Back-up fuel cell electric generator comprising a compact manifold body, and methods of managing the operation thereof
First Claim
1. A method of starting up a fuel cell electric generator to satisfy a power request of a user (UPR), comprising the steps of:
- (a) supplying said user with an auxiliary power supply (APS) and, in parallel, with a fuel cell power supply (FCP) being obtained from the fuel cells in such a manner that the sum of them is substantially equal to said user power request (UPR);
(b) acquiring data relative to;
overall stack voltage (VS);
individual cell voltage (VSC) of each single cell in the stack;
overall stack voltage (VS) as function of current (I) and individual cell voltage (VSC) as function of current (I);
(c) progressively increasing said fuel cell power supply (FCP) and decreasing said auxiliary power supply (APS) such that their sum remains substantially equal to said user power request (UPR);
wherein said step (c) of progressively increasing said fuel cell power supply (FCP) is carried out only if said acquired data are detected to be greater than respective reference values of normalized voltage (VO,SC and VO,SC) as a function of normalized current, stored in a memory unit; and
only until said fuel cell power supply (FCP) is detected to be equal to said user power request (UPR).
2 Assignments
0 Petitions
Accused Products
Abstract
A fuel cell electric generator designed for back-up in the absence of network electricity supply. The generator comprises a fuel cell stack, means for supplying the stack with a first and a second reagent flow comprising, in turn, pressure reducing means, and a manifold body to communicate with the stack said first and second reagent flows and at least a flow of coolant fluid via a respective coolant loop. The manifold body comprises inside chambers for the mixing of said reagent flows with corresponding re-circulated product flows and a coolant fluid expansion chamber within which said pressure reducing means of said first and second reagent flows are positioned at least partially drowned by said coolant. Method for the start-up and shut-down of the generator, and a method for detecting the flooding of a fuel cell and a method for detecting the presence of gas leakages in the generator are also disclosed.
-
Citations
3 Claims
-
1. A method of starting up a fuel cell electric generator to satisfy a power request of a user (UPR), comprising the steps of:
-
(a) supplying said user with an auxiliary power supply (APS) and, in parallel, with a fuel cell power supply (FCP) being obtained from the fuel cells in such a manner that the sum of them is substantially equal to said user power request (UPR); (b) acquiring data relative to; overall stack voltage (VS); individual cell voltage (VSC) of each single cell in the stack; overall stack voltage (VS) as function of current (I) and individual cell voltage (VSC) as function of current (I); (c) progressively increasing said fuel cell power supply (FCP) and decreasing said auxiliary power supply (APS) such that their sum remains substantially equal to said user power request (UPR);
wherein said step (c) of progressively increasing said fuel cell power supply (FCP) is carried out only if said acquired data are detected to be greater than respective reference values of normalized voltage (VO,SC and VO,SC) as a function of normalized current, stored in a memory unit; and
only until said fuel cell power supply (FCP) is detected to be equal to said user power request (UPR). - View Dependent Claims (2, 3)
-
Specification