Report designInformation designAffinity Publisher2022

Assessment of the Power-to-X potential in Denmark

A 74-page research report for Green Innovation Group — translating a systematic literature review on hydrogen, ammonia, methane, and electrofuels into a clear, data-rich publication for industry and policy readers.

Sustainable Tourism in Nordic Harbout Towns — Cover design by Cláudia Noronha

Commissioned by Green Innovation Group, this report examines the prospects of Power-to-X (P2X) technologies — hydrogen, ammonia, synthetic methane, and electrofuels — as Denmark works toward full climate neutrality by 2050. Authored by Nienke Banning under academic supervision from Utrecht University, the research draws on a systematic review of scientific and industry literature to assess production potential, market readiness, and infrastructure needs across each technology pathway. My role was the full graphic design and layout of the 74-page publication, translating dense technical content, comparative data tables, and process diagrams into a report built for clarity at every level of detail.

ClientGreen Innovation Group A/S
ScopeEditorial design · Layout · Information design
ToolsAffinity Publisher
AuthorNienke Banning, Green Innovation Group
PublishedOctober 2022
Format74-page research report, PDF

This was an academic-grade research report — dense with citations, comparative cost tables, and technical process diagrams across four distinct technology pathways. The challenge was building a system that could hold all of it without ever feeling like a wall of text: custom diagrams for each conversion process, a consistent icon language for repeated concepts like electrolysis and storage, and a typographic hierarchy clear enough that a reader could skim the structure or read it cover to cover. Colour was used deliberately to help readers track which technology — hydrogen, ammonia, methane, or electrofuels — they were in at any given point in the report.

Assessment of the Power-to-X Potential in Denmark — Radial cost-comparison chart design by Cláudia Noronha

Radial cost-comparison chart

Custom radial chart translating dense cost-per-technology datasets — comparing renewable hydrogen against natural gas and coal pathways across 2020, 2030, and 2050 scenarios — into a format readable at a glance, without requiring the reader to parse a data table.

Assessment of the Power-to-X Potential in Denmark — publication design by Cláudia Noronha
Assessment of the Power-to-X Potential in Denmark — publication design by Cláudia Noronha
Assessment of the Power-to-X Potential in Denmark — publication design by Cláudia Noronha
Assessment of the Power-to-X Potential in Denmark — publication design by Cláudia Noronha
Assessment of the Power-to-X Potential in Denmark — publication design by Cláudia Noronha
Assessment of the Power-to-X Potential in Denmark — publication design by Cláudia Noronha

A selection of the report's 74 pages — custom process diagrams for hydrogen, ammonia, methane, and electrofuel pathways; comparative data tables; full-bleed photography; and a dark concluding section closing the report.

Full 74-page editorial layout — cover to references, including appendices and technical tables

Custom process diagrams  — schematic illustrations for electrolysis, ammonia synthesis, and fuel cell processes

Radial cost-comparison charts — translating dense technology cost data into readable visual comparisons

Data tables & appendices — technical specification tables formatted for clarity and comparison

Section dividers — dark, full-bleed chapter openers marking each stage of the report— a numbered, scannable reference closing the report

About the research

The report examines four Power-to-X technology pathways — hydrogen, ammonia, synthetic methane, and electrofuels — assessing each for production potential, market readiness, and infrastructure requirements toward Denmark's 2050 climate neutrality target. Research and authorship by Nienke Banning, with academic supervision from Utrecht University.

Graphic design and layout: Cláudia F. Noronha, for Green Innovation Group A/S.

Green Innovation Group

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