IN THE LAB
Project WP1 will design, build and test two lab-scale prototypes for plasma methane cracking and provide the key system parameters for the design of the large-scale prototype. WP2 will provide effective concept for gas separation and management of impurities. Within WP3 the plasma rector and the power supply will be optimised, up scaled and matched, a function test will be carried out. The large-scale prototype will be tested and validated in WP4. Below you can find information and updates on the project progress and partners’ work.
D1.1: Lab-scale prototype plasma reactors
Partner in charge: SEID AS
Dissemination level: Sensitive
D1.2: Report on the optimised power supply basis for up scaling
Partner in charge: SEID AS
Dissemination level: Sensitive
D1.3: Report on the effect of operating parameters on the KPIs of plasma methane cracking including carbon characteristics
Partner in charge: The University of Liverpool (UoL)
Dissemination level: Sensitive
The University of Liverpool (UoL)D1.4: Report on the effect of natural gas impurities on the plasma meth. cracking process
Partner in charge: The University of Liverpool (UoL)
Dissemination level: Sensitive
D1.5: Report on the reaction mechanism and pathways in plasma cracking of methane
Partner in charge: The University of Liverpool (UoL)
Dissemination level: Sensitive
D1.6: Report on the final design for the large-scale prototype
Partner in charge: SEID AS
Dissemination level: Sensitive
D1.7: Report on investigation of carbon quality and the application of produced carbon
Partner in charge: The University of Stavanger (UiS)
Dissemination level: Sensitive
D2.1: Report on optimal design and process parameters for hydrogen separation and reactor gas recycling unit
Partner in charge: The University of Stavanger (UiS)
Dissemination level: Sensitive
D2.2: Report on selected technologies and parameter set-up for capturing gas source impurities
Partner in charge: The University of Stavanger (UiS)
Dissemination level: Sensitive
D2.3: Report on optimal design and process parameters for optimised hydrogen purification units for process gas
Partner in charge: The University of Stavanger (UiS)
Dissemination level: Sensitive
D3.1: Scaled-up plasma reactor with optimized power supply at TRL 5
Partner in charge: SEID AS
Dissemination level: Sensitive
D3.2: Report on the function test of the larger-scale prototype
Partner in charge: SEID AS
Dissemination level: Sensitive
D4.1: Report on the planning and preparation for the integrated process
Partner in charge: NORCE
Dissemination level: Sensitive
D4.2: Report on ColdSpark validation and optimised tuning parameters to be used in test campaign including final input parameters for upscaling to industrial scale modelling
Partner in charge: NORCE
Dissemination level: Sensitive