Thomas Kasmer -- Hydristor

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**Thomas KASMER**

**Hydristor**

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![](kasmer.jpeg)

**Thomas Kasmer**

**http://www.hydristor.com**   
**tkasmer@yahoo.com**

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**[US
Patent # 6,022,201 --- Hydraulic Vane Pump with Flexible
Band Control](6022201.htm)**   
**[US Patent # 6,527,525
--- Hydristor Control Means](6527525.htm)**   
**[US Patent # 6,612,117
--- Hydristor Heat Pump](6612117.htm)**   
**[US Patent
Application # 20050036897 --- Rotary Vane Pump Seal](050036897.htm)**

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**PESWiki.com ---**

The Hydristor is an infinitely variable vane
hydraulic pump/motor -- a simplified automatic transmission
with no gears, with regenerative storage capability, offering
to double or triple the mileage per gallon, and to cut
emissions by 75%. Vehicle performance will improve, enabling
any car to go from 0 to 60 in three seconds using stored
energy. Kasmer expects that the fuel-to-motion efficiency will
be as high as 80%, compared to the low 30% range of present.
The engine will last twice as long, because it can operate in
its optimal range, and it doesn't have   
to work as hard. Brake wear will be negligible.

The hydristor unit will come in 4-6 basic sizes
and will install inside the bell housing, replacing the
transmission and clutch. The engine will no longer be a direct
drive to the wheels, through the transmission, but will keep
the hydristor unit adequately charged, and the hydristor unit
will drive the wheels. The unit will store the energy from the
engine and from braking and from going down hill, to be used
for acceleration and speed maintenance. The engine could even
be turned off for stretches of driving, while the vehicle runs
on the stored energy.

Kasmer also envisions pneumatic air pressure
storage systems being employed that would enable up to 40
miles of travel without the engine running at all. A ten
gallon air tank compressed to 5,000 psi is enough energy to
propel a vehicle 40-50 miles. The Hydristor systems are being
engineered to hold 10,000 psi.

Another system Kasmer intends to include is a
heat pump that will harvest the heat from the exhaust and
radiator, to convert it into electricity. In another industry,
this heat pump principle could also be used for electricity
generation via the temperature difference between the ocean
and the air. Kasmer thinks this could be done at a price that
would compete with conventional energy sources. One Hydristor
hydraulic unit will handle up to ten separate, variable demand
tasks simultaneously.

**Interview:  
<http://www.pureenergysystems.com/news/Radio/Free_Energy_Now/recordings/2007/071022_TomKasmer_Hydristor.mp3>**
  
( Sterling D. Allan conducted a live, 1-hour interview with
Tom Kasmer as part of the http://freeenergynow.net radio
series )

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**<http://www.pressconnects.com> ( Sunday,
May 8, 2005 )**

**Hyping the
Hydristor**

**by JEFF PLATSKY**   
*Press & Sun-Bulletin*

*Vestal man travels across
country to promote new form of auto transmission*

He talks with the conviction of an evangelist on
a religious revival.

The eyes are penetrating. The conversation is
focused. His full, 6-foot, 2-inch frame and the head of wavy,
gray hair and youthful look belie this 65-year-old. It's hard
not to notice Thomas E. Kasmer. And if you give him a minute,
you won't soon forget him.

"Talking to Tom is like trying to take a sip out
of a fire hose," said Paul Robinson, an acquaintance from
Modesto, Calif.

Kasmer, of Vestal, just returned from a
7,000-mile journey -- driving a GMC box-van with a John Deere
lawn tractor tucked inside -- preaching the gospel of his
Hydristor to anyone who would listen.

Kasmer's odd-named Hydristor -- a combination of
hydraulics and transistor -- is a device that, he says, will
revolutionize the auto industry by cutting fuel costs,
providing more power and reducing emissions. The Vestal
resident boasts, with no hint of self-doubt, that his
invention, now installed in that lawn tractor, will not only
change the auto industry, but will also change the world.

"It changes the entire paradigm of the way
energy is handled," Robinson said.

That's a hard sell. And coming from an often
intense Kasmer -- a man who thought he could single-handedly
transform the auto industry a decade ago with a sports car
called the *Mag One* -- it's a sell that often stretches
the limits of plausibility. But there are enough experts
attesting to the feasibility of Kasmer's design to lend him at
least a hint of credibility.

The Hydristor, Kasmer says, replaces the
transmission and the torque converter in an internal
combustion engine, rendering it more efficient than
traditional methods.

"The Hydristor solves the age-old dilemma in the
auto industry," Kasmer said. "It gives them the power they
want in a car that lasts for more than eight years."

As explained by Alan L. Hitchcock, editor of *Hydraulics
& Pneumatics*, a trade magazine, the Hydristor is a
vane pump or motor that uses two pairs of pistons to vary the
shape of a flexible pumping chamber. Kasmer says coupling a
Hydristor pump back-to-back with a Hydristor motor forms a
continuously variable transmission.

"It's just like changing the sprockets on a
multi-speed bike," said Cliff Carlson, a former automotive
engineer in Fenton, Mich.

The device allows the engine to run at far lower
revolutions per minute than now possible to get the power
necessary to operate a vehicle, Kasmer said.

"We have asked some experts that we know about
the Hydristor," said Wayne Walker of Republic Aerospace in
Duncan, Okla. "The assessment is that it has potential and
would be a substantial advance and innovation."

Walker, chief executive of Republic, was one of
the many Kasmer visited during his cross-country trek. Walker
saw the Hydristor-outfitted lawn tractor and believes there
may be potential for this device to deliver the efficiencies
Kasmer claims.

"The efficiencies have to do with the continuous
nature of the transmission coupling," Walker said. "The
savings are in energy and there are savings in weight."

**Big 3 snub**

First, for Kasmer, there was the lawn tractor
prototype. Now comes the hard work. The man who has done
undergraduate and graduate work in physics at Binghamton
University and once worked for IBM Corp. is outfitting a Ford
Expedition with a Hydristor to further prove that the device
delivers the kind of performance he promised on the open road.

"The minute I get a Ford Expedition running
(with a Hydristor) I'm going to have to run from the
paparazzi," Kasmer said.

Kasmer, as you can tell, is no wallflower.
During his recent trip, he spent another five days in Las
Vegas in March pushing his Hydristor at a construction and
hydraulics trade show. The curious crowded around him. The
well-connected industry types largely ignored him.

There are plenty of skeptics, not least of which
is the auto industry. He says he's had limited discussions
with the Big Three, but interest is tepid at best.

"The auto industry is very resistant to change,"
he said.

And Kasmer acknowledges that investors too are
seemingly reluctant to shell out cash to pay for further
research on the device. All Kasmer offers is his vision for a
bold new world where the Hydristor is outfitted in every
virtually vehicle known to mankind.

"Everyone out there gets 100 guys just like me a
day," Kasmer said. "I'm fighting that. I'm kind of lost in the
sea."

Kasmer's battling history, which is rife with
eccentric inventors who say their contraption will
revolutionize this or that. Many turn out to be nothing but
frauds.

Hitchcock, the trade journal editor, knows the
charlatans. He gets variations of perpetual motion machines
pitched to him regularly.

Hitchcock, an engineer by training, was at first
doubtful of Kasmer's claims, but the more he studied the
theory and the applications of Kasmer's Hydristor the more he
became convinced that there may some merit in Kasmer's
approach.

"This is not a perpetual motion machine," said
Walker of *Republic Aerospace*. The trade journal editor
and auto industry engineer agree.

"He hasn't broken any laws of physics," Carlson
said. "In theory, it should work. The biggest advantage of his
system is that it's very small and compact. I don't think I've
seen a variable transmission as small and as simple as this."

**Unwilling to compromise**

Getting from prototype to production, however,
could be a large leap, especially for Kasmer, who is unwilling
to compromise his business principles in the name of
commercial success.

"I want to find financing where I don't have to
give up control," Kasmer said. And the strident tone of his
voice when speaking about the control of his invention, the
subject of three patents, gives you the sense that he means
it.

"Tom has every egalitarian, ethical goal in
mind," Robinson said. "He wants to generate a win-win
situation in all cases. He wants to see that the workers are
honored, the shareholders are honored and the world gets his
design."

Under Kasmer's scenario, the Hydristor will be
manufactured in the Southern Tier, giving rise to a new growth
industry for the region.

"I can have 5,000 people employed making
Hydristors," Kasmer said, also noting its possible use for
electric generation.

But the inventor readily acknowledges that he
would rather spend time tinkering with his invention than
drafting business plans. Getting the Hydristor from the
prototype into production could be even more difficult than
coming up with the invention. Kasmer is an independent spirit,
not one to take kindly to outside help.

"He would benefit from a synergistic,
experienced management team," said Walker, the experienced
chief executive.

The main question for Carlson is whether the
Hydristor can deliver the performance needed in the quiet
setting of a passenger automobile. These devices, Carlson
said, have the propensity to be quite noisy. Carlson wonders
whether the device could first be used in construction
machinery, where noise is less of a factor.

"He's got quite a ways to go before he can
commercialize this," Carlson said.

No matter what advice outsiders give him, Kasmer
will remain true to his cause. He expects the
Hydristor-outfitted Ford Expedition to be ready in two to
three months. He's confident that the three weeks he spent
toting that John Deere lawn tractor from Binghamton to Tulsa
to Las Vegas to Phoenix to Los Angeles to Bismark, N.D., to
Minneapolis to Chicago to Jamestown will win him some
much-needed financial and moral support.

"I'm going to keep on going because I know what
I'm doing is right," Kasmer said.

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***Business Week* (9-18-06)**

**Gas Saver Or Tailpipe Dream?**

**by David Welch**

*A new kind of
hybrid uses hydraulics instead of batteries to save fuel*

Thanks to high fuel prices, hybrid
gasoline-electric vehicles such as the Toyota Prius are
constantly in the limelight. But far away from that glow,
government scientists, auto parts engineers, and garage
inventors are toiling on a distinctly less glamorous way to
save fuel. It's a hybrid vehicle that pairs a gas engine with
a hydraulic transmission. You may associate hydraulics with
ancient, oily gear lifting heavy loads on farms and
construction sites. But like everything old, this is new
again.

Whenever gas prices shoot up, inventors and tech
companies come out of the woodwork, trumpeting the next
mileage-boosting miracle. And certainly there is room for
fresh thinking, since gas savings on hybrids and clean-diesel
vehicles can take four years or more to make up for the
difference in cost to the buyer. Maybe that's why parts makers
such as Eaton Corp. and BorgWarner Inc. and a lonely inventor
named Tom Kasmer are suddenly pushing hybrid hydraulic systems
for everything from delivery trucks and garbage haulers to
small cars and bicycles. The sales pitch: The hydraulic
approach is relatively inexpensive. "This could be a better
option than the hybrids on the road today," says Kasmer.

Hydraulic hybrids have been ignored because they
present big engineering challenges, noise being one. Even so,
Eaton and the Environmental Protection Agency teamed up with
United Parcel Service to put hydraulic delivery trucks on the
road. In tests, the prototypes get upwards of 50% better fuel
economy. Kasmer himself has failed to connect with a big
carmaker so far, but his hybrid approach, known as a
hydristor, has attracted interest from Bobcat Co., a
construction equipment maker. "The technology will start with
large commercial vehicles," says Sohan Uppal, vice-president
for research for Eaton's fluid systems group.

All hydraulic transmission systems have some
basic features in common. They begin with a low-pressure tank
filled with fluid, most often oil. When the driver hits the
brakes, the liquid is pumped into a high-pressure tank. The
pent-up fluid naturally wants to escape. But since it can't,
pressure builds and energy is stored. Then, when the driver
releases the brake and hits the accelerator, the liquid flows
back to the low-pressure tank. Along the way, the rushing
fluid turns vanes that rotate an axle, and the vehicle takes
off. Only later does the gas engine take over.

Gas-electric hybrids also achieve efficiency by
capturing energy from braking. But Kasmer claims his hydristor
would be cheaper than the computer controllers and batteries
in Prius-like hybrids. Working independently of Kasmer, the
EPA, Eaton, and BorgWarner reached the same conclusion.
BorgWarner put a prototype system in a Chinese-made subcompact
car, raising its mileage from 33 mpg to 40 in tests, says Bill
Kelly, vice-president for drive train development.

**PEDAL POWER**

It's in trucks, however, that the technology may
really prove its value. Eaton's Uppal says the company has
developed a system for garbage haulers that could reap
terrific fuel savings because the vehicles could make up to
nine stops in a row running on stored hydraulic power alone.
EPA project manager John Kargul says that for a variety of
trucks, the fuel savings from hydraulics could offset higher
sticker prices in less than three years -- a tall order for
today's pricier gas-electric hybrid designs.

Truly exotic applications may be at hand.
Stymied in Detroit, Kasmer is working with a major bicycle
maker that hopes to adapt his design to replace conventional
chains and gears. Such a bike might prove easier to build and
pedal because the hydristor would make seamless, gear-like
adjustments as the rider pumped up and down hills.

Detroit's carmakers say that they have good
reasons for keeping their distance. Thomas G. Stephens, group
vice-president for power train operations at General Motors
Corp., wrote in an e-mail that plenty of inventors have
tinkered with hydraulics or related ideas. Yet he doesn't see
how any could come close to doubling fuel economy, as Kasmer
has claimed. And no matter how big their benefits, hydraulic
systems are prone to leaks.

Then there's the noise issue. "[They] groan like
the landing gear on an airplane," admits Kelly of BorgWarner.
Considering their shaky financial situation, U.S. automakers
aren't likely to spend the research money needed to iron out
these kinks. They're even less likely to bet the $1 billion it
takes to scale up production of a new transmission, Kelly
says.

Kasmer still dreams of getting his hydristors
into passenger cars. But he has to work on his presentation.
When he spoke to a group of engineers at Munro &
Associates Inc., a Troy (Mich.) engineering consulting firm
with clients such as DaimlerChrysler and Boeing Co., the demo
impressed some of the engineers. But when they asked him for
technical details, he balked at giving away design secrets.
Instead, says Sandy Munro, principal of the firm and one of
Kasmer's financial backers, Kasmer lectured listeners about
cleaning up the air for tomorrow's children. The techies
wanted more info, and when it wasn't forthcoming, a few headed
for the door.

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**The Future Of The American Automobile?** **You Say Hydrogen, & I say
Hydristor**

An exclusive interview with Inventor Thomas
Kasmer. By Eric Haase (11/11/04, updated 09/14/06) Danielle
Randolph (copy editor); **United States Media Corps**.

Inventor Thomas Kasmer may have the killer app
for your cars addiction to the Paleolithic eras byproducts.
Hydrogen fuel cells are delayed in becoming integrated within
the automotive industry because of the required changes in
national infrastructure & a lingering liquid hydrogen
storage tank problem (among other problems).

Kasmer claims his Hydristor can be implemented
into the basic design of modern automobile drive trains to cut
fuel consumption in half and *increase*, NOT decrease
performance.

Perhaps equally important is the claim that most
autos on the road today can be rather inexpensively retrofit
with the hydristor. This would mean more immediate widespread
results that could ease stress on the environment to a
significant degree, while drastically reducing foreign oil
dependence, & thus discontinue lining enemy pockets with
U.S. money. It might be a bit harder to fly airplanes into
buildings halfway around the planet if youre broke.

There is quite a bit of technical information
available about Kasmers patented Hydristor system on the web
(follow the links at the end of the article for more
information), but I wanted to find out what makes a guy like
this tick. Kasmer developed the Hydristor virtually on his own
with investments he solicited from private financiers.

The Hydristor has literally been a lifetime in
the making. Hydristor combines the words hydraulic &
transistor. Kasmer claims the automotive application is but
one of the everyday needs this technology can revolutionize..
Or should I say 'evolutionize'.

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**<http://www.automorrow.com> ( March 1,
2003 )**

**Tom Kasmer and the "Hydristor".**

**by C. Koveleski, editor**

Thomas Kasmer was born in Binghamton, NY., and
at the age of 17 while attending high school he was awarded an
apprenticeship for the IBM electronic training program in
1957. After two years, Tom enrolled at Harpers College for a
curriculum of liberal arts in science. During this, he was
hired by IBM as a consultant, and designed and co-patented the
"Hydrapad", an automated hydraulic positioning drill for
circuit board manufacturing.

With an growing interest in high performance
automobiles, Tom purchased 1963 Buick Rivera with a variable
pitch "Dynaflow" transmission and a 425 cubic inch engine,
which "really cooked....". After some adolescent tendencies
for high speed, Tom joined the SCCA (Sports Car Club of
America ), attended a driver's school at Wakins Glen, NY. ,
and went on to compete at the White Face Mt. Hillclimb, racing
a 1962 split window Corvette in the summer of 1964.

With an innovative idea for power and torque
conversion on his mind, Tom decided he could do what no other
could; build an infinitely variable hydrostatic transmission
that was hydraulically and pressure balanced with the highest
efficiency and horsepower on demand.

After several years of prototype design work,
Tom's first "Hydristor" proved to have a 94% efficiency for
power transfer, as tested by Tecumseh Labs in Ann Arbor, MI.
Inside the Hydristor you will find two independent circuits
which are dual pressure balanced to minimize the torque shaft
load. Each circuit can operate at various speeds, in neutral,
and in reverse conditions. Surrounding an inner and outer
impeller vanes are two stainless steel belts, designed to
operate at high speed, and change shape to adjust the power
band to handle an infinite amount of ratios for power
conversion. The complete circuit is defined as a dual analog
hydraulic transistor. Tom anticipates over 100 patents are
involved and are currently in various forms of litigation.

After 30 years of electronic, hydrostatic,
magnetic, and industrial consulting, Tom Kasmer is ready to
take his "Hydristor" to market. Currently, Tom has built a
Hydristor specifically designed for a John Deere 200 series
tractor. The unit's outer casing was machined out of one cubic
foot of aluminum, and contains approx. 100 parts. The size of
the unit dramatically increases hydraulic packaging weighing
around 100 lbs., and able to transfer up to 100 horsepower
with a 94% efficiency. Standard torque conversion is at best
60% efficient.

What does this mean for the consumer? Imagine a
SUV with 100 miles per gallon? Or zero to 60 in 3 seconds? If
the efficiency for this type of hydrostatic power conversion
is available, and the Hydristor prototype is here... so what's
next? Tom's current plans are demonstrating the tractor, and
building a Hydristor to replace factory torque converters for
aftermarket installations. After that, the work will resume on
the Mag One, a dual flywheel hydristor high performance
concept car.

Q: What is a Hydristor? A: It is a dual-analog
hydrostatic transistor for mechanical energy conversion.

**From the Editor:**

On April 27, 2001, I was very fortunate to visit
with Tom Kasmer, inventor of the Hydrisor. It was several
years since our last conversation, and I was invited to
discuss the near-complete prototype he is currently designing.
I was quite excited to visit him in the machine shop, and get
a 'hands-on' description of the Hydristor.

Tom walked me through both the assembly of the
machined pieces, as well as a detailed item by item expanded
view on the CAD workstation. Since this patented device is a
prototype, I did not take any photos to respect Mr. Kasmer's
intellectual property, but I did receive permission to post a
link to a great technical article with images from Global
Design News.

Tom added that the current prototype is almost
finished and will be installed into a John Deere Tractor.
Other applications for the Hydristor in the works include a
four-wheel drive van, a high-efficient torque converter for
OEM and aftermarket suppliers, a golf cart, a heat pump for
low temperature horsepower generation, and then it is possible
the Mag One will be back on the drawing board.

Several years ago, I had the pleasure of meeting
Tom Kasmer, a vehicle designer with an extensive background in
many high-tech fields, and a resume' that included development
of IBM hardware used widely around the globe. His vehicle, the
"Mag One" was one of the most advanced concepts I have come
across ever.

Tom designed what he called the "Kasmer
Hydristor" which was an infinitely variable hydrostatic
transmission. This device was engineered to accept any amount
of hydraulic force, and through the manipulation of 'analog'
valve fluid gates, deliver the pressure to a dual set of
Vickers hydraulic motors. Coupled to the "Hydristor" was a
very unique flywheel, that contained a complex set of diode /
commutators around / in the actual flywheel, which could
'energize' the flywheel with the smallest amount of electrical
energy, not unlike a very advanced brushless DC servo motor.
Attached to the flywheel was a special hydraulic pump that was
engineered to work directly with the "Hydristor" manifold.
There were no hydraulic hoses between the two devices, and the
manifold was built to mount the dual Vickers motors, to which
the drive shaft was connected.

To advance this vehicle to it's full potential,
the flywheel / manifold assembly was hydraulically actuated
for yaw, pitch and roll. This was necessary for cornering at
high speeds. ( editors note: this vehicle was engineered with
an estimated horsepower around a staggering 1200 HP ) Also,
Tom claimed that the Mag One could perform several tricks,
like lift up on two side wheels ( standing still ) and hang
off a loading dock on two wheels without changing the
horizontal position of the car.

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