IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0305927
(2007-06-15)
|
등록번호 |
US-8221928
(2012-07-17)
|
우선권정보 |
FI-20065433 (2006-06-22) |
국제출원번호 |
PCT/FI2007/050360
(2007-06-15)
|
§371/§102 date |
20081219
(20081219)
|
국제공개번호 |
WO2007/147939
(2007-12-27)
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발명자
/ 주소 |
- Kivisaari, Timo
- Mahlanen, Timo
|
출원인 / 주소 |
|
대리인 / 주소 |
Chernoff, Vilhauer, McClung & Stenzel
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
3 |
초록
▼
The present invention relates to a preheating arrangement in a fuel cell apparatus, the fuel cell apparatus comprising at least a fuel cell unit having an anode side and a cathode side with an electrolyte therebetween, the fuel cell apparatus having at least a fuel inlet to the anode side and an oxy
The present invention relates to a preheating arrangement in a fuel cell apparatus, the fuel cell apparatus comprising at least a fuel cell unit having an anode side and a cathode side with an electrolyte therebetween, the fuel cell apparatus having at least a fuel inlet to the anode side and an oxygen-containing air inlet to the cathode side as well as a sulphur removal unit and a fuel modifying unit and an afterburner for combustion the exhaust gases from the anode and/or cathode side. According to the invention, the afterburner is provided with a separate fuel inlet channel for introducing fuel to the afterburner during the start-up phase of the fuel cell apparatus and that at least a part of the exhaust gases formed in the combustion of the separately fed fuel is arranged to be directed from the afterburner for heating at least the sulphur removal unit and/or the fuel modifying unit during the start-up phase. The outlet channels are provided with heat exchangers and adjustment means for adjusting the exhaust gas flow rate.
대표청구항
▼
1. A preheating arrangement in a fuel cell apparatus, the fuel cell apparatus comprising at least a fuel cell unit, the fuel cells of which comprise an anode side and a cathode side with an electrolyte therebetween, the fuel cell apparatus comprising a fuel inlet on the anode side and an oxygen-cont
1. A preheating arrangement in a fuel cell apparatus, the fuel cell apparatus comprising at least a fuel cell unit, the fuel cells of which comprise an anode side and a cathode side with an electrolyte therebetween, the fuel cell apparatus comprising a fuel inlet on the anode side and an oxygen-containing air inlet on the cathode side as well as a sulphur removal unit, a fuel modifying unit and a burner for combusting exhaust gases from the anode and cathode side, the afterburner being provided with a separate fuel inlet channel for introducing fuel to the afterburner during the start-up phase of the fuel cell apparatus, the arrangement comprising: a channel from the afterburner to the sulphur removal unit for directing exhaust gas from the afterburner to the sulphur removal unit and an outlet channel for removing exhaust gas from the sulphur removal unit, anda channel from the afterburner to the modifying unit for directing exhaust gas from the afterburner to the modifying unit and an outlet channel for removing exhaust gas from the modifying unit, whereinthe outlet channel of the sulphur removal unit is provided with an adjustment means for adjusting the exhaust gas flow rate and with a heat exchanger between the adjustment means and the sulphur removal unit, andthe outlet channel of the modifying unit is provided with an adjustment means for adjusting the exhaust gas flow rate and the outlet channel is provided with a heat exchanger between the adjustment means and the modifying unit. 2. A preheating arrangement according to claim 1, wherein the sulphur removal unit is enveloped by a casing into which the channel from the afterburner to the sulphur removal unit is connected for directing exhaust gas from the afterburner into the casing of the sulphur removal unit, and the fuel modifying unit is enveloped by a casing into which the channel from the afterburner to the fuel modifying unit is connected for directing exhaust gas from the afterburner into the casing of the fuel modifying unit. 3. A preheating arrangement according to claim 1, wherein the separate fuel inlet channel is connected to the fuel inlet prior to the sulphur removal unit. 4. A preheating arrangement according to claim 1, wherein an air channel is connected to the separate fuel inlet channel for introducing additional air to the afterburner. 5. A preheating arrangement according to claim 1, wherein the arrangement comprises a heater located in the fuel inlet channel for heating the fuel and a channel from the afterburner to the heater for directing exhaust gas from the after burner to the heater and an outlet channel for removing exhaust gas from the heater. 6. A preheating arrangement according to claim 5, wherein the outlet channel of the heater is provided with an adjustment means for adjusting the exhaust gas flow and with a heat exchanger between the adjustment means and the heater. 7. A method of preheating a fuel cell apparatus, the fuel cell apparatus comprising a fuel cell unit, the fuel cells of which comprise an anode side and a cathode side with electrolyte therebetween, the fuel cell apparatus having at least a fuel inlet to the anode side and an oxygen-containing air inlet to the cathode side as well as a sulphur removal unit, a fuel modifying unit and a burner for combusting exhaust gases from the anode and cathode sides, in which method fuel is introduced during the fuel cell start-up phase to the afterburner, fuel is combusted in the afterburner, the sulphur removal unit is heated by directing exhaust gas of the fuel combusted in the afterburner to the sulphur removal unit and exhaust gas is removed from the sulphur removal unit via an outlet channel and the fuel modifying unit is heated by directing exhaust gas of the fuel combusted in the afterburner to the modifying unit and exhaust gas is removed from the modifying unit via an outlet channel, wherein the exhaust gas flow to the sulphur removal unit is adjusted by means of an adjustment means arranged in the outlet channel of the sulphur removal unit and the exhaust gas flow is cooled by means of a heat exchanger located in the outlet channel between the adjustment means and the sulphur removal unit, andthe exhaust gas flow to the modifying unit is adjusted by means of an adjustment means arranged in the outlet channel of the modifying unit and the exhaust gas flow is cooled by means of a heat exchanger located in the outlet channel between the adjustment means and the modifying unit. 8. A method according to claim 7, wherein the arrangement comprises a heater located in the fuel inlet channel for heating the fuel, the heater being heated by directing exhaust gas of fuel combusted in the afterburner to the heater, exhaust gas is removed from the heater along an outlet channel, the exhaust gas flow to the heater is adjusted by means of an adjustment means located in the of the heater and the exhaust gas flow is cooled by means of a heat exchanger located in the outlet channel between the adjustment means and the heater. 9. A method according to claim 7, wherein the exhaust gas flow to the sulphur removal unit and the modifying unit is controlled on the basis of the temperature measurement of said unit. 10. A method according to claim 8, wherein the exhaust gas flow to the heater is controlled on the basis of the temperature measurement of said heater. 11. A fuel cell apparatus having a fuel inlet and an oxygen-containing air inlet and comprising: a fuel cell unit having an anode side connected to receive fuel from the fuel inlet of the apparatus and a cathode side connected to receive oxygen-containing air from the oxygen-containing air inlet of the apparatus,a sulphur removal unit,a fuel modifying unit,an afterburner for combusting exhaust gases from at least one of the anode side and the cathode side of the fuel cell unit, the afterburner being provided with a separate fuel inlet channel for introducing fuel to the afterburner during a startup phase of operation of the fuel cell apparatus, anda preheating arrangement comprising:a channel from the afterburner to the sulphur removal unit for directing exhaust gas to the sulphur removal unit and an outlet channel for removing exhaust gas from the sulphur removal unit, the outlet channel of the sulphur removal unit being provided with an adjustment means for adjusting the exhaust gas flow rate and with a heat exchanger between the adjustment means and the sulphur removal unit, anda channel from the afterburner to the modifying unit for directing exhaust gas to the modifying unit and an outlet channel for removing exhaust gas from the modifying unit, the outlet channel of the modifying unit being provided with an adjustment means for adjusting the exhaust gas flow rate and with a heat exchanger between the adjustment means and the modifying unit.
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