FIELD: electrical engineering. SUBSTANCE: in compliance with proposed method of operation blow- through hydrogen goes from electrochemical generator 1 into after-burner 2 driving fluid out of chamber and opening surface of support 6. When hydrogen is burnt fluid fills after-burner chamber 8. Accumulating inert component is removed over pipe-line 13 through fluid 12. Hydrogen in after-burner chamber has no contact with air and oxidizes totally on anode. EFFECT: enhanced safety of operation and efficiency of after-burning. 1 dwg
| Title | Year | Author | Number |
|---|---|---|---|
| METHOD OF OPERATION OF ELECTRICHEMICAL GENERATOR | 1991 |
|
RU2035809C1 |
| PROCESS OF STARTING OF ELECTROCHEMICAL GENERATOR | 1992 |
|
RU2040834C1 |
| POWER PLANT WITH ELECTROCHEMICAL GENERATOR BASED ON HYDROGEN-OXYGEN FUEL ELEMENTS | 2015 |
|
RU2594895C1 |
| ELECTROCHEMICAL GENERATOR BUILT AROUND HYDROGEN-AIR (OXYGEN) FUEL CELLS | 2003 |
|
RU2245594C1 |
| SUBMERGED POWER PLANT | 0 |
|
SU1122187A1 |
| ELECTROCHEMICAL GENERATOR BUILT AROUND HYDROGEN-OXYGEN (AIR) FUEL CELLS | 2006 |
|
RU2322733C2 |
| GEAR TO RUN ELECTROCHEMICAL GENERATOR WITH AFTER-BURNER AND PROCESS OF ITS EXPLOITATION | 2000 |
|
RU2188480C2 |
| ELECTROCHEMICAL GENERATOR BASED ON HYDROGEN-OXYGEN FUEL CELLS | 2015 |
|
RU2597412C1 |
| METHOD FOR WITHDRAWING AIR-HYDROGEN ELECTROCHEMICAL GENERATOR FROM SERVICE | 2006 |
|
RU2314600C1 |
| HYDROGEN-OXYGEN ELECTROCHEMICAL GENERATOR | 1981 |
|
SU1050501A1 |
