H2O Car - Japan




The car has an energy generator that extracts hydrogen from water that is poured into the car's tank. The generator then releases electrons that produce electric power to run the car. Genepax, the company that invented the technology, aims to collaborate with Japanese manufacturers to mass produce it.

http://www.genepax.co.jp/en/index.html
http://peswiki.com/index.php/Directory:Genepax_Co_Ltd

9 Plate Hydrogen Generator Great Production!!!




This is the 9 plate cell that is going into our 6 cyl. Ford Escape. 1 ltr/min

Back Flash Arrestor




Here is the Back Flash Arrestor that I made to give me peace of mind. I don't want to open my hood to find a mess of PVC / Stainless shrapnel in my engine compartment.

Milage Test Hydrogen Generator




Here is my second milage tost with the hydrogen generator. O2 sensor correction voltage installed.

Milage Test Hydrogen Generator 2




Engine compartment view

Hydrogen Generator Components Explained




Here is my hydrogen generator, as it will go into the Saturn SL2. The GEN is on the right and is filled quite full with water. The gas and some liquid travels through the upper tube into the filter. Most of the water is deposited into the filter housing and migrates back into the GEN by way of the tube at the bottom. It is important that we do not filter all of the water vapor, as that aids in combustion.

Fuel Savings from HHO Generator




I drove 57 miles today and it took me 75 minutes. 27 miles city/stop and go driving and 30 miles of highway driving. This is exactly proportionate to my normal daily driving routine in which I get 27 to 29 miles per gallon. I have kept extremely accurate MPG records for the past 6 weeks, which is pre-HHO installation. You can see an example of my MPG logs at my youtube page in the Bulletins section.

How to assemble the HHO generator part 1




I have been asked to show the assembly of my cell, so here it is. Sorry if anything is unclear. I tried to show the basic steps without showing any machining, etc. The pipes are 304 SS, but 316 works well also. Part 3 will be uploaded after the cell is sealed and ready to run.
I insulate the pipes from the Positive lead/screw by first coating the screw with 2 coats of liquid electrical tape. When that is dry, I put electrical shrink wrap tubing on the screw, making sure to leave the end thread exposed for connecting it to the center tube. The holes in the pipes that the positive lead screw passes through are twice the size of the screw, leaving plenty of room for the screw and insulation to fit through......if your holes are aligned.

How to assemble the HHO generator part 2




I have been asked to show the assembly of my cell, so here it is. Sorry if anything is unclear. I tried to show the basic steps without showing any machining, etc. The pipes are 304 SS, but 316 works well also. Part 3 will be uploaded after the cell is sealed and ready to run.

How to assemble the HHO generator part 3




Here is the long awaited part 3 to my assembly of the HHO generator. I hope I have covered everything. If you need some more info, please let me know.

Water for Fuel- Go Hydro Booster how it works




Short video explaining how the go hydro booster works. Taking H20 and breaking it down into H & O gas and injecting it into my engine.

GoHydro- Oxygen Hydrogen Booster Installed on 1968 Mustang




Quick demo about how the booster works. How it uses your alternator's electricity to break the water into gas, internal shot of generator

Go Hydro Booster - How to build the casing for the generator




Demo explaining How to build the GoHydro Booster Case. What material you can use to make the Gohydro Booster. 4" Plastic Pipe from Hardware store, or steel 4"pipe from Your local Machine Shop out of 304 stainless Steel.

Go Hydro Driving Demo un-cut complete fuel process demo




A un-cut video showing the Mustang driving using water as fuel, then opening the oxygen and hydrogen generator up to show the fuel being made.

農夫發明.只需500令吉

(芙蓉9日訊)省油大作戰! 農夫在轎車后廂,安裝由他發明的“氫氣反應”器具,節省高達60%汽油。

這名男子希桑阿都拉(43歲,又名“氫氣桑”)說,有關氫氣裝備轎車引擎器具,在西方國家已使用多時。

他受訪時說,他今年初在自已的國產依絲華拉轎車,安裝有關器具。

他補充,氫氣置入引擎,會讓引擎在移動時,燃油燒得更完美,讓轎車省油、減少污氣和二氧化碳的排出等。

希桑在美國一間大學畢業,他說,有關安裝裝備僅花費500令吉成本,比起修車廠和車行,以1800令吉到3500令吉的價格出售同樣的裝備,更加便宜。

“我沒有從中牟利,只希望協助森州居民能節省汽油。如果要賣數千令吉,倒不如安裝原油裝備。”

較早時,希桑在外國的技術公司和財務公當技術員。他說,有關器具僅使用是住家過濾器瓶子,裝有化學液體和進水即可,但有關化學液體不能第二度摻水,否則化學液體會消失。

安裝在轎車后廂和行駛后,原本10令吉汽油可跑40公里的轎車,可跑至75公里。

他說,如果關上轎車冷氣機,以60至80公里時速行駛,轎車可跑100公里。目前,透過友人口傳,他每天替他人轎車按裝一架裝置。

Hydrogen Generator



Detailed Product Description

Want to SAVE MONEY on your bills at the petrol station?
Or even NEVER visit the gas station EVER AGAIN.

These products are Energy Efficient and Environmentally Friendly. Saving money is one thing. Saving the Environment while saving money is the big issue! Times are hard for everyone. Everyone knows the pollution that Cars generate and the emissions that they produce are killing our atmosphere and the planet that we all live on.

What if there was an alternative?
Well Actually there is more than one. Surprised!
These products cover anything from "Diesel, or Bio-Fuel to running your car/truck/generator etc with a fuel that you make from home" to "Running, your current LPG car, on water instead of gas.

No alterations to your current car just an addition".

These are big savings. You never have to visit the pumps again and never have to worry about the price of fuel. This fuel that you constantly buy, brings the kids to school, gets you to and from work, it is a cost factor when going on holidays etc the list goes on and on. Just think about the saving that you will make in your wallet (your hard earned cash) and also the savings to the environment. I believe that everyone wants to help the environment and we all do what we can.


1) They improve gas mileage.
2) They clean carbon deposits out of your engine.
3) The added hydrogen/oxygen produced acts like a catalysis to your fuel, a more complete burn and slightly cooler.
4) Add a FREE 120 octane booster to your fuel mix.
5) Knocks down the hydrocarbon count from your exhaust
6) Increases horsepower as it is used in Rockets!

Marc's HHo gas generator 2




My second design,I added a fuel heater, a bubbler, and a flashback arrestor. I designed a wonderful 10 plate design that jams out HHO, and uses less than 10 amps. It makes a minimum of 2 liters of HHO per minute. It runs very cool, and doesnt eat up the stainless, just seems to discolor it some. Doesn't even create steam, it stays under 120 degrees F.

Marc's HHO gas generator Part 1



Hydrogen Fuel - Engine Fundamentals #10



Hydrogen Fuel - Engine Fundamentals #9



Hydrogen Fuel - Engine Fundamentals #8



Hydrogen Fuel - Engine Fundamentals #7



Hydrogen Fuel - Engine Fundamentals #6



Hydrogen Fuel - Engine Fundamentals #4



Hydrogen Fuel - Engine Fundamentals #3



Hydrogen Fuel - Engine Fundamentals #2



Hydrogen Fuel - Engine Fundamentals #1



Hydrogen as a motor fuel

Hydrogen as a motor fuel

Hydrogen can be used as a motor fuel, whereas neither nuclear nor solar energy can be used directly.

Nuclear power requires heavy shielding to keep the neutrons away from people - too heavy for cars. It can be used in ships, and is used in American, British and Russian warships, especially submarines and aircraft carriers. The U.S. and Japan built commercial nuclear powered ships, one each (Savannah and Mutsu). (There were even proposals to use it in locomotives.) However, initial difficulties combined with anti-nuclear politics caused these projects to be abandoned and the ships mothballed. The Soviets built nuclear powered icebreakers, and these are in use. I think nuclear power will be revived for commercial ships when its political problems are overcome and the technology is further debugged.

Solar energy can't be used directly in cars except as a stunt. The current solar-powered cars are just religious exercises in the solar religion. The problem is that a solar array of a size that can be mounted on a car produces too little energy to give useful performance, and even that little isn't available at night or when it is very cloudy.

Hydrogen can be used as a fuel directly in an internal combustion engine not much different from the engines used with gasoline. The problem is that while hydrogen supplies three times the energy per pound of gasoline it has only one tenth the density when the hydrogen is in a liquid form and very much less when it is stored as a compressed gas. This means that hydrogen fuel tanks must be large.

Demonstrations of hydrogen powered vehicles have usually used compressed hydrogen gas. However, because of the low density, compressed hydrogen will not give a car as useful a range as gasoline. It may be even worse than using lead-acid batteries. Hydrogen can achieve a reasonable density adsorbed in metal hydrides, but then the weight of the metals makes the system very heavy.

The most practical way I know of using hydrogen as a motor fuel is to accept the difficulties of handling liquid hydrogen and solve them. There are three main problems.

  1. The low density. A hydrogen fuel tank will have three times the size of a gasoline tank. Also it must be insulated, and this will add to its bulk. This seems entirely bearable.

  2. Safety problems. Liquid hydrogen is cold enough to freeze air, and accidents have occured from pressure build-up following plugged valves. Some say these problems can't be overcome, but I side with those who think they can be overcome. In a collision the hydrogen tank may rupture, as can a gasoline tank. Limited accident experience suggests that the danger is somewhat less with hydrogen than with gasoline, because the hydrogen dissipates rapidly. The release of hydrogen into a confined space like a garage risks an explosion.

  3. Since the insulation can't be perfect, the hydrogen will gradually evaporate, typically 1.7 percent per day. This is too fast for a car to sit for months between uses. A tank of compressed hydrogen holding enough to get to a hydrogen station would solve this. If the engine is flexible enough to burn gasoline as well as hydrogen, a half gallon gasoline tank would suffice. Some automobile companies, e.g. BMW, have experimented with vehicles powered by liquid hydrogen. However, hydrogen cannot come into common use until the political obstacles to nuclear expansion are overcome or the technological obstacles to large scale solar energy are overcome. It is unlikely to be used as long as gasoline remains so cheap, i.e. as long as oil remains cheap and fear of global warming does not prevent its use. We hydrogen enthusiasts will just have to wait.

    October 2000 note: The German automobile company BMW has just announced a car to be powered by liquid hydrogen and a plan to build a network of hydrogen refuelling stations in Germany. The car is named the 745 hdi and it is based on the BMW 745, a top-of-the-line model. A range of 350 km is promised. This is a bit small but may be tolerable. The car can also burn gasoline. BMW built a small fleet of these cars and has demonstrated them in various countries including the US, both in L.A. and Detroit.

    Here's an article by BMW engineers. Oops, the link doesn't work directly as I have copied it, but the article and others can be found by Googling bmw+hydrogen.

    2003 November note: Jay Keller of Sandia Laboratory presented Why hydrogen? - Building an infrastructure at the Stanford University Global Climate and Energy workshop on Hydrogen Production, Storage, and Utilization: Technical Barriers and Research Opportunities in 2003 April.

    The large scale use of hydrogen for cars requires a very large investment in infrastructure. I suppose present gasoline stations can have hydrogen tanks and hydrogen pumps added, just as many gasoline stations also sell diesel fuel. Facilities for delivering hydrogen from the electrolysis plants to the users will be expensive. The transition to hydrogen will be triggered by one of two events. (1) The world will eventually run out of conventional motor fuel at reasonable prices. Opinions differ about when this will happen. Some pessimists predict a peak in world oil production in 2005. Other people think we won't run out in this century. I tend to the latter view considering that the oil sands in Alberta, Canada are being rapidly developed, produce oil profitably sellable at $12 per barrel and have resources greater than Saudi Arabia. (2) It may happen that increased CO2 causes real harm to the world and a crash program to stop emitting so much is required. There is not sufficient evidence of harm to convince governments to take drastic action in spite of the enthusiasm of the environmental community and its scientific supporters. [I can't take these proposals from these people seriously as long as they don't even mention nuclear energy. They are just playing with us.]

    2003 September: A Republican draft of the energy bill includes $1.1 billion to build a nuclear reactor to produce hydrogen. That would be a big step in the right direction.

    Energy and the hydrogen economy by Ulf Bossel and Baldur Eliasson analyzes the energy cost of a "hydrogen economy". The problem is that transporting energy as hydrogen uses much more energy than transporting it as oil or natural gas because of the low density of hydrogen, either as a liquid or as a compressed gas.

    Bossel and Eliasson's rhetorical object seems partly to knock off the idea of a hydrogen economy in favor of their preferred methanol economy. However, they propose to get the carbon for their methanol economy from biomass. That would satisfy greenhouse objectives, whereas getting the carbon from coal would not. I'm doubtful about the biomass part, and they don't offer specific arguments for its feasibility.

    New to me in their paper is the analysis of hydrogen transportation systems and their energy costs. The conclusion most interesting to me is that 2.12 times as much energy goes into generating and transporting liquid hydrogen by truck than you get into the fuel tank of the car. If their calculations are correct, the cost for the automobile user is regrettable but entirely bearable, because only a small part of the costs of operating a car are fuel costs.

    An alternative to transporting liquid hydrogen long distances is to electrolyze water locally, perhaps in the fuel station itself.

    Here's what Pimentel (1996, p. 211-212) has to say.

    In terms of energy contained, 9.5 kg of hydrogen is equivalent to 25kg of gasoline ( Peschka 1987). Storing 25 kg of gasoline requires a tank with a mass of 17 kg, whereas the storage of 9.5 kg of hydrogen requires 55kg, (Peschka 1987). Part of the reason for this difference is that the volume of hydrogen fuel is about 4 times greater for the same energy content of gasoline. Although the hydrogen storage vessel is large, hydrogen burns 1.33 times more efficiently than gasoline in automobiles ( Bockris and Wass 1988). In tests a BMW 745h liquid-hydrogen test vehicle with a 75 kg tank and the energy equivalent of 40 liters of gasoline had a cruising range in traffic of 400 km, or a fuel efficiency of 10 km per liter ( Winter 1986).

    At present, commercial hydrogen is more expensive than gasoline. Assuming $0.05 per kwh of electricity from a nuclear power plant during low demand, hydrogen would cost $0.09 per kwh ( Bockris and Wass 1988). This is the equivalent of $0.67 per liter of gasoline. Gasoline sells at the pump in the United States for about $0.30 per liter. However, estimates of the real cost of burning a liter of gasoline range from $1.06 to $1.32 when production, pollution, and other external costs are included (Worldwatch Institute 1989). Therefore, based on these calculations hydrogen fuel may eventually become competitive.

    The references above are copied from Pimentel (1996, p. 211). I plan to look them up, and this may change what I say.

    The above comparison between current costs of gasoline and hydrogen power for cars seems to be somewhat biased in favor of hydrogen. Taxes seem to be included in gasoline cost and not in hydrogen estimates, but roads will still have to be maintained when hydrogen is used as a fuel. Howover, I suspect the Worldwatch estimate of the "real cost" of burning a liter of gasoline is exaggerated.

    For me the decisive point is that the costs of a automobile transportation system using hydrogen produced from water using nuclear energy are low enough so that people worldwide who use automobiles will not give up the freedom they provide, regardless of efforts to get people to settle for public transportation or low range and low performance cars of one kind or another. This doesn't say that adequate batteries won't be developed to make electric cars better than liquid-hydrogen internal combustion powered cars. Maybe they will, but we won't settle for less mobility than hydrogen can provide. See also my scheme for hydrogen powered Wankel engine cars. They are trying to get California to declare them zero emission with some prospect of success. However, if California chickens out of the zero emission demand (as it should and probably will), I'll bet the Mazda will not be offered for sale any time soon.

Many people, including car companies, are being persuaded that cars of greatly lower performance, e.g. in size, in range and in acceleration, are acceptable and will be required in the future. For example, Daimler Benz (Mercedes) is now (1996) experimenting with a compressed hydrogen car. However, if just one manufacturer in the world, e.g. with a liquid hydrogen powered car, succeeds in maintaining present performance, then all the fine words about living with lower performance cars will amount to nothing.

West Virginia University has a Hydrogen Review page. It mentions several ways of using hydrogen for motor vehicles. It would seem to me from their numbers that liquid hydrogen is the winner - as stated above. However, the page makes no comparisons at all.

The Department of Energy supports research on hydrogen. The value of this page seems to be somewhat limited. First, it only mentions what is currently being supported by DoE, and doesn't mention what other organizations are doing. Second, it is entirely politically correct as is apparent in the first paragraph. Nuclear energy isn't even mentioned as a possible source, not even to be dismissed. Nevertheless, there is useful information.

A check on the DoE site in 2002 February shows that there is still no mention of nuclear energy. The site still has the Clinton (or perhaps it's Gore) religion. During the California energy crisis Vice-President Cheney made a speech or two favoring nuclear energy, but the push evaporated when there turned out to be enough natural gas for the time being. I guess the Bush Administration has enough problems to occupy all its attention and has no energy left to make its Department of Energy stop ignoring a source of energy favored by the Administration. Of course, maybe it was just the Vice-President who favored it.

Some companies that supply hydrogen and related technology: Air Liquide(sells gases including hydrogen), Air Products and Chemicals, Inc., The BOC Group, Praxair. Air Products and Chemicals, Inc. has a page on a hydrogen fuel celled bus in Chicago that has a range of 250 miles - enough for a whole day. This may be good enough performance for cars.

Let me reiterate that the point of this page is not to show that one particular way of powering automobiles is best but to show that there are enough ways of keeping individual mobility in the advanced countries and for the backward countries to achieve it. Cars powered by liquid hydrogen fueled internal combustion engines with the hydrogen produced by nuclear power plants electrolyzing water will suffice to preserve our mobility.

Hydrogen

Hydrogen is often advocated as an energy medium. Here are some relevant facts.

1. Hydrogen does not occur free in nature in useful quantities. It has to be made, usually by splitting water H2O to get the hydrogen. This requires all the energy you are going to get from burning the hydrogen and a bit more on account of inefficiencies. Therefore, hydrogen is an energy transfer medium rather than a primary source of energy. Hydrogen is obtained by splitting water (H2O) into hydrogen and oxygen. The energy to split the water should be nuclear or solar. Nuclear is cheaper.

2. Hydrogen is the lightest of the elements with an atomic weight of 1.0. Liquid hydrogen has a density of 0.07 grams per cubic centimeter, whereas water has a density of 1.0 g/cc and gasoline about 0.75 g/cc. These facts give hydrogen both advantages and disadvantages. The advantage is that it stores approximately 2.6 times the energy per unit mass as gasoline, and the disadvantage is that it needs about 4 times the volume for a given amount of energy. A 15 gallon automobile gasoline tank contains 90 pounds of gasoline. The corresponding hydrogen tank would be 60 gallons, but the hydrogen would weigh only 34 pounds.

3. When hydrogen is burned in air the main product is water. Some nitrogen compounds may also be produced and may have to be controlled. Should greenhouse warming turn out to be an important problem, the key advantage of hydrogen is that carbon dioxide (CO2) is not produced when hydrogen is burned.

4. Since hydrogen is not available in significant quantities in nature in pure form, the main present way of getting hydrogen is steam methane reforming, and this will probably remain the most economical way as long as methane (natural gas) is available cheaply and in large quantities, and hydrogen is required only in small quantities. When the price of methane goes up to more than three times its present price because of scarcity, hydrogen will be obtained by splitting water H2O into hydrogen H2 and oxygen O2. The chemical reaction is written

2H2O + energy => 2H2 + O2.

The well developed way of splitting water is by electrolysis. If fossil fuels, e.g. coal, oil or natural gas, are used to generate the electricity, there is no advantage over using the fossil fuels directly. Indeed you still get all the CO2, and there is a considerable loss of energy. Therefore, the large scale use of hydrogen depends on using either nuclear or solar electricity. In both the nuclear and solar cases, there are possible but undeveloped technologies that don't use electricity as an intermediate form of energy. [2003 September: There is a thermochemical process for splitting water that is claimed to be twice as efficient as elactrolysis. Here's an article on the sulfur-iodine cycle by Ken Schultz of General Atomic given at a Stanford University Global Climate and Energy sponsored meeting in 2003 April. To get good efficiency it requires reactors operating at a higher termperature (950 C) than present power reactors. Schultz's article also discusses solar thermal production of hydrogen. (There are also proposals to combine getting heat for houses and chemical processes and electrolysis with some saving of energy.)

5. In either case, the law of conservation of energy tells us that all the energy to be obtained by burning the hydrogen must be supplied by the primary source, e.g. nuclear or solar. Of course, since these processes aren't 100 percent efficient, there is some loss of energy. Therefore, the use of hydrogen as an intermediate is justified only when there is some reason not to use the primary source directly. For vehicles the reason is that both nuclear nor solar power plants are too big to carry around, except that nuclear power is suitable for large ships.

6. If there is large scale use of solar energy, the energy is likely to be generated far from where it is used and at a different time. Hydrogen has been proposed as both a storage and transmission medium. It should work for these purposes. I don't know how hydrogen pipelines compare with high voltage electric transmission as means of long distance transmission of energy.

Hydrogen can be transported by pipelines similar to those used to transport natural gas. There are some addtional problems, because hydrogen tends to leak more and can embrittle some metals used for pipelines. The existence of a 240 km hydrogen pipeline in Germany operated by the company Air Liquide provides evidence that these difficulties can be overcome.

In 2004 December I was informed that there is an 879km hydrogen pipeline network in Belgium, France, and the Netherlands operated by Air Liquide.

However, the technology of efficient long distance transport of electric energy may be improved enough to obviate the advantages of hydrogen except for vehicles.

Project Energy - Water Fuel



Hydrogen Generator Saves 20% - 90% Fuel and Increases Power



hydrogen generator 1



hydrogen generator 2




here you can see in work in electrik genarator no fuel only 14 plates for 15 min was great!!!!!!!!!!

hydrogen generator 3 (bang)




explosion after try start again the engin.
The explosion was a lot,the video you gan see wat hapen

Sales of gas-saving products on the increase

With fuel prices soaring, sales of products designed to boost gas mileage are also rising - even though the US government says they're not worth the money.

The products range from devices that fit inside an engine's air intake valve to fuel additives. Their makers claim they boost mileage by helping gasoline burn more efficiently.

"The EPA (Environmental Protection Agency) has tested hundreds of these products," said Laura DeMartino, a Federal Trade Commission attorney. "Even for the few that worked, the gas savings was so small it didn't justify the price."

But that's not discouraging people from searching for ways to eke extra mileage out of their vehicles when gas prices are hovering above US$4 a gallon nationally.

"Our sales have probably close to doubled," over the past year, said Dan Baxley, founding partner of Automotive Research Laboratory LLC, which makes the Vortec Cyclone, a device designed to boost gas mileage by improving an engine's air flow.

Dan Baxley and the Vortec Cyclone. Sounds like a good name for a band. - AP Photo.

The US$40 device fits inside a car's air intake hose, where it, "creates a swirling mass like a tornado," Baxley said. That creates a finer gas-air mix than normal, which burns more efficiently. Some Vortec Cyclone users have claimed a benefit of as much as 6mpg, though most see an improvement of one to 2mpg, Baxley said.

Kevin Shaw, vice president of development at The Coffee Beanery, has tested it on four of his company's vehicles. The coffee chain found that it improved the performance of two of his service vans by 2mpg, while one passenger car's fuel efficiency rose by 1mpg. The fourth car saw no improvement, but Shaw said three out of four is enough to convince him that the device is well worth the money.

"I have nine on order right now," said Shaw, who believes the devices will save his company at least US$1,400 a year per vehicle in fuel expenses.

Like other companies that sell gas-mileage-improvement products, Baxley is used to skepticism.

He says his company's tests prove that the Vortec Cyclone improves gas mileage, and Automotive Research Laboratory backs its product up with a money-back guarantee. Returns run only around 5% of sales, he said.

Automotive Research Laboratory has never received a complaint from the FTC, which declined to comment on specific products.

National Fuelsaver Corp, which makes Platinum Gas Saver, can improve fuel mileage by 22%, said company owner and technical director Joel Robinson. The product, which the company started selling nearly 30 years ago, injects a small amount of platinum into a vehicle's air intake system. The platinum molecules boost the amount of fuel burned by the engine, company press materials say. The remainder is expelled as vapour and burned off by the catalytic converter.

Robinson said he has been contacted by the FTC and some state attorneys general. But he's been able to defend his product thanks to his victory in an early 1980s lawsuit brought by the US Post Office, which said he was trying to obtain money through the mail by making false claims.

"They all thought we were frauds until I sent them the judge's decision," Robinson said.

Robinson produced data that, he says, show Platinum Gas Saver works. But he also notes that - aside from his product - there is merit to the FTC's warnings.

"Except for ours, I think there's a lot of truth to it," Robinson said. "The problem in selling this product is that in the last 10 years there have been 10,000 phony fuel savers."

Platinum Gas Saver costs US$150 for a 30,000 mile supply. Robinson declined to disclose annual sales.

Another company, Magnetizer Industrial Technologies Inc, has stopped selling a US$150 gas-savings device to the general public, citing high costs to fulfill individual orders and the general skepticism that surrounds any kind of magnetic gas savings device.

"There is a technology here that can benefit," said Ron Kita, director of research, but "there has been a lot of negative press."

Magnetizer's magnets work by changing naturally formed chemical associations, "into a single, potentiated molecular state," which burns more efficiently, the company's website explains. The company still sells the system to fleet operators as an emissions reduction device.

The US government's advice to people looking to save on gas, however, is simple enough: Drive the speed limit, use cruise control, combine errands and remove excess weight from the trunk. - AP