Wide dynamic range multistage plasmatron reformer system
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B01J-019/08
출원번호
US-0811669
(2004-03-29)
등록번호
US-7381382
(2008-06-03)
발명자
/ 주소
Rabinovich,Alexander
Alexeev,Nikolai
Samokhin,Andrei
Bromberg,Leslie
Cohn,Daniel R.
Hadidi,Kamal
출원인 / 주소
Massachusetts Institute of Technology
대리인 / 주소
Choate Hall & Stewart, LLP
인용정보
피인용 횟수 :
0인용 특허 :
18
초록▼
A method and apparatus for a multistage plasmatron fuel reformer system having a wide dynamic operational range. In one aspect, the system includes a plasmatron configured for low flow operation followed by a reaction extension cylinder and then by a nozzle section capable of providing additional ai
A method and apparatus for a multistage plasmatron fuel reformer system having a wide dynamic operational range. In one aspect, the system includes a plasmatron configured for low flow operation followed by a reaction extension cylinder and then by a nozzle section capable of providing additional air and/or fuel inputs. The nozzle section is then followed by another reaction extension region. When high flow rate of the system is needed, the low fuel flow rate provided by the plasmatron followed by the first reaction extension region provides the high temperature used to effectively initiate the partial oxidation reaction in the next section. The initiation of this reaction may also be facilitated by the presence of hydrogen.
대표청구항▼
What is claimed is: 1. A fuel reformer system, comprising: a plasmatron fuel reformer, wherein said plasmatron fuel reformer comprises a first fuel nozzle, at least one air nozzle and electrodes; a first reaction extension region connected downstream from said plasmatron fuel reformer; a supplement
What is claimed is: 1. A fuel reformer system, comprising: a plasmatron fuel reformer, wherein said plasmatron fuel reformer comprises a first fuel nozzle, at least one air nozzle and electrodes; a first reaction extension region connected downstream from said plasmatron fuel reformer; a supplemental nozzle section including a second fuel nozzle and a second air nozzle connected to said first reaction extension region; and a second reaction extension region connected downstream from said supplemental nozzle section. 2. The fuel reformer system of claim 1, further including: at least one additional nozzle section connected to said second reaction extension region. 3. The fuel reformer system of claim 1, further including: at least one additional reaction extension region connected downstream from said second reaction extension region. 4. The fuel reformer system of claim 1, wherein said first reaction extension region has a length from approximately 2 cm to 8 cm and has a diameter from approximately 2 cm to 6 cm. 5. The fuel reformer system of claim 1, wherein plasma air is introduced through said at least one air nozzle that generates an air velocity in the range of approximately 25-100 m/s. 6. The fuel reformer system of claim 5, wherein the plasma air flow rate is in the range of approximately 15-60 liters/minute and hole diameters of said at least one air nozzle are in the range of approximately 0.03-0.07 inches. 7. The fuel reformer system of claim 1, wherein the distance between the first fuel nozzle and a plane half way between electrodes is approximately 0.2 inches. 8. The fuel reformer system of claim 1, wherein at least one catalyst is positioned in at least one of said reaction extension regions. 9. The fuel reformer system of claim 1, wherein a magnetic coil is positioned in said plasmatron fuel reformer to generate a magnetic field that shapes plasma in said plasma discharge region, and where the current flowing in the discharge is unipolar. 10. The fuel reformer system of claim 9, wherein the magnetic field both rotates the plasma and pushes it inward. 11. The fuel reformer system of claim 1, wherein said system is adapted to produce a temperature of hot gas exiting from the first reaction extension region that is at least 900�� C. 12. The fuel reformer system of claim 1, wherein fuel atomization pressure in a nozzle used in the supplemental nozzle section is less than one-third of fuel atomization pressure in a nozzle used in the plasmatron fuel reformer. 13. The fuel reformer system of claim 1, where air is injected downstream from the first reaction extension region for preheating, and wherein a first stage including the plasmatron fuel reformer and the first reaction extension region operates at O/C ratios between partial oxidation and full combustion. 14. The fuel reformer system of claim 1, where fuel is injected downstream from the first reaction extension region for preheating, and wherein a first stage including the plasmatron fuel reformer and the first reaction extension region operates at O/C ratios between partial oxidation and full combustion. 15. The fuel reformer system of claim 1, wherein fuel and air are injected downstream from the first reaction extension region for preheating, and wherein a first stage including the plasmatron fuel reformer and the first reaction extension region operates at O/C ratios between partial oxidation and full combustion, and a second stage including the supplemental nozzle section and the second reaction extension region operates, though control of air/fuel injection in the first and second stage, at conditions of low turbulence and poor mixing in order to generate a warm combustible mixture. 16. The fuel reformer system of claim 1, further comprising a turbulizer disposed downstream from the first reaction extension region and that generates turbulence. 17. The fuel reformer system of claim 1, where a first stage including the plasmatron fuel reformer and the first reaction extension region operates at conditions of non-uniformity of air/fuel mixture, wherein control of turbulence for plasmatron operation is provided through control of the ratio of the mixing time to residence time, and wherein a second stage including the supplemental nozzle section and the second reaction extension region generates flow patterns that when injected into the main flow result in turbulence. 18. The fuel reformer system of claim 17, wherein the turbulence in the second extension reaction cylinder is provided by the generation of a swirl motion in the second air/fuel mixture that is opposite to a swirl motion of gas in the first stage. 19. The fuel reformer system of claim 17, further comprising a separator element between the flow in the first stage and the second stage. 20. The fuel reformer system of claim 19, wherein said separator element is also a thermal element such that heat deposited by the flow mixture in the first stage is used for preheating the air and/or the fuel injected in the second stage. 21. The fuel reformer system of claim 1, wherein at the low flow rates electrical power delivered to the plasmatron fuel reformer is decreased by decreasing the current of a power supply. 22. The fuel reformer system of claim 1 wherein at the low flow rates electrical power delivered to the plasmatron fuel reformer is decreased by pulsing a power supply at low duty cycle operation. 23. The fuel reformer system of claim 1, wherein the O/C ratio in a first stage including the plasmatron fuel reformer and the first reaction extension region is between approximately 2 and 7. 24. The fuel reformer system of claim 1, wherein said system is adapted for operation with gasoline. 25. The fuel reformer system of claim 1, wherein said system is adapted for operation with diesel. 26. The fuel reformer system of claim 1, wherein said system is adapted for operation with any liquid hydrocarbon.
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이 특허에 인용된 특허 (18)
Berman Charles H. (East Windsor NJ) Calcote Hartwell F. (Princeton NJ), Apparatus for gas glow discharge.
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Trieschmann Hans-Georg (Neustadt DT) Rosewicz Horst (Ludwigshafen DT) Jansen Gerhard (Ludwigshafen DT) Ballweber Dieter (Frankenthal DT), Process and apparatus for the manufacture of a gas mixture containing acetylene, ethylene, methane and hydrogen, by ther.
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