Rosocha, Plasma assisted combustion engines, fuel efficient,
cleaner

 
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  **[rexresearch.com](http://rexresearch.com/index.htm)**

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**Louis ROSOCHA, *et al.***

**Plasma-Assisted
Combustion**

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**[http://PhysOrg.com](http://physorg.com/)
(August 30, 2006)**

 
**Plasma assisted engines fuel efficient, cleaner**

Gasoline, diesel,
and turbine engines could soon burn cleaner or be more fuel
efficient through the application of Plasma Assisted
Combustion, a technology originated and developed at Los
Alamos National Laboratory, and now poised to enter the
marketplace.

 

The Laboratory has entered into a Cooperative Research
and Development Agreement with PerriQuest Defense Research
Enterprises, LLC to advance the technology for commercial
refinement and implementation. PerriQuest, based in Meriden, CT,
Los Alamos, and Idaho National Laboratory are collaborating on
the research and development of Plasma Assisted Combustion,
under a licensing agreement with Los Alamos, for turbine and
internal combustion engine applications.

 

Los Alamos scientist Louis Rosocha and his team have been
working on the technology for about four years, with the goal of
making fuel-efficient or cleaner burning engines through more
complete combustion. The technology consists of an electronic
device that can be attached to an existing fuel injector that
applies electrical voltage to the atomized fuel stream prior to
combustion --- generating a plasma in the fuel. This effect
essentially breaks down the long chains of hydrocarbons in the
fuel into smaller parts - allowing the fuel to be burned more
completely, resulting in more miles per gallon, or reducing
harmful emissions.

 

"The research was really driven by market needs," said
Rosocha. "In 2004, regulations were announced about air
pollutants by all vehicles. In the future, air pollutants by
vehicles, on- and off-road, are supposed to be more highly
regulated. We knew that this was going to create a great
opportunity to develop a technology that would supply the demand
for cleaner burning vehicles. So, we decided to see if we could
do something about it."

 

With fuel prices at all-time highs, the need for better
fuel efficiency is also market driven, but the technology is
limited. "The technology does produce cleaner emissions, and can
lead to better fuel efficiency, but probably not at the same
time," said Rosocha. "Maybe if Mother Nature was super-kind you
might get both."

 

PerriQuest founder and CEO, Nicholas V. Perricone said
that his company, which routinely works with the U.S. Government
on defense technologies, is dedicated to turning the plasma
combustion technology into a commercial product that will
improve turbine and internal combustion engines.

 

"We knew we wanted to work with Los Alamos because, not
only are their scientists world-renowned, they also have some of
the best plasma technologies in the world we already have and
hope to commercialize the plasma combustion technology for fuel
efficiency and reduced pollutants for the American public."

 

Source: Los Alamos National Laboratory

 



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**Fast Pulse Non-Thermal Plasma Reactor**

**WO 2005115610**
  
 **(
12-08-2005 )**

**[ [PDF](http://rexresearch.com/rosocha/wo2005115610.pdf) ]**

 

Inventor: ROSOCHA, LOUIS A.   
Applicant: UNIV CALIFORNIA   
Classification: - international: B01J19/08; B01J19/08; (IPC1-7):
B01J19/08   
Application number: WO2004US15354 20040514   
Priority number(s): WO2004US15354 20040514   
Cited documents: US6156162 // US6334982 // US6475350 //
US5490973

 

**Abstract** --- A fast pulsed nonthermal plasma
reactor includes a discharge cell and a charging assembly
electrically connected thereto. The charging assembly provides
plural high voltage pulses to the discharge cell. Each pulse has
a rise time between one and ten nanoseconds and a duration of
three to twenty nanoseconds. The pulses create nonthermal plasma
discharge within the discharge cell. Accordingly, the nonthermal
plasma discharge can be used to remove pollutants from gases or
break the gases into smaller molecules so that they can be more
efficiently combusted.

 



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**Field-Enhanced
Electrodes for Additive-Injecton Non-Thermal Plasma (NTP)
Processor**

**US 2005133927**
  
 **6-23-2005**

**[ [PDF](http://rexresearch.com/rosocha/us2005133927.pdf) ]**

 

Inventor: ROSOCHA LOUIS A (US); FERRERI VINCENT (US); KIM
YONGHO (US)   
Classification: - international: B01D53/32; B01J19/08;
H01J37/32; B01D53/32; B01J19/08; H01J37/32; (IPC1-7): H01L21/00;
H01L21/84; H01L23/48; H01L23/52; H01L29/40; - european:
B01D53/32B; B01J19/08D2; H01J37/32D1B   
Application number: US20040017392 20041220   
Priority number(s): US20040017392 20041220; US20030395046
20030321

 

**Abstract** --- The present invention comprises a
field enhanced electrode package for use in a non-thermal plasma
processor. The field enhanced electrode package includes a high
voltage electrode and a field-enhancing electrode with a
dielectric material layer disposed in-between the high voltage
electrode and the field-enhancing electrode. The field-enhancing
electrode features at least one raised section that includes at
least one injection hole that allows plasma discharge streamers
to occur primarily within an injected additive gas.

 


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**Plasma
Catalytic Fuel Injector for Enhanced Cmbustion**

**WO 2005017410**
  
 **2-24-2005**

**[ [PDF](http://rexresearch.com/rosocha/wo2005017410.pdf) ]**

 

Inventor: PLATTS DAVID; COATES DON M; ROSOCHA LOUIS A   
Applicant: UNIV CALIFORNIA (US)   
Classification: - international: F23K5/00; F23K5/08; F23K5/00;
F23K5/02; (IPC1-7): F23B1/00; - european: F23K5/00B11; F23K5/08
  
Application number: WO2004US22664 20040714   
Priority number(s): US20030626017 20030724   
Also published as: US2005019714 (A1)   
Cited documents: GB972302 // WO02076884

 

**Abstract** --- Apparatus and method for enhancing
combustion comprises an enclosure defining an opening for
introduction of a gas and openings for the introduction of air,
with a nozzle in the opening for introduction of a fuel gas into
the enclosure. First and second electrodes are located in the
enclosure, the first and second electrodes being coated with
dielectric material, and being connected to an electrical power
supply. With electrical power applied to the first and second
electrodes and with the fuel gas sprayed into the enclosure, an
atmospheric pressure plasma created by a dielectric barrier
discharge is produced in the enclosure that cracks the fuel gas
prior to its mixing with air introduced through the openings for
the introduction of air.

 


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**Combustion
Enhancement with Silent Discharge Plasma**

**WO 2004085694**
  
 **10-07-2004**

**[ [PDF](http://rexresearch.com/rosocha/wo2004085694.pdf) ]**

 

Inventor: ROSOCHA LOUIS A; COATES DON M; PLATTS DAVID   
Applicant: UNIV CALIFORNIA (US)   
Classification: - international: F02B51/06; F02M27/04;
F23C99/00; F02B51/00; F02M27/00; F23C99/00; (IPC1-7): C23C; -
european: F02B51/06; F02M27/04B; F23C11/00F   
Application number: WO2004US07161 20040309   
Priority number(s): US20030395045 20030321   
Also published as: WO2004085694 (A3) // US2004185396 (A1)   
Cited documents: US6193934 // US4013567 // US4504446

 

**Abstract** --- A device that uses electrical
discharges/nonthermal plasmas in a gaseous medium to activate a
fuel or fuel-oxidizer mixture to promote more effective and
efficient combustion, in which a dielectric barrier discharge or
silent discharge plasma is used to break up larger organic
molecules (the fuel) into smaller ones that are more easily and
completely combusted. The discharge also creates free radicals
that promote more efficient combustion. The device is a
cylindrical, coaxial (cylinder in a cylinder) dielectric barrier
discharge/silent discharge plasma reactor. It includes two
conducting electrodes, one or both of which are covered by a
dielectric material. The electrodes are separated by a thin,
gas-containing space. A high voltage is applied to the
electrodes to create electric discharge streamers in the gas.
The discharges are the source of the nonthermal plasma.

 



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**Non-Thermal
Plasma Processor Utilizing Additive-Gas Injection and/or
Gas Extraction**

**USP 7,063,819**
  
 **10-07-2004**

**[ [Full-Text, PDF Format](http://rexresearch.com/rosocha/us7063819.pdf) ]**

 

Inventor: ROSOCHA LOUIS A   
Applicant: UNIV CALIFORNIA (US)   
Classification: - international: B01D53/32; B01J19/08;
H01J37/32; B01D53/32; B01J19/08; H01J37/32; (IPC1-7): C23; -
european: B01D53/32B; B01J19/08D2; H01J37/32D1B   
Application number: WO2004US07160 20040309   
Priority number(s): US20030395046 20030321

 

**Abstract** --- A device for processing gases
includes a cylindrical housing in which an electrically
grounded, metal injection/extraction gas supply tube is
disposed. A dielectric tube surrounds the injection/extraction
gas supply tube to establish a gas modification passage
therearound. Additionally, a metal high voltage electrode
circumscribes the dielectric tube. The high voltage electrode is
energizable to create nonthermal electrical microdischarges
between the high voltage electrode and the injection/extraction
gas supply tube across the dielectric tube within the gas
modification passage. An injection/extraction gas and a process
gas flow through the nonthermal electrical microdischarges
within the gas modification passage and a modified process gas
results. Using the device contaminants that are entrained in the
process gas can be destroyed to yield a cleaner, modified
process gas. Also, a modified process gas or gas/vapor mixture
can be generated and can be combusted more efficiently and with
the emission of less pollution.

 


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**Fast
Pulse Non-Thermal Plasma Reactor**

**USP 6,906,280**
  
 **9-23-2004**

**[ [PDF](http://rexresearch.com/rosocha/us6906280.pdf) ]**

 

Inventor: ROSOCHA LOUIS A (US)   
Applicant: UNIV CALIFORNIA (US)   
Classification: - international: H05H1/24; H05H1/24; (IPC1-7):
B23K15/00; - european: H05H1/24   
Application number: US20030395047 20030321   
Priority number(s): US20030395047 20030321

 

**Abstract** --- A fast pulsed nonthermal plasma
reactor includes a discharge cell and a charging assembly
electrically connected thereto. The charging assembly provides
plural high voltage pulses to the discharge cell. Each pulse has
a rise time between one and ten nanoseconds and a duration of
three to twenty nanoseconds. The pulses create nonthermal plasma
discharge within the discharge cell. Accordingly, the nonthermal
plasma discharge can be used to remove pollutants from gases or
break the gases into smaller molecules so that they can be more
efficiently combusted.

 


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