Cutting A Generator Frame - Century Fuel Products

Sometimes our venturi fuel adapter pushes out your air cleaner assembly to the point of running into frame. In that case, you will need to modify the frame. Fortunately we offer Frame Replacement Brackets, to keep the structural integrity of the frame. "Some" generators will require you to do this.

1. Remove Wheel
2. Cut the frame with a Hacksaw.
3. Slide mounting bracket on frame.
3. Cut off the flat end to length and drill hole at that end.
4. Bolt the drilled end to the frame.

Check here for more detailed procedure:
http://www.centuryfuelproducts.com/support/generators/how-to-cut-a-generator-frame

NOTE: This is just an example. Frames may vary depending on generator.

Century Fuel Products
51225 Martz Rd, Belleville, MI, 48111
(734) 728-0300
Fax: (734) 728-0303
www.centuryfuelproducts.com

Technical Terms and Definitions - Century Fuel Products

Absorption Oil: See Heavy Ends

Air Cleaner Pressure Drop: The negative pressure effect caused by the restrictive action of the air cleaner element. The effect will in- crease as the element becomes dirty and can cause rich mixtures and poor operation.

Air Vaporizer: See Vaporizer-Regulator.

Balance Tube: To compensate for excessive air cleaner pressure drop or a positive pressure created by an intake blower, a tube is run between the atmospheric vent on the fuel controller and the intake manifold ahead of the carburetor.

Carburetor Adapter: A venturi section placed between the gasoline carburetor and air cleaner that will allow the gasoline carburetor to remain intact so the engine can be run on gasoline or gaseous fuels.

Carburetor: Also known as a fuel-air mixer. The section of the engine intake system where fuel and air are mixed and passed on to the engine for combustion.

Choke: A variable restriction in the air intake to increase the pressure drop (vacuum) in the carburetor.

Converter: See Vaporizer-Regulator.

Economizer: A device to create a leaner mixture during part load operation where a richer mixture is desired at full load.

Excess Flow Valve: A safety device generally located at a pressurized fuel tank which restricts or shuts off the fuel flow if the discharge rate exceeds a certain figure in the event of a line rupture.

Exhaust Analyzer: A device that measures the carbon monoxide level in the exhaust gases and indicates the leanness or richness of the air- fuel mixture entering the engine. Can also be equipped to measure hydro carbons.

Filter Lock: Combination fuel filter and safety shut-off.

Fuel Controller: Common term used to de-scribe a unit, which contains an atmospheric zero governor.

Fuel Filter: A unit placed in a fuel line to remove dirt and rust picked up from the tank or service fittings.

Heavy Ends: This is a residue picked up by propane from lubricated valves and compressors. It will sometimes collect inside the fuel controller where the pressure is sub-atmospheric.

Idle Plate: A thin Plate inserted between the carburetor and the engine to obtain a vacuum source or provide an idle gas inlet.

Liquid Withdrawal: Used to describe fuel systems where the fuel is drawn from the liquid section of the storage tank.

Lock off Valve: A device either electrically, or vacuum operated to positively shut-off the flow of fuel if the engine should fail while unattended.

Primary: See Regulator.

Primer: A feature included on most zero governors, to allow fuel flow prior to cranking the engine as a starting aid.

Regulator: This term applies to the pressure reducing device or section in a fuel system that reduces the tank pressure down to the rated inlet pressure required by the atmospheric zero governor or pressure carburetor.

Secondary: See Zero Governor.

Shut-Off Valve: See Lock off Valve.

Solenoid Valve: An electrically operated shut-off device used in connection with a manifold sensing vacuum switch or oil pressure switch to positively shut off the flow of fuel should the engine fail.

Spud-in: A method used to convert a gasoline carburetor to gaseous fuel by placing a tube at the small section of the venturi.

Vapor Withdrawal: Describes a fuel system where the fuel is drawn from the vaporized gas section of the storage tank.

Vaporizer-Regulator: A device which includes a regulator and a heat exchanger to convert liquid propane to gaseous state and reduce the pressure. These devices will sometimes include zero governors and are called converters.

Venturi: A symmetrical restriction in the intake manifold or carburetor, which produces a pressure drop (vacuum) and draws fuel into the air stream. The amount of fuel drawn in is in proportion to the volume and speed of the air passing through the venturi.

Zero Governor: This unit is sometimes called a fuel controller or secondary. It is a vacuum demand.

Century Fuel Products
51225 Martz Rd, Belleville, MI, 48111
(734) 728-0300
Fax: (734) 728-0303
www.centuryfuelproducts.com

Source: http://www.centuryfuelproducts.com/support/information/technical-terms-and-definitions

Converted Generators From Joe - Century Fuel Products

Thank You Joe for sending us pictures of your converted generator! As you can see, conversion kits that have aluminum adapters are NOT OBSOLETE. For most generators, you do not have to modify the frame. Here are the comments below from Joe and he also has comments on some of the pictures as well: "There are some things that people should pay attention to such as generator break in and the recommended spark plug gap. I can only hope that people take their time to research and plan things out right. I also recommend replacing the cheap no name spark plug with a better quality plug. Also, some people may not know how to make the proper frequency adjustments and load test the generator and check all outputs. But at least the pics show that the kits does fit and work properly. The generator I purchased is not good quality, but at $599 in my local supermarket, I couldn't resist the purchase. In the event of a power outage, I will run this unit directly off of my 500g submarine style whole house tank."

Century Fuel Products
51225 Martz Rd, Belleville, MI, 48111
(734) 728-0300
Fax: (734) 728-0303
www.centuryfuelproducts.com

Safety Guide For Hose and Fittings? - Century Fuel Products

DANGER: Failure or improper selection or improper use of hose, fittings, or related accessories can cause death, personal injury and property damage. Possible consequences of failure or improper selection or improper use of hose, fittings, or related accessories include, but are not limited to:

• Fittings thrown off at high speed
• High velocity fluid discharge
• Explosion or burning of the conveyed fluid
• Electrocution from high voltage electric power lines or other sources of electricity
• Contact with suddenly moving or falling objects that are to be held in position or moved by the conveyed fluid.
• Dangerously whipping hose
• Contact with conveyed fluid that may be hot, cold, toxic or otherwise injurious.
• Sparking or explosion caused by static electricity buildup
• Sparking or explosion while paint or flammable liquid spraying.

Source: http://www.centuryfuelproducts.com/support/information/safety-guide-for-hose-and-fittings

Century Fuel Products
51225 Martz Rd, Belleville, MI, 48111
(734) 728-0300
Fax: (734) 728-0303
www.centuryfuelproducts.com

Safety Guide for Hose and Fittings - Century Fuel Products by Seth price on Scribd

What Is Propane & LPG?

What Is LPG?

LPG is liquefied petroleum gas commonly known as propane (C3H8), a combustible hydrocarbon based fuel. It comes from the refining of crude oil and natural gas. At normal pressure and temperatures above -44F Propane remains in it's gaseous form. At lower temperatures and/or higher pressures propane will become a liquid. Propane is colorless and odorless. For safety reasons propane is required to be odorized as to indicate positively, by distinct odor, the presence of gas in air down to a concentration of not over 1/5th the lower level of flammability 0.4% in air. This is achieved by adding 1.0 lbs of ethyl mercaptan, or 1.0 lbs of thiophane, or 1.4 lbs of amyl mercaptan per 10,000 of liquefied petroleum gas. There are currently three grades of propane available, HD5 for internal combustion engines, commercial propane and commercial propane butane mix for other uses. The exact composition of propane varies slightly between different parts of the country and different refineries. Compared to gasoline the energy content of LPG is 74%.

LPG Pressure Versus Temperature

It can be difficult to picture in our minds the effects of temperature and pressure on propane because the propane we deal with on a daily basis is always sealed inside a storage container, out of sight. To help us to understand propane better we will compare it to a substance that we are all familiar with, water. We will use an automotive cooling system to illustrate water under pressure at different temperatures. Liquid propane and water act very similar to temperature changes, the difference being the temperature at which events take place.

We can increase the boiling point of liquid propane by applying pressure against it similar to the way a vehicle cooling system raises the boiling point of water by holding pressure in the system through the use of a radiator pressure cap. For example if we look at table #2 we see that at normal atmospheric pressure water boils at 212 Degrees Fahrenheit. If we use a 10 psig radiator cap to hold 10 psig against the water it's boiling point increases to 242 Degrees Fahrenheit. Therefore the water remains liquid at 242 Degrees Fahrenheit. Liquid propane reacts in much the same way to temperature and pressure as water, its just that the boiling point of propane is much lower on the thermometer. For example if we look at table #1 we can see that if we had a bucket full of liquid propane and the temperature was below -44 degrees Fahrenheit the propane would remain a liquid at normal atmospheric pressure. The propane would look and act just like water does in its liquid form. If we raise the temperature of the propane in the bucket above -44 degrees it would look and act just like water in a pot on the stove, it would boil and vaporize. The propane would continue to boil and vaporize until the bucket was empty. If we take that bucket of propane and pour it into a propane container and seal it and the temperature is below -44 degrees not much happens. The propane remains in its liquid state. However if we raise the temperature of the container to 80 degrees the propane will boil and vaporize. Since the propane is now in a sealed container with a fixed volume  that propane expands 270 times in volume when it changes from a liquid to a vapor, the propane vapor begins to compress. As the propane vapor compresses the pressure inside the container will begin to increase. Table #1 shows that at 80 degrees the vapor pressure inside the container should be 128 psig. Therefore the propane will continue to boil and vaporize, the vapor will continue to compress, the pressure will continue to increase until it reaches 128 psig. With 128 psig vapor pressure acting against the liquid propane the boiling point acting against the liquid propane the boiling point has been raised to slightly more than 80 degrees. Therefore the propane will stop boiling. It is the vapor pressure that governs the boiling point of the liquid propane inside the container. In turn the amount of vapor pressure generated inside the container is governed by the ambient temperature outside the container. To review, liquid propane will boil above -44 degrees unless the pressure is held against it. The amount of vapor pressure required to stop the liquid propane from boiling depends on the ambient temperature outside the container.

Does the amount of Liquid effect the pressure inside a propane storage container?

No. An important fact to remember is that since the vapor pressure inside the propane container is governed by ambient temperature outside the container not the amount of liquid inside. A container that is 1/4 full at 80 degrees will contain the same vapor pressure as a container that is 3/4 full at 80 degrees. The vapor pressure is not generated by the amount of liquid in the tank. As long as there is some liquid and not more than 80% liquid inside the container, ambient temperature outside the container will govern the vapor pressure inside the container.

Comparison of Energy Content

Energy content per unit of fuel (energy density) is an important factor affecting range and power output of internal combustion engines.

Comparison of Auto Ignition Temperature

The auto ignition temperature is the temperature at which a fuel will ignite without the need for a spark or flame. In respect to auto ignition temperature LPG, CNG, and LNG are much safer than gasoline or diesel because the auto ignition temperature is much higher.

Comparison of Flammability Range

The flammability range is the distance from the leanest (LEL - Lower Explosion Limit) to the richest (UEL - Upper Explosion Limit) mixture of fuel and air that will burn. Fuels with narrower ranges are safer to work with but are less versatile because they offer less choice of air to fuel ratios.

Comparison of Peak Flame Temperature

You can see that CNG (Compressed Natural Gas) has a peak flame temperature of 1790 C & 3254 F whish is 187 C & 337 F or 9.5% cooler than the peak flame temperature of gasoline at 1977 C & 1591 F. The peak flame temperature of propane at 1991 C & 3614 F is only 13 C & 23 F or less than 1% higher than gasoline.

Comparison of Volumetric Efficiency

The amount of air entering an engine at a particular throttle angle and load is fixed. Any fuel added to the air before it enters the cylinder will displace an equal volume of air and will reduce the volumetric efficiency and power output of the engine. The table below illustrates the reduction of volumetric efficiency of various fuels.

Propane is a by-product of the refining process of natural gas and crude oil. About 3% of a barrel of oil becomes propane. Propane boils at -44 degrees Fahrenheit; when it is vaporized, it becomes a gas again. Because it vaporizes at such a low temperature, it mixes easily with air. Therefore, it doesn't require a high temperature (over 400 degrees Fahrenheit for gasoline) for it to atomize. This improves cold starts, emissions, and drive-ability. Propane is a stable fuel; it doesn't go bad if you don't use it!

Since propane has such a low carbon content, motor oil never gets dirty which increases engine life. The oil does still need to be changed, though not as often. Spark plug life is dramatically extended. Also, you cannot "flood" a propane engine. When a gasoline engine "floods," raw fuel enters the cylinders, washing past the rings and into the oil, also wetting the plugs. Propane carburation automatically compensates for altitude changes, saving carb re-jetting and computer re-learn.

Since propane is under pressure, there are no fuel pumps, no float bowl, or needle and seat. Another plus is the high octane rating of propane between 100 and 110. This means that if you are turbocharging or supercharging, it is the ideal fuel. The propane system is sealed to the elements so that even complete submersion will not allow water into the fuel system.

Propane is available throughout the world.  It is all the same fuel and the fittings are standardized. Your local propane dealer will usually cut you a break when buying motor fuel.

Propane:

• Will not go bad
•  Burns clean
•  Requires no maintenance
•  Is easy to install
•  Is very safe
•  In many cases it is much cheaper than gasoline
•  Rates at 100-110 octane
•  Automatically compensates for altitude
•  Prolongs engine life
•  Is affordable
•  No loss of power with any of our kits (these are automotive kits)
•  No wiring except the on/off solenoid.
•  All of our kits are complete with all the parts necessary to do the conversion. They do NOT include the tank.
•  All of our kits are designed to be installed to NFPA 58 standards.
•  Propane is not harmful to soil or water

Source: http://www.centuryfuelproducts.com/support/information/propane-facts-and-lpg

Century Fuel Products
51225 Martz Rd, Belleville, MI, 48111
(734) 728-0300
Fax: (734) 728-0303
www.centuryfuelproducts.com

Century Fuel Products: How A Regulator Works

Propane Tanks
Propane tanks contain a flammable liquid that is pumped from larger tanks into the smaller ones used for the home consumer.  Since this gas is a liquid under pressure that becomes a lighter-than-air substance when being consumed, it can build to a very high pressure.  This pressure must be regulated as it exits the tanks, or else it can rupture hoses or, worse yet, create a substantial explosion.  Pressure regulators are generally used on propane systems for this exact reason, to dispense the liquid in the tank so it can be consumed in a safe and efficient manner.

Propane Regulators and Their Connections
Propane regulators and their connections to propane tanks are made of brass.  Brass is normally used because it is resistant to sparking. In other words, if you were to slip with the wrench when tightening the fitting from the regulator to the tank, a spark would not necessarily be created.  Sparks and propane can lead to a deadly combination.  Aluminum is another metal that is used in the construction of the regulator.  Not only is the metal lightweight, but it also has a resistance to being a spark generator.  Generally, the housing that holds the mechanism of the regulator is made of aluminum.  Most regulators look as if they were modeled from a flying saucer.  This saucer design contains the interior controlling diaphragm.  At the top and center of the saucer is a round cap.  This round cap contains the pressure spring.

Source: http://www.centuryfuelproducts.com/support/information/how-a-regulator-works

Century Fuel Products
51225 Martz Rd, Belleville, MI, 48111
(734) 728-0300
Fax: (734) 728-0303
www.centuryfuelproducts.com

Century Fuel Products: What Are The Dangers of Gasoline

Breathing: Exposure occurs when people breathe gasoline vapors while filling gas tanks. Exposure may also occur when using contaminated water to bathe or do laundry. Some people intentionally inhale gasoline vapors to get "high."

Drinking / Eating: Low level exposure can occur when contaminated water is used for drinking or preparing food.

Touching: Some ingredients in gasoline can pass through the skin when used as a cleaner or accidentally spilled on skin or clothing. People can also be exposed when handling contaminated soil or water.

Source: http://www.centuryfuelproducts.com/support/information/dangers-of-gasoline

Century Fuel Products
51225 Martz Rd, Belleville, MI, 48111
(734) 728-0300
Fax: (734) 728-0303
www.centuryfuelproducts.com