181 |
Fire kindling device |
US50186965 |
1965-10-22 |
US3367757A |
1968-02-06 |
CHURCH PETER K |
|
182 |
Barbecue starter and burner apparatus |
US40566364 |
1964-10-22 |
US3295509A |
1967-01-03 |
HARVEY ROBERT E |
|
183 |
Spark-catalytic ignitor |
US33824164 |
1964-01-16 |
US3243631A |
1966-03-29 |
HERBERT CLARK |
|
184 |
Fire lighter composition |
US23385962 |
1962-10-29 |
US3236611A |
1966-02-22 |
HENRY BEHNKE; DICK DONALD E |
|
185 |
Oil burner and improved ignition baffling means therefor |
US16997462 |
1962-01-30 |
US3176752A |
1965-04-06 |
HUSTON MILTON D |
|
186 |
Pilot burner-thermoelectric generator bracket assembly |
US64918457 |
1957-03-28 |
US2959218A |
1960-11-08 |
HAJNY CHARLES E |
|
187 |
Flame igniter for gas turbine combustor |
US78464259 |
1959-01-02 |
US2958196A |
1960-11-01 |
WIE ROBERT G VAN; GATZEMEYER JACOB B |
|
188 |
Apparatus for heating gases |
US43457654 |
1954-06-04 |
US2840362A |
1958-06-24 |
KRIEBLE ELVIN L; HOUDRY EUGENE J |
|
189 |
Vapor power plant with novel auxiliary flame igniter |
US41276954 |
1954-02-26 |
US2829277A |
1958-04-01 |
FREDERICK COWAN; LACERENZA JOSEPH A; MITTENDORF HARVEY C |
|
190 |
Gas igniter for pulverized coal burners |
US29867452 |
1952-07-14 |
US2777512A |
1957-01-15 |
JOHNSON LOWELL E; GEORGE MUSAT |
|
191 |
Solid fuel igniting device responsive to furnace temperatures |
US4769148 |
1948-09-03 |
US2540278A |
1951-02-06 |
MOLOTZAK GEORGE C |
|
192 |
Coke ignition device |
US78674447 |
1947-11-18 |
US2492705A |
1949-12-27 |
EARL MASON DONALD |
|
193 |
Igniter |
US21908838 |
1938-07-13 |
US2201501A |
1940-05-21 |
POSCHADEL LEONARD R |
|
194 |
Oil burner torch |
US67667933 |
1933-06-20 |
US1959624A |
1934-05-22 |
HALLQUIST PETER A |
|
195 |
Firing equipment |
US45833230 |
1930-05-31 |
US1875750A |
1932-09-06 |
MILLER FRANK W |
|
196 |
RELIABLE IGNITION OF HOT OXYGEN GENERATOR |
PCT/US2009049008 |
2009-06-29 |
WO2010002762A2 |
2010-01-07 |
MAHONEY WILLIAM JOHN; BIELEC BRYAN R; VARDIAN GARY THOMAS; DENEYS ADRIAN CHRISTIAN; RILEY MICHAEL FRANCIS; SLYE WILLIAM ERIC |
A stream of hot oxygen is formed by providing a duct and a fuel lance movable axially within the duct, flowing gaseous fuel out of the lance into the duct, mixing it in the duct with gaseous oxidant, flowing the mixture out of the duct into an atmosphere which is hot enough that it ignites the mixture without aid of an ignition source other than said atmosphere, and combusting said mixture in a flame that does not extend into said duct; then moving the lance so its fuel outlet approaches the duct exit orifice so that the base of said flame moves inside said duct to the fuel outlet; and then moving the lance to draw the fuel outlet and the flame attached thereto away from the exit orifice into the duct; and increasing the flow rate of gaseous oxidant in said duct, so that combustion of fuel within the duct heats uncombusted oxygen which emerges as a stream of hot oxidant. |
197 |
COMBUSTION CHAMBER DEVICE, AND METHOD FOR THE OPERATION OF A COMBUSTION CHAMBER DEVICE |
PCT/EP2009056647 |
2009-05-29 |
WO2009150069A2 |
2009-12-17 |
LUX JOHANNES; HAIDN OSKAR; SUSLOV DMITRY |
Disclosed is a combustion chamber device comprising at least one combustion chamber, at least one injection head that has at least one injector for feeding fuel and oxidant to a combustion chamber, and a laser apparatus for generating at least one laser beam for igniting a fuel-oxidant mixture. In order to design a combustion chamber device that allows for a reliable ignition process in order to ignite a flame, the at least one injector encompasses at least one internal injector element, an external injector element, and a common fluid duct for fluids conducted within the internal injector element and the external injector element. Said common fluid duct leads into the combustion chamber, and the at least one igniting laser beam is injected into the injector in the common fluid duct. |