Wednesday, June 18, 2008

Wednesday July 16th Biggest Event of The YEAR!!! HOT RODS/CHARITY/LIVE TV SHOW/Celebrities/Free!

Thats Right! For The First Time Interstate Auto Auction will be hosting a Enormous Event For The New Hampshire Food Bank Charity. It is Free To Attend. We will have Free Food/Prizes/ Be Giving away $500. We will also have a live DJ with games, A 50/50 Raffel and so much more too much too list! BE ON TV WITH Celebrity Chef Johnny Cia! Meet Race Car Driver Jim Chambers and feel the roar of a real NSACAR Super Late Model!!!!

We are going to have everything you can think of. Hots Rods Muscles Cars (Show off Yours)



Pass Pro All Star Series Nascar Super Late Model driver Jim Chambers Signing Autographs





Live On Site Celebrity Chef Johnny Ciao will be hosting the event that will be airing on NECN. You could be ON TV!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!




Tuesday, June 17, 2008

TURBO!!!... Part I



There are a lot of ways to make your customized ride even faster. Most of it though revolves around the power-to-weight ratio principle. You can do this by either putting your car on a weight loss program or you can increase its power output. If you want to go for the latter then you might want to try adding turbo.
When people talk about race cars or high-performance sports cars, the topic of turbochargers usually comes up. Turbochargers also appear on large diesel engines. A turbo can significantly boost an engine's horsepower without significantly increasing its weight, which is the huge benefit that makes turbos so popular. Turbochargers are a type of forced induction system. They compress the air flowing into the engine (see How Car Engines Work for a description of airflow in a normal engine). The advantage of compressing the air is that it lets the engine squeeze more air into a cylinder, and more air means that more fuel can be added. Therefore, you get more power from each explosion in each cylinder. A turbocharged engine produces more power overall than the same engine without the charging. This can significantly improve the power-to-weight ratio for the engine (see How Horsepower Works for details). In order to achieve this boost, the turbocharger uses the exhaust flow from the engine to spin a turbine, which in turn spins an air pump. The turbine in the turbocharger spins at speeds of up to 150,000 rotations per minute (rpm) -- that's about 30 times faster than most car engines can go. And since it is hooked up to the exhaust, the temperatures in the turbine are also very high.
One of the surest ways to get more power out of an engine is to increase the amount of air and fuel that it can burn. One way to do this is to add cylinders or make the current cylinders bigger. Sometimes these changes may not be feasible -- a turbo can be a simpler, more compact way to add power, especially for an aftermarket accessory. Turbochargers allow an engine to burn more fuel and air by packing more into the existing c­ylinders. The typical boost provided by a turbocharger is 6 to 8 pounds per square inch (psi). Since normal atmospheric pressure is 14.7 psi at sea level, you can see that you are getting about 50 percent more air into the engine. Therefore, you would expect to get 50 percent more power. It's not perfectly efficient, so you might get a 30- to 40-percent improvement instead.
One cause of the inefficiency comes from the fact that the power to spin the turbine is not free. Having a turbine in the exhaust flow increases the restriction in the exhaust. This means that on the exhaust stroke, the engine has to push against a higher back-pressure. This subtracts a little bit of power from the cylinders that are firing at the same time.
So what can we find inside the turbocharger you ask?
The turbocharger is bolted to the exhaust manifold of the engine. The exhaust from the cylinders spins the turbine, which works like a gas turbine engine. The turbine is connected by a shaft to the compressor, which is located between the air filter and the intake manifold. The compressor pressurizes the air going into the pistons.
The exhaust from the cylinders passes through the turbine blades, causing the turbine to spin. The more exhaust that goes through the blades, the faster they spin.
On the other end of the shaft that the turbine is attached to, the compressor pumps air into the cylinders. The compressor is a type of centrifugal pump -- it draws air in at the center of its blades and flings it outward as it spins. In order to handle speeds of up to 150,000 rpm, the turbine shaft has to be supported very carefully. Most bearings would explode at speeds like this, so most turbochargers use a fluid bearing. This type of bearing supports the shaft on a thin layer of oil that is constantly pumped around the shaft. This serves two purposes: It cools the shaft and some of the other turbocharger parts, and it allows the shaft to spin without much friction.