Current Explorations

A selection of ongoing explorations shaped by systems thinking, applied research, and interdisciplinary environmental work.

Lifecycle Thinking in Climate Technology

Exploring how lifecycle thinking, carbon accounting, and system boundaries shape the evaluation of carbon removal systems beyond simplified carbon metrics. Environmental systems rarely operate in isolation. Working across lifecycle assessment and carbon accounting reinforced how strongly impact depends on system definition, material flows, and broader environmental context.

Exploring how lifecycle thinking, carbon accounting, and system boundaries shape the evaluation of carbon removal systems beyond simplified carbon metrics. Environmental systems rarely operate in isolation. Working across lifecycle assessment and carbon accounting reinforced how strongly impact depends on system definition, material flows, and broader environmental context.

Technical Workflows & Environmental Data Processing

Investigating analytical workflows, reproducibility challenges, and fragmented data systems across environmental and experimental research environments. Many technical challenges emerge not from a lack of data, but from the complexity of interpretation, disconnected workflows, and the limitations of analytical systems themselves.

Investigating analytical workflows, reproducibility challenges, and fragmented data systems across environmental and experimental research environments. Many technical challenges emerge not from a lack of data, but from the complexity of interpretation, disconnected workflows, and the limitations of analytical systems themselves.

Biomass Conversion & Process Interactions

Exploring how thermal conversion conditions, material behaviour, and process interactions influence environmental performance across biomass systems. Experimental systems rarely behave in fully predictable ways. Some of the most valuable insights emerge through understanding interactions between process conditions rather than isolated variables alone.

Exploring how thermal conversion conditions, material behaviour, and process interactions influence environmental performance across biomass systems. Experimental systems rarely behave in fully predictable ways. Some of the most valuable insights emerge through understanding interactions between process conditions rather than isolated variables alone.

Collaborative Research & Emerging Climate Systems

Working across interdisciplinary projects connecting environmental science, analytical systems, and applied climate research through collaborative and systems-oriented approaches. Interdisciplinary work often requires translating between different technical perspectives, priorities, and assumptions while maintaining coherence across the broader system.

Working across interdisciplinary projects connecting environmental science, analytical systems, and applied climate research through collaborative and systems-oriented approaches. Interdisciplinary work often requires translating between different technical perspectives, priorities, and assumptions while maintaining coherence across the broader system.