Fuel Energizer
#1

In this era of increasing fuel prices, here a device called ËœFUEL ENERGIZERâ„¢ help us to Reduce Petrol /Diesel /Cooking gas consumption up to 28%, or in other words this would equal to buying the fuel up to 28% cheaper prices. When fuel flow through powerful magnetic field created by Magnetizer Fuel Energizer, the hydrocarbons change their orientation and molecules in them change their configuration. At the same time inter molecular forces is considerably reduced or depressed hence oil particles are finely divided. This has the effect of ensuring that fuel actively interlocks with oxygen producing a more complete burn in the combustion chamber. Hence by establishing correct fuel burning parameters through proper magnetic means (Fuel Energizer) we can assume that an internal combustion engine is getting maximum energy per litre as well as environment with lowest possible level toxic emission. By establishing correct fuel burning parameters through proper magnetic means (Fuel Energizer) we can assume that an internal combustion engine is getting maximum energy per liter as well as environment with lowest possible level toxic emission.
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#2
SEMINAR REPORT ON
FUEL ENERGIZER
_
Fuel energizer
ABSTRACT
In this era of increasing fuel prices, here a device called ËœFUEL
ENERGIZERâ„¢ help us to Reduce Petrol /Diesel /Cooking gas
consumption up to 28%, or in other words this would equal to buying the
fuel up to 28% cheaper prices.
When fuel flow through powerful magnetic field created by
Magnetizer Fuel Energizer, The hydrocarbons change their orientation
and molecules in them change their configuration. Result: Molecules get
realigned, and actively into locked with oxygen during combustion to
produce a near complete burning of fuel in combustion chamber.
Fuel energizer
Mechanical engineering .
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CONTENTS
1. INTRODUCTION : 5
2. THE MAGNETIZER AND HYDRO CARBON FUEL : 8
3. ATOMS OF HYDROGEN IN ITS PARA AND ORTHO STATE : 10
4. HOW DOES MAGNETIZER ALLOW TO MEET THE REQUIRMENTS
OF RULE 1-4 : 14
5. A COMPARISON BETWEEN A CATALYTIC CONVERTER AND
THE MAGNETIZER : 19
6. OXIDES OF NITROGEN AND FUEL TREATMENT : 23
7. CONCLUSION : 24
8. REFERENCE : 25
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Fuel energizer
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INTRODUCTION
Todayâ„¢s hydrocarbon fuels leave a natural deposit of carbon
residue that clogs carburetor, fuel injector, leading to reduced efficiency
and wasted fuel. Pinging, stalling, loss of horsepower and greatly
decreased mileage on cars are very noticeable. The same is true of home
heating units where improper combustion wasted fuel (gas) and cost,
money in poor efficiency and repairs due to build-up.
Most fuels for internal combustion engine are liquid, fuels do not
combust until they are vaporized and mixed with air. Most emission
motor vehicle consists of unburned hydrocarbons, carbon monoxide and
oxides of nitrogen. Unburned hydrocarbon and oxides of nitrogen react in
the atmosphere and create smog. Smog is prime cause of eye and throat
irritation, noxious smell, plat damage and decreased visibility. Oxides of
nitrogen are also toxic.
Generally fuels for internal combustion engine is compound of
molecules. Each molecule consists of a number of atoms made up of
number of nucleus and electrons, which orbit their nucleus. Magnetic
movements already exist in their molecules and they therefore already
have positive and negative electrical charges. However these molecules
have not been realigned, the fuel is not actively inter locked with oxygen
during combustion, the fuel molecule or hydrocarbon chains must be
ionized and realigned. The ionization and realignment is achieved
through the application of magnetic field created by ËœFuel Energizerâ„¢.
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Fuel mainly consists of hydrocarbon and when fuel flows through a
magnetic field, such as the one created by the fuel energizer, the
hydrocarbon change their orientation and molecules of hydrocarbon
change their configuration. At the same time inter molecular force is
considerably reduced or depressed. These mechanisms are believed to
help disperse oil particles and to become finely divided. This has the
effect of ensuring that fuel actively interlocks with oxygen producing a
more complete burn in the combustion chamber. The result is higher
engine out put, better fuel economy and reduction in hydrocarbons,
carbon monoxide and oxides of nitrogen that are emitted though exhaust.
The ionization fuel also helps to dissolve the carbon build-up in
carburetor, jets, fuel injector and combustion chamber, there by keeping
the engines clear condition. Also it works on any vehicle or device
(cooking gas stove) using liquid or gas fuel.
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WHAT FUEL ENERGIZER DOES
¢More mileage (up to 28% increase) per liter due to 100%
burning fuel.
¢No fuel wastage.
¢Increased pick-up.
¢Reduced engine noise.
¢Reduced smoke.
¢Faster A/C cooling.
¢Smooth running, long term maintenance free engine.
¢30% extra life for expensive catalytic converter.
HOW IT INSTALL
Magnetizer fuel energizer (eg:- Neodymium super conductor “
NSCM) is installed on cars, trucks immediately before carburetor or
injector on fuel line. On home cooking gas system it is installed just
before burner.
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THE MAGNETIZER & HYDROCARBON FUEL
The simplest of hydrocarbons, methane, (CH4) is the major (90%)
constituent of natural gas (fuel) and an important source of hydrogen. Its
molecule is composed of one carbon atom and four hydrogen atoms, and
is electrically neutral. From the energy point of view, the greatest amount
of releasable energy lies in the hydrogen atom. Why In octane (C8H18)
the carbon content of the molecule is 84.2%. When combusted, the
carbon portion of the molecule will generate 12,244 BTU (per pound of
carbon). On the other hand, the hydrogen, which comprises only 15.8%
of the molecular weight, will generate an amazing 9,801 BTU of heat per
pound of hydrogen.
Hydrogen, the lightest and most basic element known to man, is
the major constituent of hydrocarbon fuels (besides carbon and smaller
amount of sulphur and inert gases). It has one positive charge (proton)
and one negative charge (electron), i.e. it possesses a dipole moment. It
can be either diamagnetic or paramagnetic (weaker or stronger response
to the magnetic flux) depending on the relative orientation of its nucleus
spins. Even though it is the simplest of all elements, it occurs in two
distinct isomeric varieties (forms) - para and ortho. It is characterized by
the different opposite nucleus spins. In the para H2 molecule, which
occupies the even rotation levels (quantum number), the spin state of one
atom relative to another is in the opposite direction ("counterclockwise",
"antiparallel", "one up & one down"), rendering it diamagnetic; whereas
in the ortho molecule, which occupies the odd rotational levels, the spins
are parallel ("clockwise", "coincident", "both up"), with the same
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orientation for the two atoms; therefore, is paramagnetic and a catalyst for
many reactions. Thus, the spin orientation has a pronounced effect on
physical properties (specific heat, vapor pressure) as well as behavior of
the gas molecule. The coincident spins render orthohydrogen exceedingly
unstable. In fact, orthohydrogen is more reactive than its parahydrogen
counterpart. The liquid hydrogen fuel that is used to power the space
shuttle or rockets is stored, for safety reasons, in the less energetic, less
volatile, less reactive parahydrogen form. During the start of the shuttle,
the orthohydrogen form is beneficial since it allows to intensify the
combustion processes. To secure conversion of para to ortho state, it is
necessary to change the energy of interaction between the spin state of the
H2 molecule.
________ _ _____________
Design of fuel energizers: a) fragment of a rocket fuel energizer
Ruskin, 1958)
: b) a"Magnetizer".(P.Kulish,1984
diagram of a part of fuel)
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ATOM OF HYDROGEN IN ITS PARA AND ORTHO STATE
Any utility patent must be proven operable and scientifically
correct before issuance. The same principle has been utilized, and the
same effect has been achieved by the action of the Magnetizer where a
strong enough flux field was developed to substantially change the
hydrocarbon molecule from its para state to the higher energized ortho
state. The spin effect of the fuel molecules can be ascertained optically,
based on refraction of light rays passing through liquid fuel as had been
demonstrated by scientists while using infrared cameras installed, e.g. in
metallurgical ovens where the Magnetizerâ„¢s had been effectively
working. Furthermore, the conversion of hydrogen into ortho H2 (taking
place very fast in this strong & unique magnetic field, with the
simultaneous transformation of the system from a symmetrical into
highly active anti-symmetrical molecular state of increased reactivity and
catalytic ability) has been found highly advantageous in many
technologies, especially those where hydrogen is used.
Hydrocarbons have basically a "cage-like" structure. That is why
oxidizing of their inner carbon atoms during the combustion process are
hindered. Furthermore, they bind into larger groups of pseudocompounds.
Such groups form clusters (associations). The access of
oxygen in the right quantity to the interior of the groups of molecules is
hindered. (It has nothing to do with incoming air from the manifold in the
fuel mixture when even though there may be excess of it, this will not
provide the required hydrocarbon-oxygen binding.) and stemming from
this shortage of oxygen to the cluster that hinders the full combustion. In
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order to combust fuel, proper quantity of oxygen from air is necessary for
it to oxidize the combustible agents.
For many years, designers of the internal combustion engines have
had one goal: to oppose the effect of molecular association of the
hydrocarbon fuel and to optimize the combustion process. The peculiar
problem in designing engines for air pollution is that in order to fully
burn all the hydrocarbons in the combustion chamber, operating
temperatures of the cylinders have had to be increased. While older
engines may have produced relatively large quantities of unburned
hydrocarbons and carbon monoxide, they produced low quantities of
oxides of nitrogen. Also, with the renewed interest in performance
engines, compression ratios are creeping upward again, and once again
the mechanism for producing higher levels of nitrogen toxins is
increased. Similarly, turbo charging effectively alters the compression
ratio of a vehicle, further adding to the nitrogen problem.
The feed and exhaust systems have been perfected, the ignition
controlling electronics has been perfected, the fuel/air mix metering
devices have been brought to perfection, and finally the catalytic
converters (see below) have been found indispensable. But even then,
fumes that leave the "afterburners" are not ideally clean - engine still
burns only part of the fuel (or precisely the incompletely oxidized carbon
atoms in the form of CO). The rest is discharged as polluting emissions
(HC, CO, NOx) or is deposited on the internal engine walls as black
carbon residue. All this has been caused by the incomplete combustion
process. The reasons for it being that:
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¢Hydrocarbons form the so-called associations, close
molecular groups, interior of which is deprived of access of the
suitable amount of air; the lack of oxygen impedes the full
combustion.
Note: The tendency of HC molecules to cluster causes local
macro-groupings (condensing) of molecules to clog the pipes and fuel
nozzles. The excess of air in the fuel mixture will not provide for the
complete combustion. Hence, the exhaust fumes contain considerable
amounts of unburned CO, HC, and soots.
¢Oxygen with negative 2 valence is negative, and
hydrocarbon has neutral molecular structures, which by passing
through steel fuel lines gets negatively (micro) charged. Therefore,
when these two atoms come together with the same potential in a
combustion chamber, they repel, which result in incomplete
combustion. Therefore, all serious research has been aimed at
bringing about fuel reactivity with oxygen (oxygenated fuels);
since increased oxidation means increased combustion, and the
following rules had to be taken into consideration:
Rule 1: Unburned hydrocarbon (HC) as well as carbon monoxide
(CO) emitted from a vehicle's exhaust system can be viewed as the
additional fuel reserve, since, if proper conditions are met, HC & CO can
be further burned in the combustion chamber. Therefore, creating such
proper combustion conditions is paramount.
Rule 2: Hydrogen's chemical reaction, determined by its valence
(the electron "surplus" in the "outer" orbital shell), is affected by a
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magnetic field since proper magnets are the prime source of control of the
position of electrons.
Rule 3: The application of a proper magnetic field enforces
beneficial changes in fuel structure and enhances its general reactivity in
the combustion process.
Rule 4: If a hydrocarbon molecule could better bind with oxygen
molecules
(be more completely oxidized), then the toxicity of fumes would be
considerably limited and in principle, one could dispense with catalytic
converters.
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HOW DOES MAGNETIZER ALLOW TO MEET THE
REQUIRMENTS OF RULE 1-4
¢Rule 1:
When hydrocarbon fuel (methane molecule) is combusted, the first
to be oxidized are the hydrogen atoms (or precisely electrons on their
outer shells). Only then, are the carbon atoms subsequently burned (CH4
+ 2O2 = CO2+ 2H2O). Since it takes less time to oxidize hydrogen atoms
in a high-speed internal combustion process, in normal conditions some
of the carbon will be only partially oxidized; this is responsible for the
incomplete combustion. Oxygen combines with hydrogen readily;
however, the carbon-oxygen reaction is far less energetic. We should
keep in mind: oxygen always has a valence of minus two. The valence of
carbon, on the other hand, can be plus or minus due to the configuration
of its four electrons in the outer shell, which requires a total of eight
electrons for completion. The optimum combustion efficiency
(performance) obtained from the Magnetizer application on fuel is first
indicated by the amount of increase in carbon dioxide (CO2) produced,
which has been validated by state emissions control devices.
Furthermore, as the pollutants decrease, the combustion efficiency
increases. The drop of HC & CO emissions is easily proven by
comparative gas flue analysis & opacimeter emissions tests. The
stoichiometric tests indicate reduction in hydrocarbon HC (unburned fuel)
approx. 75 - up to 92% and carbon monoxide (CO) up to 99.9%, due to
the Magnetizer use. Remember, as HC goes down, mileage goes up. This
results in scientifically measurable emission reduction/combustion
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efficiency ratio and an average increase in mileage of 15-25%. Since the
Fuel Energizer saves fuel by increasing combustion efficiency, less CO is
being emitted; thereby, less fuel is being used. In principal, the lowest
fuel savings occur in the range velocity of the maximum torque, when the
highest increase of horsepower can be noted (about 10 HP); the
Magnetizer giving a trade-off between driving a Porsche versus
Volkswagen.
¢Rule 2
Altering the spin properties of the outer shell ("valence") electron
enhances the reactivity of the fuel (and related combustion process). The
higher energized spin state of hydrogen molecule clearly shows a high
electrical potential (reactivity), which attracts additional oxygen.
Combustion engineering teaches that additional oxygenation increases
combustion efficiency; therefore, by altering the spin properties of the H2
molecule, we can give rise to its magnetic moment and enhance the
reactivity of the hydrocarbon fuel and ameliorate the related combustion
process. The Magnetizer 's extremely strong magnetic field, with
sufficient flux density to have the required affect on fluid passing through
it, substantially changes the isomeric form of the hydrocarbon atom from
its para-hydrogen state to the higher energized, more volatile, ortho state,
thus attracting additional oxygen. Fuel structure and properties, such as
e.g. electrical conductivity, density, viscosity, or light extinction are
changed; its macrostructure beneficially homogenized
¢Rule 3
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Hydrocarbon molecules form clusters called "associations." It has
been technically possible to enhance van der Waals' discovery due to the
application of the Magnetizer, a high power, permanent magnetic device,
strong enough to break down, i.e. de-cluster these HC associations. They
become normalized & independent, distanced from each other, having
bigger surface available for binding (attraction) with more oxygen (better
oxidation). A simple analogy is of burning coal dust and a coal bricket.
There, where one aims at higher efficiency, during the combustion
process, one has to give a molecule the greater access to oxygen. In case
of burning of powdered coal dust, adding of oxygen may even cause
explosions. Thus, with our fuel energizer, the oxygenation and the
combustion efficiency increase. Fuel is more active and dynamic, and the
combustion process faster and more complete. These "new" hydrocarbon
molecules have one more important characteristic: they not only dissolve
and eliminate carbon varnish in the combustion chambers, on the surface
of jet nozzles, spark plugs and exhaust pipe, but do not allow new and
harmful deposits to reform. Furthermore, the energizer's work ensures
better performance of carburetor or fuel injectors, makes start ups easier,
considerably increases driving dynamics, etc. The power and torque in
the whole range of rotational velocity of crankshaft also go up. Thanks to
de-clustering of hydrogen molecules, in the combustion chamber,
increased saturation & reactivity of the fuel mixture with oxygen is
achieved, resulting in a more complete oxidation of the primary hydrogen
element and further oxidation of carbon ©, the secondary fuel element,
since, in accordance with van der Waals discovery of a weak clustering
force, there is a very strong binding of hydrocarbons with oxygen in such
magnetized fuel, which ensures optimal burning of the mixture in the
engine chamber. The positively charged fuel, so to speak, swells,
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thickens, and needs larger quantity of air, which is easily remedied by
adjusting the change in air/fuel ratio in carbureted cars. When we attach
the Magnetizer unit to the fuel line of an automobile (before carburetor,
in tandem series, placed 1/4" apart, or in Fuel Injection Systems - on fuel
line to the injectors + before the injection pump; make sure it is not in
contact with the engine's metal parts), we see an immediate (approx. after
5 min., 4-5 miles/6-8 kms upon start-up) drop in unburned hydrocarbons
and carbon monoxide due to the magnetic conditioning of the fuel which
makes it more reactive. As explicitly stated in our instructions, upon the
Magnetizer installation (5-10 minutes thereafter) engine will undergo the
so-called "Stabilization Period", i.e. the time of the gradual disappearance
of prior carbon varnish sediments and the total magnetic saturation of all
ferromagnetic metal parts of the feeding system between the installed
energizer and the combustion chamber in order to fully activate fuel. The
initial saturation lasts about a week (even though in the past we received
positive reports already after 2-3 days upon installation), while the
complete engine cleaning from the carbon residue lasts about 30 to 70
days (old engines). On passenger cars this means about 1,000-1,125 miles
(1600-1800 kms) driven (depending on vehicle class, age, internal
cleanliness of its engine, driving habits, etc.), on trucks - about 1,250-
2,000 miles (2,000-3,200 kms). When after a month from the correct
installation, the improvement is not readily apparent, it is caused by too
little amount of oxygen in the fuel mixture. One has then to change the
dirty or oiled air filter and adjust the carburetor in order to increase the
amount of air in the mixture (make it leaner) or adjust fuel pressure of a
diesel pump to restore the O2 level to where it was prior to the energizer's
installation. Fuel injected cars are self-adjustable, with the exception of
quite rare cases when the lambda (excess air) probe has been worn out
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(needs replacement) and the system "overrides" the Magnetizer 's action.
Ideally, the adjustment should be done by the professional diagnostic
station, which based on the exhaust analysis will optimally adjust the
engine. Without the adjustment, the Magnetizer can cause the effect
reverse from the required. Also, in the first intensive phase of
decarbonization there may be a disturbance in the engine's work and
unstable fuel consumption caused by the temporary clogging of jet
nozzles by the liquidated deposits. The temporary occlusions are removed
in a natural way. At that time it is not recommended to do the engine
adjustment. However, during the Stabilization Period the periodic oil
change is recommended. Subsequently, one has again to change oil after
the Stabilization Period. Compared to savings during the exploitation of
the vehicle and extending the engine's life, this is a really small
investment..
¢Rule 4
The chief function and purpose of a catalytic converter is to
convert engine's unburned hydrocarbons and reduce by oxidizing
(burning), all carbon monoxide (CO) to carbon dioxide (CO2) and water
(vapor). A converter neutralizes exhaust, which has left the combustion
chamber of an engine. Such exhaust is less toxic, but the energy from
such an after-burning process is not utilized. While catalytic converters
are designed to function beyond 5 years and 50,000 miles (80,000 kms),
there are problems that can occur (trace amounts of oil escaping to the
exhaust, etc.) that can dramatically shorten their life (destroy them).
Example: the sticking-on of an automatic choke will, within a short
period of time, cause catalytic converter to overheat and go into
meltdown due to an excessively rich mixture.
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The melting of a catalytic converter will cause the gas passages to
clog, which in turn will overheat and burn the engine exhaust valves.
A COMPARISON BETWEEN A CATALYTIC
CONVERTER AND THE "MAGNETIZER":
1 Most catalytic converters require air pumps to initiate catalysis.
Air pumps rob power from the engine, reduce fuel economy, and are
costly to install. Catalytic converters with air pumps reduce gas mileage -
the Magnetizer increases gas mileage and performance.
2 Catalytic converters require a light-off temperature to be attained
before they become operative (between 3 to 5 miles). Cold converter does
not work, so the exhaust fumes right after start-up are equally toxic as
without it. The Magnetizer is instantaneous.
3 Catalytic converters are subject to meltdown under rich gas
mixtures - the Magnetizer is not. It is a fully permanent device.
4 The Magnetizer can easily be transferred from car to car with
almost no labor. Converters cannot.
5 The Magnetizer units cost a fraction of the cost of the catalytic
converter system.
6 Since catalytic converters reduce power and eventually go bad,
they are subject to being removed; they are often not replaced because of
the high cost and reduced engine performance.
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7 Use of the unleaded gas does eliminate the problem of the most
toxic lead compounds, but there is an increase in the air of other
carcinogenic substances; the exhaust problem comes around. Very often
unleaded gas is transported in the same tank trucks that carry "normal"
gasoline with the lead additives. From daily practice we know that even
trace quantities of lead are sufficient to destroy ("poison") a converter. As
a result, the amount of toxic substances released to the atmosphere can
subsequently increase. The Magnetizer works well and with excellent
results on all types of fuel - unleaded, as well as leaded gasoline, diesel,
or liquid petroleum gas (LPG).
8 Catalytic converters have a finite lifetime under optimal
conditions, shorter under adverse conditions. It is important to note that
although it takes a bit of time for the Magnetizer fuel system to stabilize,
one finds the "Magnetizer Energizer Systems" constantly work better and
better as time goes on (see the comment on the "Stabilization Period"
below).
9 The Magnetizer is totally friendly to the environment. The
converter is not fully so. The traces of oil that escape to exhaust not only
can destroy the action of a converter (the car becoming instantly a
polluter), but what is even worse, they are the cause of small amount of
highly toxic chemical compounds such as prussic acid; sulphuretted
hydrogen; and platinum compounds released to the atmosphere.
As emphatically stated by Hannover-based, world-reknowned
German scientist, Dr. Hans A. Nieper, President of the German Society of
Oncology, et al., author of 320 scientific articles, essays, & books: "First
of all, all catalytic converters should be removed from cars as soon as
Fuel energizer
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possible". The reason - nerve gas (phosphoric esters) being generated by
the automotive catalytic converters. Those interested further are referred
to Dr. Nieper's article "Nerve Gas from Catalytic Converters", which
appeared in the September 1995 issue of the NEXUS magazine.
Waver Motors port Co. from Poland offers the highest quality
engine tuning with the use of the American measuring devices, "Super
chips," in one of the most modern test benches in Europe called "Super
flow". The owner of Waver, Mr. Andrzej Zajàc, did an experiment by
putting the Magnetizer on Engine Energizer System on and ... cutting
off a catalytic converter on his Opel Calibra Turbo. The results have been
"unbelievable": CO on idle went down from 0.5 to 0.2, HC lowered from
100 to 70, and the car, which should burn 15 liters per 100 km (15.9
miles per gallon) uses now, according to information received from Mr.
A. Zajàc, 11 liters per 100 km (21.7 miles per gallon) - almost a 27% fuel
saving.
As related in stoichiometric charts representing ideal combustion
parameters (see below), the highest burning efficiency will be achieved at
the highest carbon dioxide level, since carbon dioxide cannot be
subsequently oxidized. The amazing part is that apart from the
"converter-less" carbureted cars, the Magnetizer reduces emissions on
cars with catalytic converters. The increased combustion efficiency is
occurring within the engine due to increased fuel reactivity with oxygen
(increased oxidation), the main factor responsible for increased
combustion efficiency. It is a complete waste to allow an engine to run
inefficiently and to burn the excess carbon monoxide in its catalytic
converter, the wasted heat merely "heating up" the exhaust system instead
of providing useful work within the engine. By establishing the correct
Fuel energizer
Mechanical engineering .
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fuel burning parameters through proper magnetic means, we can be
assured that an internal combustion engine is getting the maximum
energy per gallon of fuel, as well as providing the environment with the
lowest possible level of toxic emissions.
___________ _______
Fuel energizer
Mechanical engineering .
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OXIDES OF NITROGEN AND THE MAGNETIZER
FUEL TREATMENT
One of the chief reasons for the Magnetizer to have possibility to
lower the NOx level, as reported elsewhere, is due to the low reactivity of
nitrogen gas. If we can bind up all the available oxygen with the
hydrocarbon fuel, there simply will be no oxygen left over to form the
unwanted nitrogen compounds. It appears that magnetic treatment is the
simplest means of achieving this feat. As documented by numerous state
certified emissions tests, the Magnetizer fuel treatment has shown
decreases in unburned hydrocarbon by 75-100% and CO reductions of
90-100%. Stoichiometrically, there is very little oxygen left to produce
any additional toxic compounds with nitrogen.
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CONCLUSION
By establishing correct fuel burning parameters through proper
magnetic means (Fuel Energizer) we can assumed that an internal
combustion engine is getting maximum energy per liter as well as
environment with lowest possible level toxic emission.
Fuel energizer
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REFERENCE
¢saver.com.
¢magnetimattress.com.
¢magnetizer.com
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FUEL ENERGIZER

ABSTRACT


In this era of increasing fuel prices, here a device called ËœFUEL ENERGIZERâ„¢ help us to Reduce Petrol /Diesel /Cooking gas consumption up to 28%, or in other words this would equal to buying the fuel up to 28% cheaper prices.

When fuel flow through powerful magnetic field created by Magnetizer Fuel Energizer, The hydrocarbons change their orientation and molecules in them change their configuration. Result: Molecules get realigned, and actively into locked with oxygen during combustion to produce a near complete burning of fuel in combustion chamber.
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#5
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Fuel Energizer


INTRODUCTION

Today’s hydrocarbon fuels leave a natural deposit of carbon residue that clogs carburetor, fuel injector, leading to reduced efficiency and wasted fuel. Pinging, stalling, loss of horsepower and greatly decreased mileage on cars are very noticeable. The same is true of home heating units where improper combustion wasted fuel (gas) and cost, money in poor efficiency and repairs due to build-up.

Most fuels for internal combustion engine are liquid, fuels do not combust until they are vaporized and mixed with air. Most emission motor vehicle consists of unburned hydrocarbons, carbon monoxide and oxides of nitrogen. Unburned hydrocarbon and oxides of nitrogen react in the atmosphere and create smog. Smog is prime cause of eye and throat irritation, noxious smell, plat damage and decreased visibility. Oxides of nitrogen are also toxic.

Generally fuels for internal combustion engine is compound of molecules. Each molecule consists of a number of atoms made up of number of nucleus and electrons, which orbit their nucleus. Magnetic movements already exist in their molecules and they therefore already have positive and negative electrical charges. However these molecules have not been realigned, the fuel is not actively inter locked with oxygen during combustion, the fuel molecule or hydrocarbon chains must be ionized and realigned. The ionization and realignment is achieved through the application of magnetic field created by ‘Fuel Energizer’.


Fuel mainly consists of hydrocarbon and when fuel flows through a magnetic field, such as the one created by the fuel energizer, the hydrocarbon change their orientation and molecules of hydrocarbon change their configuration. At the same time inter molecular force is considerably reduced or depressed. These mechanisms are believed to help disperse oil particles and to become finely divided. This has the effect of ensuring that fuel actively interlocks with oxygen producing a more complete burn in the combustion chamber. The result is higher engine out put, better fuel economy and reduction in hydrocarbons, carbon monoxide and oxides of nitrogen that are emitted though exhaust. The ionization fuel also helps to dissolve the carbon build-up in carburetor, jets, fuel injector and combustion chamber, there by keeping the engines clear condition. Also it works on any vehicle or device (cooking gas stove) using liquid or gas fuel.WHAT FUEL ENERGIZER DOES?

• More mileage (up to 28% increase) per liter due to 100% burning fuel.
• No fuel wastage.
• Increased pick-up.
• Reduced engine noise.
• Reduced smoke.
• Faster A/C cooling.
• Smooth running, long term maintenance free engine.
• 30% extra life for expensive catalytic converter.

HOW IT INSTALL?

Magnetizer fuel energizer (eg:- Neodymium super conductor – NSCM) is installed on cars, trucks immediately before carburetor or injector on fuel line. On home cooking gas system it is installed just before burner.

Reply
#6
[attachment=5816]

FUEL ENERGIZER

ABSTRACT


In this era of increasing fuel prices, here a device called ‘FUEL
ENERGIZER’ help us to Reduce Petrol /Diesel /Cooking gas
consumption up to 28%, or in other words this would equal to buying the fuel up to 28% cheaper prices.

When fuel flow through powerful magnetic field created by
Magnetizer Fuel Energizer, The hydrocarbons change their orientation and molecules in them change their configuration. Result: Molecules get realigned, and actively into locked with oxygen during combustion to produce a near complete burning of fuel in combustion chamber.
Reply
#7
[attachment=5893]
FUEL ENERGIZER

ABSTRACT

In this era of increasing fuel prices, here a device called ‘FUEL
ENERGIZER’ help us to Reduce Petrol /Diesel /Cooking gas
consumption up to 28%, or in other words this would equal to buying the
fuel up to 28% cheaper prices.
When fuel flow through powerful magnetic field created by
Magnetizer Fuel Energizer, The hydrocarbons change their orientation
and molecules in them change their configuration. Result: Molecules get
realigned, and actively into locked with oxygen during combustion to
produce a near complete burning of fuel in combustion chamber.
Reply
#8
FUEL ENERGIZER
SEMINAR REPORT
By:
SREENIVAS.R
DEPARTMENT OF MECHANICAL ENGINEERING
LOURDES MATHA COLLEGE OF SCIENCE AND TECHNOLOGY

ABSTRACT

In this era of increasing fuel prices, here a device called ‘FUELENERGIZER’ help us to Reduce Petrol /Diesel /Cooking gas consumption up to 28%, or in other words this would equal to buying the fuel up to 28% cheaper prices. When fuel flow through powerful magnetic field created by Magnetizer Fuel Energizer, The hydrocarbons change their orientation and molecules in them change their configuration. Result: Molecules get realigned, and actively into locked with oxygen during combustion to produce a near complete burning of fuel in combustion chamber.

[attachment=7456]

INTRODUCTION

Today’s hydrocarbon fuels leave a natural deposit of carbon residue that clogs carburetor, fuel injector, leading to reduced efficiency and wasted fuel. Pinging, stalling, loss of horsepower and greatly decreased mileage on cars are very noticeable. The same is true of home heating units where improper combustion wasted fuel (gas) and cost, money in poor efficiency and repairs due to build-up. Most fuels for internal combustion engine are liquid, fuels do not combust until they are vaporized and mixed with air. Most emission motor vehicle consists of unburned hydrocarbons, carbon monoxide and oxides of nitrogen. Unburned hydrocarbon and oxides of nitrogen react in the atmosphere and create smog. Smog is prime cause of eye and throat irritation, noxious smell, plat damage and decreased visibility. Oxides of nitrogen are also toxic.
Generally fuels for internal combustion engine are compound of molecules. Each molecule consists of a number of atoms made up of number of nucleus and electrons, which orbit their nucleus. Magnetic movements already exist in their molecules and they therefore already have positive and negative electrical charges. However these molecule shave not been realigned, the fuel is not actively inter locked with oxygen during combustion, the fuel molecule or hydrocarbon chains must be and realigned. The ionization and realignment is achieved through the application of magnetic field created by ‘Fuel Energizer’.






Fuel mainly consists of hydrocarbon and when fuel flows through a magnetic field, such as the one created by the fuel energizer, the hydrocarbon change their orientation and molecules of hydrocarbon change their configuration. At the same time inter molecular force is considerably reduced or depressed. These mechanisms are believed to help disperse oil particles and to become finely divided. This has the effect of ensuring that fuel actively interlocks with oxygen producing a more complete burn in the combustion chamber. The result is higher engine out put, better fuel economy and reduction in hydrocarbons, carbon monoxide and oxides of nitrogen that are emitted though exhaust.
The ionization fuel also helps to dissolve the carbon build-up in carburetor, jets, fuel injector and combustion chamber, thereby keeping the engines clear condition. Also it works on any vehicle or device (cooking gas stove) using liquid or gas fuel.

WHAT FUEL ENERGIZER DOES?

• More mileage (up to 28% increase) per liter due to 100% burning fuel.
• No fuel wastage.
• Increased pick-up.
• Reduced engine noise.
• Reduced smoke.
• Faster A/C cooling.
• Smooth running, long term maintenance free engine.
• 30% extra life for expensive catalytic converter.

HOW IT INSTALL?
Magnetizer fuel energizer (eg:- Neodymium super conductor –NSCM) is installed on cars, trucks immediately before carburetor or injector on fuel line. On home cooking gas system it is installed just before burner.

THE MAGNETIZER & HYDROCARBON FUEL

The simplest of hydrocarbons, methane, (CH4) is the major (90%) constituent of natural gas (fuel) and an important source of hydrogen. Its molecule is composed of one carbon atom and four hydrogen atoms, and is electrically neutral. From the energy point of view, the greatest amount of releasable energy lies in the hydrogen atom. Why? In octane (C8H18)the carbon content of the molecule is 84.2%. When combusted, the carbon portion of the molecule will generate 12,244 BTU (per pound of carbon). On the other hand, the hydrogen, which comprises only 15.8%of the molecular weight, will generate an amazing 9,801 BTU of heat per pound of hydrogen. Hydrogen, the lightest and most basic element known to man, is the major constituent of hydrocarbon fuels (besides carbon and smaller amount of sulphur and inert gases). It has one positive charge (proton)and one negative charge (electron), i.e. it possesses a dipole moment. It can be either diamagnetic or paramagnetic (weaker or stronger response to the magnetic flux) depending on the relative orientation of its nucleus spins. Even though it is the simplest of all elements, it occurs in two distinct isomeric varieties (forms) - Para and ortho. It is characterized by the different opposite nucleus spins. In the Para H2 molecule, which occupies the even rotation levels (quantum number), the spin state of one atom relative to another is in the opposite direction ("counterclockwise","antiparallel", "one up & one down"), rendering it diamagnetic; where as in the ortho molecule, which occupies the odd rotational levels, the spins are parallel ("clockwise", "coincident", "both up"), with the same orientation for the two atoms; therefore, is paramagnetic and a catalyst for many reactions. Thus, the spin orientation has a pronounced effect on physical properties (specific heat, vapor pressure) as well as behavior of the gas molecule. The coincident spins render ortho hydrogen exceedingly unstable. In fact, orthohydrogen is more reactive than its para hydrogen counterpart. The liquid hydrogen fuel that is used to power the space shuttle or rockets is stored, for safety reasons, in the less energetic, less volatile, less reactive para hydrogen form. During the start of the shuttle, the ortho hydrogen form is beneficial since it allows to intensify the combustion processes. To secure conversion of para to ortho state, it isnecessary to change the energy of interaction between the spin state of theH2 molecule.




__


ATOM OF HYDROGEN IN ITS PARA AND ORTHO STATE

Any utility patent must be proven operable and scientifically correct before issuance. The same principle has been utilized, and the same effect has been achieved by the action of the Magnetizer where a strong enough flux field was developed to substantially change the hydrocarbon molecule from its para state to the higher energized ortho state. The spin effect of the fuel molecules can be ascertained optically, based on refraction of light rays passing through liquid fuel as had been demonstrated by scientists while using infrared cameras installed, e.g. in metallurgical ovens where the Magnetizer’s had been effectively working. Furthermore, the conversion of hydrogen into ortho H2 (taking place very fast in this strong & unique magnetic field, with the simultaneous transformation of the system from a symmetrical into highly active anti-symmetrical molecular state of increased reactivity and catalytic ability) has been found highly advantageous in many technologies, especially those where hydrogen is used. Hydrocarbons have basically a "cage-like" structure. That is why oxidizing of their inner carbon atoms during the combustion process are hindered. Furthermore, they bind into larger groups of pseudo compounds. Such groups form clusters (associations). The access of oxygen in the right quantity to the interior of the groups of molecules is hindered. (It has nothing to do with incoming air from the manifold in the fuel mixture when even though there may be excess of it, this will not provide the required hydrocarbon-oxygen binding.) and stemming from this shortage of oxygen to the cluster that hinders the full combustion. In order to combust fuel, proper quantity of oxygen from air is necessary for it to oxidize the combustible agents.
For many years, designers of the internal combustion engines have had one goal: to oppose the effect of molecular association of the hydrocarbon fuel and to optimize the combustion process. The peculiar problem in designing engines for air pollution is that in order to fully burn all the hydrocarbons in the combustion chamber, operating temperatures of the cylinders have had to be increased. While older engines may have produced relatively large quantities of unburned hydrocarbons and carbon monoxide, they produced low quantities of oxides of nitrogen. Also, with the renewed interest in performance engines, compression ratios are creeping upward again, and once again the mechanism for producing higher levels of nitrogen toxins is increased. Similarly, turbo charging effectively alters the compression ratio of a vehicle, further adding to the nitrogen problem. The feed and exhaust systems have been perfected, the ignition
controlling electronics has been perfected, the fuel/air mix metering devices have been brought to perfection, and finally the catalytic converters (see below) have been found indispensable. But even then, fumes that leave the "afterburners" are not ideally clean - engine still burns only part of the fuel (or precisely the incompletely oxidized carbon atoms in the form of CO). The rest is discharged as polluting emissions (HC, CO, NOx) or is deposited on the internal engine walls as black carbon residue. All this has been caused by the incomplete combustion process. The reasons for it being that:

• Hydrocarbons form the so-called associations, close molecular groups, interior of which is deprived of access of the suitable amount of air; the lack of oxygen impedes the full
Combustion.
Note: The tendency of HC molecules to cluster causes local macro-groupings (condensing) of molecules to clog the pipes and fuel nozzles. The excess of air in the fuel mixture will not provide for the complete combustion. Hence, the exhaust fumes contain considerable amounts of unburned CO, HC, and soot.
• Oxygen with negative 2 valence is negative, and hydrocarbon has neutral molecular structures, which by passing through steel fuel lines gets negatively (micro) charged. Therefore, when these two atoms come together with the same potential in a combustion chamber, they repel, which result in incomplete combustion. Therefore, all serious research has been aimed at bringing about fuel reactivity with oxygen (oxygenated fuels);
since increased oxidation means increased combustion, and the following rules had to be taken into consideration:





Rule 1: Unburned hydrocarbon (HC) as well as carbon monoxide (CO) emitted from a vehicle's exhaust system can be viewed as the Additional fuel reserve, since, if proper conditions are met, HC & CO can be further burned in the combustion chamber. Therefore, creating such
proper combustion conditions is paramount.


Rule 2: Hydrogen's chemical reaction, determined by its valence (the electron "surplus" in the "outer" orbital shell), is affected by a magnetic field since proper magnets are the prime source of control of the position of electrons.

Rule 3: The application of a proper magnetic field enforces
beneficial changes in fuel structure and enhances its general reactivity in the
combustion process.
Rule 4: If a hydrocarbon molecule could better bind with oxygen
Molecules (be more completely oxidized), then the toxicity of fumes would be
considerably limited and in principle, one could dispense with catalytic converters.

HOW DOES MAGNETIZER ALLOW TO MEET THE REQUIRMENTS OF RULE1-4


•RULE 1:

When hydrocarbon fuel (methane molecule) is combusted, the first to be oxidized are the hydrogen atoms (or precisely electrons on their outer shells). Only then, are the carbon atoms subsequently burned (CH4 + 2O2 = CO2+ 2H2O). Since it takes less time to oxidize hydrogen atoms in a high-speed internal combustion process, in normal conditions some
of the carbon will be only partially oxidized; this is responsible for the incomplete combustion. Oxygen combines with hydrogen readily; however, the carbon-oxygen reaction is far less energetic. We should keep in mind: oxygen always has a valence of minus two. The valence of carbon, on the other hand, can be plus or minus due to the configuration of its four electrons in the outer shell, which requires a total of eight electrons for completion. The optimum combustion efficiency (performance) obtained from the Magnetizer application on fuel is first indicated by the amount of increase in carbon dioxide (CO2) produced, which has been validated by state emissions control devices. Furthermore, as the pollutants decrease, the combustion efficiency
increases. The drop of HC & CO emissions is easily proven by comparative gas flue analysis & opacimeter emissions tests. The stoichiometric tests indicate reduction in hydrocarbon HC (unburned fuel) approx. 75 - up to 92% and carbon monoxide (CO) up to 99.9%, due to the Magnetizer use. Remember, as HC goes down, mileage goes up. This results in scientifically measurable emission reduction/combustion efficiency ratio and an average increase in mileage of 15-25%. Since the Fuel Energizer saves fuel by increasing combustion efficiency, less CO is being emitted; thereby, less fuel is being used. In principal, the lowest fuel savings occur in the range velocity of the maximum torque, when the highest increase of horsepower can be noted (about 10 HP); the Magnetizer giving a trade-off between driving a Porsche versus Volkswagen.

•RULE 2

Altering the spin properties of the outer shell ("valence") electron enhances the reactivity of the fuel (and related combustion process). The higher energized spin state of hydrogen molecule clearly shows a high electrical potential (reactivity), which attracts additional oxygen. Combustion engineering teaches that additional oxygenation increases combustion efficiency; therefore, by altering the spin properties of the H2 molecule, we can give rise to its magnetic moment and enhance the reactivity of the hydrocarbon fuel and ameliorate the related combustion process. The Magnetizer 's extremely strong magnetic field, with sufficient flux density to have the required affect on fluid passing through it, substantially changes the isomeric form of the hydrocarbon atom from its para-hydrogen state to the higher energized, more volatile, ortho state, thus attracting additional oxygen. Fuel structure and properties, such as e.g. electrical conductivity, density, viscosity, or light extinction are changed; its macrostructure beneficially homogenized

•RULE 3
Hydrocarbon molecules form clusters called "associations." It has been technically possible to enhance van der Waals' discovery due to the application of the Magnetizer, a high power, permanent magnetic device, strong enough to break down, i.e. de-cluster these HC associations. They become normalized & independent, distanced from each other, having bigger surface available for binding (attraction) with more oxygen (better oxidation). A simple analogy is of burning coal dust and a coal bricked. There, where one aims at higher efficiency, during the combustion process, one has to give a molecule the greater access to oxygen. In case of burning of powdered coal dust, adding of oxygen may even cause explosions. Thus, with our fuel energizer, the oxygenation and the combustion efficiency increase. Fuel is more active and dynamic, and the combustion process faster and more complete. These "new" hydrocarbon molecules have one more important characteristic: they not only dissolve and eliminate carbon varnish in the combustion chambers, on the surface of jet nozzles, spark plugs and exhaust pipe, but do not allow new and harmful deposits to reform. Furthermore, the energizer's work ensures
better performance of carburetor or fuel injectors, makes start ups easier, considerably increases driving dynamics, etc. The power and torque in the whole range of rotational velocity of crankshaft also go up. Thanks to de-clustering of hydrogen molecules, in the combustion chamber, increased saturation & reactivity of the fuel mixture with oxygen is
achieved, resulting in a more complete oxidation of the primary hydrogen element and further oxidation of carbon ©, the secondary fuel element, since, in accordance with van der Waals discovery of a weak clustering force, there is a very strong binding of hydrocarbons with oxygen in such magnetized fuel, which ensures optimal burning of the mixture in the
engine chamber. The positively charged fuel, so to speak, swells, thickens, and needs larger quantity of air, which is easily remedied by adjusting the change in air/fuel ratio in carbureted cars. When we attach the Magnetizer unit to the fuel line of an automobile (before carburetor, in tandem series, placed 1/4" apart, or in Fuel Injection Systems - on fuel line to the injectors + before the injection pump; make sure it is not in contact with the engine's metal parts), we see an immediate (approx. after 5 min., 4-5 miles/6-8 kms upon start-up) drop in unburned hydrocarbons and carbon monoxide due to the magnetic conditioning of the fuel which makes it more reactive. As explicitly stated in our instructions, upon the Magnetizer installation (5-10 minutes thereafter) engine will undergo the so-called "Stabilization Period", i.e. the time of the gradual disappearance of prior carbon varnish sediments and the total magnetic saturation of all ferromagnetic metal parts of the feeding system between the installed energizer and the combustion chamber in order to fully activate fuel. The initial saturation lasts about a week (even though in the past we received positive reports already after 2-3 days upon installation), while the complete engine cleaning from the carbon residue lasts about 30 to 70 days (old engines). On passenger cars this means about 1,000-1,125 miles (1600-1800 kms) driven (depending on vehicle class, age, internal cleanliness of its engine, driving habits, etc.), on trucks - about 1,250- 2,000 miles (2,000-3,200 kms). When after a month from the correct installation, the improvement is not readily apparent, it is caused by too little amount of oxygen in the fuel mixture. One has then to change the dirty or oiled air filter and adjust the carburetor in order to increase the amount of air in the mixture (make it leaner) or adjust fuel pressure of a diesel pump to restore the O2 level to where it was prior to the energizer's installation. Fuel injected cars are self-adjustable, with the exception of quite rare cases when the lambda (excess air) probe has been worn out(needs replacement) and the system "overrides" the Magnetizer 's action.Ideally, the adjustment should be done by the professional diagnostic station, which based on the exhaust analysis will optimally adjust the engine. Without the adjustment, the Magnetizer can cause the effect reverse from the required. Also, in the first intensive phase of decarbonization there may be a disturbance in the engine's work and unstable fuel consumption caused by the temporary clogging of jet nozzles by the liquidated deposits. The temporary occlusions are removed in a natural way. At that time it is not recommended to do the engine adjustment. However, during the Stabilization Period the periodic oil change is recommended. Subsequently, one has again to change oil after the Stabilization Period. Compared to savings during the exploitation of the vehicle and extending the engine's life, this is a really small investment..

RULE 4
The chief function and purpose of a catalytic converter is to convert engine's unburned hydrocarbons and reduce by oxidizing (burning), all carbon monoxide (CO) to carbon dioxide (CO2) and water (vapor). A converter neutralizes exhaust, which has left the combustion chamber of an engine. Such exhaust is less toxic, but the energy from such an after-burning process is not utilized. While catalytic converters are designed to function beyond 5 years and 50,000 miles (80,000 kms), there are problems that can occur (trace amounts of oil escaping to the exhaust, etc.) that can dramatically shorten their life (destroy them).
Example: the sticking-on of an automatic choke will, within a short period of time, cause catalytic converter to overheat and go into melt down due to an excessively rich mixture.
The melting of a catalytic converter will cause the gas passages to clog, which in turn will overheat and burn the engine exhaust valves.

A COMPARISON BETWEEN A CATALYTIC CONVERTER AND THE "MAGNETIZER":

1. Most catalytic converters require air pumps to initiate catalysis. Air pumps rob power from the engine, reduce fuel economy, and are costly to install. Catalytic converters with air pumps reduce gas mileage - the Magnetizer increases gas mileage and performance.

2. Catalytic converters require a light-off temperature to be attained before they become operative (between 3 to 5 miles). Cold converter does not work, so the exhaust fumes right after start-up are equally toxic as without it. The Magnetizer is instantaneous.

3. Catalytic converters are subject to meltdown under rich gas mixtures - the Magnetizer is not. It is a fully permanent device.

4. The Magnetizer can easily be transferred from car to car with
almost no labor. Converters cannot.

5. The Magnetizer units cost a fraction of the cost of the catalytic
converter system.

6. Since catalytic converters reduce power and eventually go bad,
they are subject to being removed; they are often not replaced because of
the high cost and reduced engine performance.

7 Use of the unleaded gas does eliminate the problem of the most toxic lead compounds, but there is an increase in the air of other carcinogenic substances; the exhaust problem comes around. Very often unleaded gas is transported in the same tank trucks that carry "normal" gasoline with the lead additives. From daily practice we know that even
trace quantities of lead are sufficient to destroy ("poison") a converter. As a result, the amount of toxic substances released to the atmosphere can subsequently increase. The Magnetizer works well and with excellent results on all types of fuel - unleaded, as well as leaded gasoline, diesel, or liquid petroleum gas (LPG).

8 Catalytic converters have a finite lifetime under optimal conditions, shorter under adverse conditions. It is important to note that although it takes a bit of time for the Magnetizer fuel system to stabilize, one finds the "Magnetizer Energizer Systems" constantly work better and better as time goes on (see the comment on the "Stabilization Period" below).

9 The Magnetizer is totally friendly to the environment. The converter is not fully so. The traces of oil that escape to exhaust not only can destroy the action of a converter (the car becoming instantly a polluter), but what is even worse, they are the cause of small amount of highly toxic chemical compounds such as prussic acid; sulphuretted hydrogen; and platinum compounds released to the atmosphere. As emphatically stated by Hannover-based, world-reknowned German scientist, Dr. Hans A. Nieper, President of the German Society of Oncology, et al., author of 320 scientific articles, essays, & books: "First of all, all catalytic converters should be removed from cars as soon as possible". The reason - nerve gas (phosphoric esters) being generated by the automotive catalytic converters. Those interested further are referred
to Dr. Nieper's article "Nerve Gas from Catalytic Converters", which appeared in the September 1995 issue of the NEXUS magazine. Waver Motors port Co. from Poland offers the highest quality engine tuning with the use of the American measuring devices, "Super chips," in one of the most modern test benches in Europe called "Super flow". The owner of Waver, Mr. Andrzej Zajàc, did an experiment by putting the Magnetizer on Engine Energizer System on and ... cutting off a catalytic converter on his Opel Calibra Turbo. The results have been "unbelievable": CO on idle went down from 0.5 to 0.2, HC lowered from 100 to 70, and the car, which should burn 15 liters per 100 km (15.9 miles per gallon) uses now, according to information received from Mr.A. Zajàc, 11 liters per 100 km (21.7 miles per gallon) - almost a 27% fuel saving.
As related in stoichiometric charts representing ideal combustion parameters (see below), the highest burning efficiency will be achieved at the highest carbon dioxide level, since carbon dioxide cannot be subsequently oxidized. The amazing part is that apart from the "converter-less" carbureted cars, the Magnetizer reduces emissions on cars with catalytic converters. The increased combustion efficiency is occurring within the engine due to increased fuel reactivity with oxygen (increased oxidation), the main factor responsible for increased combustion efficiency. It is a complete waste to allow an engine to run inefficiently and to burn the excess carbon monoxide in its catalytic converter, the wasted heat merely "heating up" the exhaust system instead of providing useful work within the engine. By establishing the correctfuel burning parameters through proper magnetic means, we can be assured that an internal combustion engine is getting the maximum energy per gallon of fuel, as well as providing the environment with the lowest possible level of toxic emissions.

OXIDES OF NITROGEN AND THE MAGNETIZER FUEL TREATMENT

One of the chief reasons for the Magnetizer to have possibility to lower the NOx level, as reported elsewhere, is due to the low reactivity of nitrogen gas. If we can bind up all the available oxygen with the hydrocarbon fuel, there simply will be no oxygen left over to form the unwanted nitrogen compounds. It appears that magnetic treatment is the
simplest means of achieving this feat. As documented by numerous state certified emissions tests, the Magnetizer fuel treatment has shown decreases in unburned hydrocarbon by 75-100% and CO reductions of 90-100%. Stoichiometrically, there is very little oxygen left to produce any additional toxic compounds with nitrogen.


EFFECT OF INCOMPLETE COMBUSTION

 Fuel wastage
 Reduced efficiency
 High toxicity
 Loss of horse power
 Decreased mileage

INSTALLATION OF FUEL ENERGIZER

Magnetic fuel energizer is installed in cars , trucks immediately before carburetor or injector on fuel line . On home cooking gas system it is installed just before burner.



MAGNETIZER SYSTEM





ADVANTAGES

 More mileage (up to 28% increase) per liter due to 100% burning fuel.
 No fuel wastage
 Increased pick-up
 Reduced engine noise
 Reduced smoke
 Smooth running, long term maintenance free engine
 30% extra life for expensive catalytic converter


APPLICATIONS
 Locomotive/trains
 Gas cylinders
 Construction equipments
 Generators, scooters, cars, trucks

CONCLUSION

By establishing correct fuel burning parameters through proper magnetic means we can assume that an IC Engine is getting maximum energy per liter as well as environment with lowest possible level toxic emission

REFERENCE

• saver.com.
• magnetimattress.com.
• magnetizer.com
Reply
#9

plz plz i want working of fuel energizer
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