT
YOUR CAR TO ELECTRIC – CLICK HERE

A quick look at the world of electric cars

The concept of electricity as a fuel for vehicles has been one of the most interesting ideas since a long time. It gained high significance following the fluctuating petrol and diesel prices and increasing awareness about environment among the people. The environmentalists have been vehemently supporting electricity as an alternative fuel. Thus, electric vehicles in general and electric cars in particular are popular throughout the world. Consequently, many electric vehicles have been manufactured and are being widely used across the world.

The demand for personal automobile, especially cars is increasing day by day following the availability of car finance and rising income of the people in India. In this situation, the most innovative idea of a car that runs, not on the conventional fuel like petrol and diesel, but on electricity is more than welcomed.

An ideal electric car for India is a basic, simple and reliable vehicle designed specially for local conditions using cutting edge technology and which is modular to incorporate and absorb newer technologies. The electric cars with a top speed of 40-60 kmph and a range of 50-80 km generally cover the city mobility requirements in India.

Here’s a quick look into the world of electric cars in India.

Reva

Maini Reva is India’s first electric car launched in 2001. A highly economical and environment friendly vehicle, Reva is an affordable car with the lowest running and maintenance cost. The hassles of servicing, getting the components checked and repairs will be things of the past with the Reva. There is no engine, clutch, radiator, exhaust system or carburetor. Thus the maintenance is easy and inexpensive. Reva’s Energy Management system (EMS) diagnoses and rectifies the problem of over discharging and helps in better maintenance. Further, Reva has safety features like steel space frame, side impact beams, dent-proof ABS body panels, a low voltage system, and a dual-braking system. Reva is available in REVAi Standard, REVAi AC and REVAi Classe models. The non air-conditioned base variant delivers 80 km on a full charge, while the other two air-conditioned variants will give about 60 km. Cute and super compact Reva which comfortably seat two adults and two kids offered in six colours.

Tesla Roadster

The Tesla Roadster is a high performance all-electric sports car manufactured by the electric car firm Tesla Motors and is the first car produced by the company. Tesla is the only production automaker already selling highway-capable EVs in North America or Europe. With 0-60 mph in 3.9 seconds, the Roadster outperforms almost all sports cars in its class yet is six times as energy efficient as gas guzzlers and delivers 244 miles per charge. It has 92% average efficiency and 85% at peak power.

The Tesla Roadster was developed with design assistance from Lotus Cars, who supplied the basic chassis development technology from the Lotus Elise. Launched on 19 July 2006, series production of the Tesla Roadster began on 17 March 2008. Tesla has delivered nearly 300 Roadsters, and nearly 1,000 more customers are on the wait list. Tesla Motors is now taking orders for the Model S, an all electric family sedan that carries seven people and travels 300 miles per charge. The Model S, which carries its charger onboard, can be recharged from any 120V, 240V or 480V outlet, with the latter taking only 45 minutes.

ZENN

ZENN (Zero Emission, No Noise) is a two-seat battery electric vehicle manufactured by ZENN Motor Company designed to qualify as a Neighborhood Electric Vehicle. It has a range of up to 40 miles (64 km) and does not exceed 25 mph (40 km/h). The ZENN is a three-door hatchback with a standard 110-Volt outlet plug-in, completely rechargeable in approximately 8 hours from empty. A storage space of 30 cubic feet is available.

ZAP electric cars

The California-based ZAP (Zero Air Pollution) manufactures and sells Alias, Xebra Sedan, Xebra Solar Panel, Xebra Truck, ZAPTRUCK XL and ZAPVAN SHUTTLE electric cars. ZAPVAN Shuttle is the first 100% electric passenger van, exclusively from ZAP. Designed for utility and large capacity, this 5-passenger vehicle quickly converts to an all-cargo configuration as well and features larger slider doors on both sides.

Chevrolet Volt

GM’s Chevrolet is planning to bring out Volt, which will use a lithium-ion battery with a gasoline-powered, range-extending engine that drives a genrator to provide electric power. The Volt, expected to be launched in 2010, promises to go deliver beyond 40 miles and will be one of the most aerodynamic vehicles in GM history.

Fisker’s Karma

The California-based Fisker Automotive’s Karma uses Q-DRIVE plug-in hybrid technology, developed exclusively for Fisker Automotive by Quantum Technologies. A fully-charged Karma burns no fuel for the first 50 miles. After venture further, the gasoline engine turns a generator to charge the lithium ion battery. Once the 50-mile electric range has been exceeded, the car operates as a normal hybrid vehicle. This balance of electric and gas range makes it entirely possible that Karma drivers who charge their car overnight and commute less than 50 miles a day will achieve an average fuel economy of 100 mpg (2.4L/100km) per year.

TH!NK City

TH!NK City is a modern urban car with zero local emissions and an energy efficiency three times that of a traditional combustion engine car. A Norwegian model, TH!NK City is an innovative, sophisticated, high-tech compact electric vehicle that can travel up to 112 miles on a single charge. The car is designed, engineered and produced to have the lowest possible carbon footprint with recyclable plastic body panels and a fully recyclable interior. U.S. production is expected to start in 2010, with the first-year volume of 2,500 units being available to pilot and demonstration fleet projects.

CONVERT YOUR CAR TO RUN ON ELECTRICTY FOR LESS THAN THAN $300! – CLICK HERE