Terms: Fire Suppression (5,770,000), flame (184,000,000), flames (143,000,000),
DARPA - Instant Fire Suppression - DARPA-BAA-08-26.doc
Air Force OSD.mil - Fire Suppression - An innovative approach to suppression of fires is to affect chemical kinetics of critical combustion reactions by exciting critical radicals by exposure to selective photochemical excitation and other innovative approaches such as the use of electric or magnetic fields. The excitation and de-excitation of critical free radicals by means of the use of directed energy can interfere with critical chemical kinetic reactions and cause changes in the speed of flame propagation and produce the eventual extinction of a fire. - Ms. Madie Tillman specifying the subtopic(s) of interest. Requested information will be mailed to you. Fax: 513-255-6788/3438. E-mail: tillmaml@b045mail.wpafb.af.mil.
Boolean: "flame speed" +"radiation effects" (217), "flame speed" +"magnetic fields" (219), "flame speed" +microwaves (69), "flame speed" +"electric fields" (198), "flame speed" +"radiation effect" (36), "flame speed" +"magnetic field" (444), "flame speed" +microwave (643), "flame speed" +"electric field" (433),
Terms: flame speed reduction (21), reducing flame speed (5), reduced flame speed (30),
Terms: lifted jet diffusion flames (194), flame stability (36,100), lifted turbulent jet diffusion (58), magnetic inhibition (260), flame inhibition (2,260), combustion suppression (412), electromagnetic mixing (972),
Boolean: "chemical kinetics" +electromagnetic (65,200), "chemical kinetics" +microwave (45,500), madie +"fire suppression" (21), tillman +"fire suppression" (1,270),
Terms: electromagnetic processing (14,900), electromagnetic separation (30,300), magnetic gradient (46,800), magnetic gradients (12,400), magnetic gradient forces (21), electromagnetic suppression (876), electromagnetic cooling (113), electromagnetic refrigeration (9),
Boolean: microwave +combustion +turbine +efficiency (70,900), microwave +combustion +turbine +thrust (21,000),
Terms: microwave cooling (1,180), microwave refrigeration (1,360),
Terms: critical combustion reactions (6), selective photochemical (694), per unit flame (49), per unit flame irradiance (2), flame irradiance basis (3), radiation based fire suppression (3),
Terms: instant fire suppression (230), class a fires (43,900), class b fires (38,600), fire manipulation (32,900), fire suppression time (61),
Boolean: "fire suppression" +milliseconds (2,100), "fire suppression" +microseconds (372),
Boolean: "fire suppression" +microwave (121,000), "fire suppression" +laser (150,000), "fire suppression" +lidar (4,910), "fire suppression" +magnetic +gradient (1,360), "fire suppression" +"magnetic field" (4,030), "fire suppression" +"electric field" (1,560), "fire suppression" +electromagnetic (41,500),
Terms: laser fire suppression (2), microwave fire suppression (5), electromagnetic fire suppression (0),
Terms: combustion (58,700,000), combustion diffusion (816), combustion * diffusion (1,480), combustion * * diffusion (1,790), combustion * * * diffusion (1,970), diffusion combustion (3,490), diffusion * combustion (5,800), diffusion * * combustion (7,810), diffusion * * * combustion (3,180),
Boolean: fire +plasma (14,900,000), fire +ions (3,380,000), fire +electrons (2,750,000), combustion +plasma (2,290,000), combustion +ions (1,130,000), combustion +electrons (881,000), flame +plasma (5,720,000), flame +ions (1,010,000), flame +electrons (851,000), flames +plasma (5,730,000), flames +ions (1,010,000), flames +electrons (1,040,000),
Terms: magnetic effects on combustion (3), pre-combustion (139,000), pre-combustion magnetic (3), microwave plasma (153,000),
YouTube - Match in Microwave - match dims (oxygen?)
YouTube - Microwave Plasma - note that many of these show the match itself dims, even while the plasma brightens
Terms: ionic conductor (28,500), ionic conductors (42,500), glass conductors (198), ceramic conductors (900),
Terms: ion pumps (282,000), ion pump (130,000), ion pumping (37,900), sputter ion pump (1,680), sputter ion pumps (1,440), penning cell (150), diode ion pump (115), noble diode (756), scavenging gas (650),
Terms: gettering (112,000), gettered (13,800), getter (13,000,000), extrinsic gettering (599), trapping sites (41,200), gettering sites (1,350), intrinsic gettering (1,040), gettering regions (202),
CERN - Introduction to Ion Pumps
YouTube - hot glass conductor absorbs microwaves
YouTube - Light bulb, microwave plasma in vase
YouTube - How to Make Plasma in Your Microwave
YouTube - Microwave Plasma Candle
Terms: plasma ball (514,000), plasma globe (58,300), plasma sphere (47,800), spherical plasma (2,220),
Boolean: coal +microwave (2,110,000), coal +microwave +plasma (203,000), coal +ignition +plasma (81,400),
Boolean: combustion +microwave +rate (454,000), combustion +microwave +suppression (48,700),
Boolean: "electron density" +flame (21,700), "electron density" +flames (2,590), "electron density" +combustion (29,900), "electron density" +flame +microwave (1,810),
Microwave Techniques for the Combustion Enhancement of Laminar Flames
Terms: microwave enhanced combustion (27), microwave * combustion (1,360), microwave * * combustion (727), microwave flame interactions (1), microwave flame (155),
Terms: microwave assisted combustion (434),
Boolean: combusion +("electric field" OR "electric fields") (163), combusion +("magnetic field" OR "magnetic fields") (387), combusion +electromagnetic (741), combusion +microwave (635), combusion +"radio frequency" (145), combusion +rf (393),
Boolean: flames +("electric field" OR "electric fields") (53,900), flames +("magnetic field" OR "magnetic fields") (361,000), flames +electromagnetic (1,750,000), flames +microwave (3,690,000), flames +"radio frequency" (89,200), flames +rf (3,800,000),
Terms: cold plasma (154,000), cold plasmas (19,600), cold plasma technology (1,120), cold plasma surface (222), cold plasma treatment (1,030), plasma sterilization (37,900), corona treatment (84,200), flame treaters (918), corona discharge (355,000), corona discharge treatment (13,000), corona discharge surface (1,160), cold flame (92,400),
Terms: flame spray (111,000), flame spraying (48,100),
Boolean: flame +"cold plasma" (2,590),
Boolean: plasma +"radar absorber" (72), plasma +radar (8,500,000), plasma +"radar absorbing" (2,680),
Boolean: "fire suppression" +electromagnetic (41,500), "fire suppression" +plasma (46,300),
Terms: flame speakers (446), flame * speakers (319), flame amplification (55), flame speaker (1,070), plasma speakers (84,200), flame triode (225), flame conduction (118), flame conductivity (72), conducting flame (254), flame loudspeakers (37),
Plasma Antennas - Survey of Techniques and the Current State of the Art
'Stealth' Antenna Made Of Gas, Impervious To Jamming:
Plasma antennas can magically vanish
Australian National University - Plasma Antennas
Terms: plasma antenna (8,870), plasma antennas (5,670), plasma radiation (33,000), plasma noise (2,100), plasma acoustic (1,160), plasma sound (37,100), plasma sounds (1,190), plasma noises (37), plasma acoustics (92), plasma oscillations (46,600), plasma oscillation (16,300),
Terms: plasma diagnostics (169,000), plasma ionization (34,100),
Terms: space charge oscillations (324), plasma waves (167,000), electro-acoustic waves (34), electro-acoustical waves (10), electrostatic waves (31,700), space charge wave (1,700), space charge (558,000),
Terms: plasma reflector (145), plasma reflectors (42), sheet plasma (9,480), sheet plasmas (201), plasma sheet (126,000), plasma sheets (983), sheet * plasma (14,900), plasma * sheet (17,200), plasma tube (103,000), plasma tubes (31,300), plasma device (45,900), plasma devices (63,000), plasma lens (17,200), plasma lenses (1,530), plasma mirror (2,600), plasma mirrors (1,060),
Terms: agile microwave mirrors (1), microwave mirrors (255),
Boolean: plasma +"beam forming" (17,200),
Terms: air modulators (859), air modulator (484),
Boolean: "air modulators" +site:gov (1),
Terms: electric propulsion (838,000),
Magnetic Field Effects on Diffusion Flames - Gonzales - pdf
Mixture Fraction Measurements in a Supersonic Shear Layer Using Laser-Induced Breakdown Spectroscopy