IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0663553
(2000-09-18)
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발명자
/ 주소 |
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출원인 / 주소 |
- Air Products and Chemicals, Inc.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
12 인용 특허 :
7 |
초록
▼
A fuel cell power system is provided that includes a fuel cell for generating electricity that has a cathode, an anode, and a polymer electrolyte membrane. The fuel cell processes air through the cathode to yield a cathode effluent stream. The fuel cell power system further includes a fuel processor
A fuel cell power system is provided that includes a fuel cell for generating electricity that has a cathode, an anode, and a polymer electrolyte membrane. The fuel cell processes air through the cathode to yield a cathode effluent stream. The fuel cell power system further includes a fuel processor for converting an inlet fuel stream of hydrogen and carbon containing fuels, utilizing a stream of oxygen containing gas and water vapor, to a processed fuel stream of hydrogen molecules for feeding into the fuel cell anode. The system then feeds a substantial portion of the cathode effluent stream to the fuel processor as the oxygen containing gas and water vapor for converting the fuel stream into hydrogen. A method of using the system is also provided.
대표청구항
▼
A fuel cell power system is provided that includes a fuel cell for generating electricity that has a cathode, an anode, and a polymer electrolyte membrane. The fuel cell processes air through the cathode to yield a cathode effluent stream. The fuel cell power system further includes a fuel processor
A fuel cell power system is provided that includes a fuel cell for generating electricity that has a cathode, an anode, and a polymer electrolyte membrane. The fuel cell processes air through the cathode to yield a cathode effluent stream. The fuel cell power system further includes a fuel processor for converting an inlet fuel stream of hydrogen and carbon containing fuels, utilizing a stream of oxygen containing gas and water vapor, to a processed fuel stream of hydrogen molecules for feeding into the fuel cell anode. The system then feeds a substantial portion of the cathode effluent stream to the fuel processor as the oxygen containing gas and water vapor for converting the fuel stream into hydrogen. A method of using the system is also provided. ercoat on the magnetic layer; and the lubricant topcoat on the protective overcoat. 11. The magnetic recording medium according to claim 10, wherein the protective overcoat contains carbon. 12. A method of manufacturing a magnetic recording medium, which method comprises: forming a magnetic layer on a non-magnetic substrate; and forming a lubricant topcoat on the magnetic layer, wherein the lubricant topcoat comprises a fluoropolyether having a non-functional silane end-group, wherein the nonfunctional silane end group excludes a Si--X0bond, and wherein X0is oxygen, halide, nitrogen or cyano. 13. The method according to claim 12, comprising bonding about 70% or more of the fluoropolyether to the magnetic layer. 14. The method according to claim 12, further comprising: forming an underlayer on the non-magnetic substrate; forming the magnetic layer on the underlayer; forming a protective overcoat on the magnetic layer; and forming the lubricant topcoat on the protective overcoat. 15. The method according to claim 14, comprising forming a carbon containing protective overcoat. 16. The method according to claim 15, comprising bonding about 90% or more of the fluoropolyether to the carbon containing protective overcoat. 17. The method according to claim 12, comprising submerging the non-magnetic substrate in a solution comprising the fluoropolyether and a solvent to form the lubricant topcoat. the heat sealable resin layer (II) on the layer (C) side. 21. The in-mold label as claimed in claim 3, wherein the thermoplastic resin has a melting point higher by at least 15 ° C. than that of the polyethylene resin as component(s) contained in the heat sealable resin layer (II). 22. The in-mold label as claimed in claim 3, wherein the component (a) is a polyethylene resin having a degree of crystallinity of from 10 to 60%, a number-average molecular weight of from 10,000 to 40,000, and a melting point of from 80 to 130° C. 23. The in-mold label as claimed in claim 3, wherein the thermoplastic resin film base layer (I) is a microporous laminate resin film comprising a base layer (A) consisting of a biaxially stretched film of a resin composition comprising from 2 to 30 wt % fine inorganic particles, from 3 to 20 wt % high density polyethylene, and from 95 to 50 wt % propylene resin, a layer (B) laminated to one side of the base layer (A) and consisting of a uniaxially stretched film of a resin composition comprising from 35 to 65 wt % fine inorganic particles, from 0 to 10 wt % high density polyethylene, and from 55 to 35 wt % propylene resin, and a layer (C) laminated to the base layer (A) on the side opposite to the layer (B) and consisting of a uniaxially stretched film of a resin composition comprising from 35 to 65 wt % fine inorganic particles, from 0 to 10 wt % high density polyethylene, and from 55 to 35 wt % propylene resin, the base layer (I) having printed matter on the layer (B) side and having the heat sealable resin layer (II) on the layer (C) side. 24. The in-mold label
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