The DOLPHIN project is exploring an innovative route to produce light & compact PEMFC stacks, combining different approaches: reduction of rib-channel dimensions; different processes to manufacture the corresponding bipolar plates (very thin metallic and carbon sheets, GDL machining, stamping, printing, additive manufacturing, laser milling); improved ionomer and membrane; improved ink formulation and process of the catalyst layers; composite light terminal plate; Single Layer Graphene to reduce H2 cross-over… Based on the two most promising technologies selected by a step-by-step approach (1.8 cm² single cell, then 100 cm² single cell, then 100 cm² 6-cells), 5 kW demonstrator tests are planned to check the progress compared to the KPIs targeted below (Table 1).
Numerous of the objectives above have been reached, for instance a) reduction of rib-channel dimensions (CEA), b) manufacturing of bipolar plates with thin designs by GDL machining (CEA), printing (CEA), additive manufacturing (DMG-MORI), stamping (SYMBIO), and laser milling (ZSW), c) supply and use of improved ionomer and membrane (CHEMOURS), d) development of improved ink formulation and process of the catalyst layers (CEA), e) development of a composite light terminal plate (Hexcel), and f) coating of Single Layer Graphene onto membranes (UoM).
The performance reached (@3A/cm², GAIA conditions) with the TP4-2 short stack combining machined GDL and printing, is high (1.8 W/cm²) with very high compactness (6.6 kW/l @3A/cm²) and (8.4 kW/kg @3A/cm²) and a manufacturing cost realistic to target 20 €/kW and manufacturing time cycle realistic for mass production for automotive application.
The project has reached most of the objectives and numerous KPIs, and opened the route towards more efficient stacks for automotive application.